Your search keyword '"TOTAL suspended solids"' showing total 8,807 results

1. Sludge reduction and hydrogen production in a microbial photoelectrochemical cell with a g-C3N4/CQDs/BiOBr composite photocathode.

Author

Li, Yue, Zhao, Jinyu, Lin, Lili, Li, Jing, Gao, Ziru, Li, Jiayi, and Gu, Yingying

Subjects

TOTAL suspended solids, PHOTOELECTROCHEMICAL cells, CHEMICAL oxygen demand, MICROBIAL cells, SUSPENDED solids

Abstract

Hydrogen (H2) remains a pivotal clean energy source, and the emergence of Solar-powered Microbial Photoelectrochemical Cells (MPECs) presents promising avenues for H2 production while concurrently aiding organic matter degradation. This study introduces an MPEC system employing a g-C3N4/CQDs/BiOBr photocathode and a bioanode, successfully achieving simultaneous H2 production and sludge reduction. The research highlights the effective formation of a Z-type heterojunction in the g-C3N4/CQDs/BiOBr photocathode, substantially enhancing the photocurrent response under light conditions. Operating at – 0.4 V versus RHE, it demonstrated a current density of – 3.25 mA·cm−2, surpassing that of g-C3N4/BiOBr (−2.25 mA·cm−2) by 1.4 times and g-C3N4 (−2.04 mA·cm−2) by 1.6 times. When subjected to visible light irradiation and a 0.8 V applied bias voltage, the MPEC system achieved a current density of 1.0 mA·cm−2. The cumulative H2 production of the MPEC system reached 8.9 mL, averaging a production rate of 0.13 mL·h−1. In the anode chamber, the degradation rates of total chemical oxygen demand (TCOD), soluble chemical oxygen demand (SCOD), total suspended solids (TSS), volatile suspended solids (VSS), proteins, polysaccharides, and volatile fatty acids (VFA) in the sludge were recorded at 57.18%, 82.64%, 64.98%, 86.39%, 42.81%, 67.34%, and 29.01%, respectively. [ABSTRACT FROM AUTHOR]

Published

2025

2. Integrated biological–chemical system for phenol removal from petrochemicals wastewater.

Author

El-Bestawy, Ebtesam, Metwally, Mohamed Abdel Aziz, and Aly, Abdel Rahman Ahmed

Subjects

PHENOL removal (Sewage purification), TOTAL suspended solids, BIOCHEMICAL oxygen demand, LIFE sciences, MIXED culture (Microbiology)

Abstract

Phenol is a highly concerning pollutant in petrochemical industrial wastewater. It is extremely poisonous, carcinogenic, and persistent, therefore, it bioaccumulates in the food chain reaching humans, where it causes acute irritation to the skin, eyes, and respiratory tract, as well as chronic effects on the liver, kidneys, and nervous system. It spills or leaks easily into surface water or groundwater sources, leading to the creation of other harmful substituted compounds. Therefore, the present study aimed to design an integrated biological–chemical system (phenol degrader(s) and nanoparticle assemblage) for the efficient removal of phenolic compounds from wastewater of a poly-vinyl chloride production unit at a petrochemical company in Alexandria. Ten indigenous microbial isolates were obtained from phenol-contaminated wastewater and purified. Two fungal isolates were excluded, and eight bacterial isolates were screened for their efficiency in the degradation and removal of phenol. Three isolates (Stutzerimonas chloritidismutans strain AW-1 (A2), Stutzerimonas stutzeri ATCC 17588 = LMG 11199 (A4), and Arthrobacter ruber strain MDB1-42 (A9)) proved to be the most promising candidate(s) and were investigated as individual and mixed cultures. The mixed culture (A2, A4, and A9) proved to be the most efficient, and could achieve 98.85, 31.08, 45.83, and 45.83% removal of phenol, chemical oxygen demand (COD), biochemical oxygen demand (BOD), and total dissolved solids (TDS), respectively (all below their maximum permissible limits (MPLs)), for discharge or reuse. The bacterial consortium was decorated with the synthesized and characterized Fe3O4 Nanoparticles (NPs) at 1:3 (g/g), the optimum ratio for coating and immobilization (94.22%) of the bacterial consortium. Fe3O4 NP/bacteria assembly (trial 1) showed the highest RE of 20, 56.66, 47.06, 25.16, and 96.78% for TDS, total suspended solids (TSS), BOD, COD, and phenol, respectively, all after only 1 h except TSS (2 h), compared to the treatment with undecorated bacterial consortium (trial 2) or bacteria-free Fe3O4 NPs (trial 3). It is concluded that the proposed treatment system (Fe3O4 NP/bacterial assembly) is an extraordinarily effective, practical, quick, clean, renewable, long-lasting, ecologically friendly, and simply implemented technology for remediating phenol-contaminated wastewater compared to other conventional treatment methods. Concerning TSS, COD, and phenol residues that are still higher than their MPLs, it can be easily overcome by increasing the exposure (contact) time or the dose of the Fe3O4 NP/bacterial assembly, using multiple units of the proposed treatment in sequence, or fixing the decorated bacteria as a biofilm system and treating the effluent in a continuous mode. [ABSTRACT FROM AUTHOR]

Published

2025

3. An approach on sustainable leather production system and method: Chromium tanning in vacuum operated reaction vessel for sheepskins.

Author

Onem, Ersin, Yorgancioglu, Ali, Bitlisli, Behzat Oral, Yilmaz, Onur, Cavdar, Ugur, Yilmaz, Yalcin, and Isbecer, Alperen

Subjects

SUSTAINABILITY, TOTAL suspended solids, CHEMICAL oxygen demand, ANALYTICAL chemistry, TENSILE strength

Abstract

Conventional leather chromium tanning requires long process time, excessive water usage and results in low float exhaustion of chrome salts. Our study aimed to eliminate the negative aspects of chromium tanning by designing a vacuum operated reaction vessel/drum and suitable production recipe for sheepskins. Tanning time decreased from 10 h to 6 h under vacuum. Float uptake was increased almost 30% according to the chrome oxide (Cr2O3) contents in leather and residual floats. Using the process water was also considerably saved. Process success was proved with Cr2O3 contents in leather and wastewater by chemical analyses after tanning operations. Shrinkage temperature (Ts) controls as hydrothermal stability indicator of collagen were also realized on the tanned skins. Pollution loads of conventional and vacuum operated chromium tanning were discussed with chemical oxygen demand (COD), total suspended solids (TSS), conductivity and salinity in the tanning baths. Physico-mechanical properties were also compared of the final products by tensile strength and tear load analyses. The results showed that vacuum operated chromium tanning was highly effective and promised for the sustainable production of leather products. [ABSTRACT FROM AUTHOR]

Published

2025

4. Sustainable treatment of combined industrial wastewater: synergistic phytoremediation with Eichhornia crassipes, Pistia stratiotes, and Arundo donax in biofilm wetlands.

Author

Zeb, Bibi Saima, Mahmood, Qaisar, Irshad, Muhammad, Zafar, Habiba, and Wang, Ru

Subjects

*SUSTAINABILITY, *INDUSTRIAL wastes, *SEWAGE purification, *TOTAL suspended solids, *WASTEWATER treatment, *HEAVY metals

Abstract

This study investigates the treatment of combined wastewater from Hattar Industrial Estate using Biofilm Wetlands (BW) planted with monoculture species: Eichhornia crassipes (EAC), Pistia stratiotes (WL), and Arundo donax (GR). Each species showed distinct capabilities in organic degradation, metal uptake, and pH stabilization. BW2, planted with EAC, achieved the highest total solids (TS) and total suspended solids (TSS) removal efficiencies of 66% and 65%, respectively. GR effectively reduced initial COD concentrations from 232 mg/L to 58.67 mg/L, while EAC and WL reached reductions to 72.78 mg/L and 70.67 mg/L, respectively. Overall, the plant efficiency ranking was EAC > GR > WL. These findings underscore the potential of these plant species in synergistic BW systems, highlighting their role as natural solutions for remediating complex industrial effluents. This research contributes to advancing eco-friendly wastewater treatment approaches, suggesting promising applications for sustainable practices in industrial contexts. RESEARCH HIGHLIGHTS: This research assessed the effectiveness of phytoremediation using Eichhornia crassipes, Pistia stratiotes, and Arundo donax for removing pollutants i.e. heavy metals (Cd, Pb, Ni, K, Ca, Mg, Na, Fe, Hg) nitrates, phosphates and sulfates from combined industrial wastewater of Hattar Industrial Estate Pakistan. It highlighted the potential of selected plant species' as natural treatment systems, providing crucial insights into their efficiency. Findings contribute to understanding nature-based solutions for complex industrial effluents. NOVELTY: This study harnessed the potential of three macrophytes to tackle industrial effluents, marking their debut in wastewater treatment. By championing environmentally conscious practices, it underscores the need for effective industrial wastewater management while promoting greener and more sustainable approaches within the industrial sector. [ABSTRACT FROM AUTHOR]

Published

2025

5. Impact of olive mill wastewater on the operational efficiency of wastewater treatment plants in the Gaza Strip.

Author

Al Manama, Ahmed, AlShawa, Izziddin, and Albahnasavi, Ahmed

Subjects

TOTAL suspended solids, BIOCHEMICAL oxygen demand, SEWAGE disposal plants, CHEMICAL oxygen demand, FACTORY design & construction

Abstract

The improper disposal of olive mill wastewater (OMW) presents a significant environmental challenge for wastewater treatment plants (WWTPs) in the Gaza Strip. This study aims to evaluate the impact of OMW discharge on the operational efficiency of WWTPs, particularly during the olive harvesting season. To achieve this, samples were collected from both olive mills and WWTPs across the region and analyzed for key parameters such as chemical oxygen demand (COD), biological oxygen demand (BOD5), phenols, oil and grease, and total suspended solids (TSS). The study also calculated the total pollutant load generated by the olive oil production process. The results revealed that olive oil production in the Gaza Strip generates substantial amounts of pollutants, including 3374.76 tons of COD, 797.55 tons of BOD5, 1.33 tons of phenols, 184.42 tons of oil and grease, and 1204.99 tons of TSS. During the olive harvesting season, influent pollutant levels at the Gaza Central WWTP spiked to 3040 mg/L for COD, 1382 mg/L for BOD5, and 1810 mg/L for TSS, which exceeded the plant's design capacity. In contrast, the North Gaza WWTP, which serves fewer olive mills, recorded lower pollutant values of 760 mg/L for BOD5 and 933 mg/L for TSS. These findings underscore the significant seasonal impact of OMW on the WWTPs, highlighting the need for improved management strategies to mitigate the environmental and operational challenges associated with OMW disposal. [ABSTRACT FROM AUTHOR]

Published

2025

6. Physico-chemical characteristics of fresh faecal matter from a residential apartment: a short-term study conducted at Thiruvananthapuram, Kerala, India.

Author

Sakhre, Saurabh, S, Reshma Anil, S, Ajantha, Vijay, Ritesh, and Bhaskaran, Krishnakumar

Subjects

LEAD, FECES, TOTAL suspended solids, DIETARY patterns, HEAVY metals

Abstract

The study presents findings from physico-chemical and elemental analyses of fresh faecal matter from a residential apartment in Thiruvananthapuram, Kerala, India. Samples were taken every 8–10 days over 4 months to account for variability and establish baseline data. The study also examines the influence of dietary patterns and toilet cleaners on faecal sludge properties. Key results include high values of chemical oxygen demand (1850 ± 50 mg/L), total suspended solids (866.6 ± 200 mg/L), total Kjeldahl nitrogen (67.5 ± 20 mg/L), potassium (62.9 ± 10 ppm), sodium (49.1 ± 12 ppm) and iron (30.2 ± 15 ppm). Elemental analysis revealed carbon (31.62%), hydrogen (4.51%), nitrogen (2.32%) and sulphur (2.22%), with a C: N ratio of 13:1. Common and heavy metals were also measured, including sodium (49.1 ppm), magnesium (16.1 ppm), potassium (62.9 ppm), iron (30.29 ppm), aluminium (8.64 ppm), calcium (4.70 ppm), lead (0.32 ppm) and silver (1.14 ppm). These findings are significant for the scientific community and practitioners in designing effective treatment processes to replace septic tanks or soak pits, especially relevant for coastal regions where 37% of the global population lives at a population density twice the global average. [ABSTRACT FROM AUTHOR]

Published

2025

7. Wood biowaste in goatskin preservation to reduce salinity in the tannery wastewater.

Author

Enan, Eshtiyaq Tauhid, Miem, Md. Mukimujjaman, and Hashem, Md. Abul

Subjects

BIOCHEMICAL oxygen demand, TOTAL suspended solids, CHEMICAL oxygen demand, SCANNING electron microscopes, SALINITY, WOOD waste

Abstract

A prime technique for paused bacterial degeneration in hide/skin is preservation. The most used and familiar technique for preservation is salt curing. In this research, biowaste (sawdust) is used with a lower salt percentage to preserve goatskin. Sawdust is an organic material. It can be used as a preserving agent to reduce salinity in the tannery effluent. Different parameters were observed during the preservation period, e.g., hair slips, moisture content, bad odor, total Kjeldahl nitrogen (TKN), hydroxyproline, hydrothermal stability, and bacterial count, and matched with traditional method. The results allude that 5% sawdust with less amount of salt could preserve goatskin for 28 days. The shoe upper leather was produced from both conventional and experimental samples after they were processed. After that, various physical and organoleptic tests were conducted and compared. For characterizing the material, gas chromatography–mass spectrometry was tested. Besides, scanning electron microscope analysis was also conducted which showed that there was no structural damage in fibers. Various pollution parameters were determined and compared with conventional samples where the results show that the reduction for Cl−, total dissolved solids (TDS), biochemical oxygen demand, total suspended solids, and chemical oxygen demand are 41.4%, 22.7%, 45.3%, 31.6%, and 53.3%, respectively, in the liquor from soaking operation. Hence, the sawdust-based organic preservation method is verified to be beneficial compared to the conventional method in reducing pollution load in the tannery effluent. [ABSTRACT FROM AUTHOR]

Published

2025

8. Effects of Different Carbon Sources on Water Quality, Physiology, Growth, and Intestinal Microbiota in Cultured Sea Cucumber (Apostichopus japonicus) With Biofloc Technology.

Author

Xiao, Haoran, Ye, Qi, Wang, Zitong, Li, Weiyan, Ruan, Shuchao, Han, Lingshu, Zhao, Kaihao, Li, Xiaonan, Tian, Wanrong, Chang, Yaqing, Ding, Jun, and Bailey, Christyn

Subjects

*TOTAL suspended solids, *SEA cucumbers, *SODIUM acetate, *SUSTAINABLE aquaculture, *NITROGEN compounds, *APOSTICHOPUS japonicus

Abstract

The biofloc technology (BFT) in sea cucumber (Apostichopus japonicus) farming utilizes nutrient cycling, driven by heterotrophic microorganisms, to improve water quality and promote sustainable aquaculture. This study explored the potential of sodium bicarbonate and sodium acetate as novel carbon sources, which may offer advantages in maintaining water stability and enhancing microbial diversity compared to traditional carbon sources. Juvenile sea cucumbers were cultured in a 64‐day trial and assigned to five treatment groups: S (sucrose), SSa (S + sodium acetate), SSb (S + sodium bicarbonate), Nc (no carbon source), and Cg (control group), each treatment group was repeated three times (n = 3). The inclusion of sodium bicarbonate and sodium acetate significantly improved water quality parameters. The group SSb exhibited a higher pH (8.28), and significantly lower ammonia nitrogen (0.501 mg L−1), and nitrite levels (0.031 mg L−1) compared to other groups. Additionally, the biofloc volume (BFV; 17 mL L−1), total suspended solids (TSSs; 238 mg L−1), and protein content (13.9%) in the group SSb were all within the tolerance range for sea cucumbers. Group SSb also showed the significantly highest weight gain rate (WGR; 78.5%) and specific growth rate (SGR; 0.91%), alongside increased enzyme activities, including superoxide dismutase (SOD; 179 U mL−1) and peroxidase (POD; 1.59 U mL−1), which were significantly higher than those in other groups. Furthermore, the group SSb demonstrated enhanced gut microbiota diversity, characterized by a higher abundance of beneficial Bacillus and lower levels of harmful Vibrio and Pseudomonas. The addition of SSb significantly improved water quality by maintaining optimal pH and reducing harmful nitrogen compounds, which in turn supported enhanced physiological growth and increased gut microbiota diversity, indicating its potential as a superior carbon source in biofloc systems. [ABSTRACT FROM AUTHOR]

Published

2024

9. Stocking densities of Colossoma macropomum in the initial grow-out phase using biofloc technology.

Author

Montelo, Renato Henrique Costa, dos Santos, Raphael Brito, Fugimura, Michelle Midori Sena, Ono, Eduardo Akifumi, Chaves, Fellipy Augusto Holanda, Mattioli, Cristiano Campos, and Affonso, Elizabeth Gusmão

Subjects

*TOTAL suspended solids, *TAMBAQUI, *FISH farming, *ELECTRIC conductivity, *INDUSTRIAL costs, *FISH stocking

Abstract

The objective was to identify the best stocking density in the initial grow-out phase of tambaqui (Colossoma macropomum) using biofloc technology (BFT) and evaluate the effects of the densities on water quality, zootechnical performance and the metabolic profile of fish and production costs. Juveniles (56.5 ± 1.69 g) were reared in the densities: 15 (BFT15), 30 (BFT30) and 45 (BFT45) fish.m−3, in triplicate, for 80 days. The use of BFT inoculum at the beginning contributed to the maintenance of adequate ammonia and nitrite concentrations at all densities, though with a higher nitrite concentration in BFT45. Electrical conductivity (EC), nitrite, total suspended solids (TSS), pH, alkalinity and hardness were different (p < 0.05) between BFT15 and BFT45. EC and TSS increased according to the increase in density, and were higher in BFT45. The highest final weight and specific growth rate were observed in BFT15, while the apparent feed conversion was lower for BFT15 and BFT30 compared to BFT45 (p < 0.05). Biomass and productivity were higher (p < 0.05) in BFT45. The values of hematocrit, number of erythrocytes and the hemoglobin concentration were higher in BFT45 (p < 0.05). Regarding production costs, the highest average feed expenditure occurred in BFT45; however, expenditure with electricity was lower at this density. The increase in biomass in BFT45 generated the reduction of the partial average cost (ACp). It can therefore be concluded that the best stocking density for initial grow out of tambaqui is 45 fish.m−3, since it presents better productivity and biomass, lower ACp and average expenditure on electricity when using BFT. [ABSTRACT FROM AUTHOR]

Published

2024

10. Water quality in biofloc technology (BFT): an applied review for an evolving aquaculture.

Author

Khanjani, Mohammad Hossein, Mohammadi, Alireza, and Emerenciano, Maurício Gustavo Coelho

Subjects

*TOTAL suspended solids, *WATER quality management, *SUSTAINABLE aquaculture, *ANALYSIS of heavy metals, *BIBLIOMETRICS

Abstract

Biofloc technology (BFT) has been identified as an effective and sustainable aquaculture method, particularly beneficial for warm-water species in tropical areas. This technology is widely used in intensive aquaculture for several aquatic species due to its capacity to significantly reduce water exchange rates, benefiting both production systems and the environment. The efficacy of BFT in farming operations is directly related to a proper management of water quality parameters within the optimal range of the target species, as these parameters directly impact the yield of production units. Essentially, BFT functions as a water quality management system, converting harmful nitrogenous waste such as ammonia and nitrite into less harmful forms such as nitrates through microbial activity, ensuring the health of aquatic organisms. Key environmental factors such as temperature, dissolved oxygen (DO), pH, salinity, alkalinity, TAN, nitrite, nitrate, settleable solids (SS), and total suspended solids (TSS) can affect the growth of aquatic species and the functionality of the microbial community. This review brings (i) a comprehensive bibliometric analysis on biofloc and water quality, (ii) highlights optimal ranges, and (iii) key observations of several water parameters including temperature, salinity, nitrogenous compounds, SS, TSS, DO, phosphate, pH, and alkalinity in BFT rearing conditions for key aquatic species. Elements such as countries, thematic and keywords, and authors were explored, correlated, and discussed. In addition, this manuscript also (iv) discusses the presence of heavy metals and microplastics (MPs) in BFT culture water. A dedicated review on water quality in biofloc technology will contribute to future research and development (R&D) in this topic, support decision-making to improve farming operations, and can help further expansion of BFT-based aquaculture. [ABSTRACT FROM AUTHOR]

Published

2024

11. Characteristics of Suspended Solid Responses to Forest Thinning in Steep Small Headwater Catchments in Coniferous Forest.

Author

Lim, Honggeun, Li, Qiwen, Choi, Byoungki, Choi, Hyung Tae, and Nam, Sooyoun

Subjects

FOREST thinning, TOTAL suspended solids, SUSPENDED solids, CONIFEROUS forests, TREE farms

Abstract

We examined the responses of suspended solids to forest thinning in steep small headwater catchments, PT (0.8 ha) and PR (0.7 ha), that drain a Korean pine (Pinus koraiensis) plantation forest. Based on a paired-catchment design, the relationship between total suspended solids (TSS) and the time differential of water runoff (dQ/dt) indicated a difference in the characteristics of TSS in the rising and falling stages within the initial two years after forest thinning. The relatively high initial TSS responded to the concentration-based first flush criterion in the early stage of the rainfall event concentrated in this initial period after the thinning. The rate of TSS event loads in the PT catchment was 4.3-fold greater than that in the PR catchment within the initial two years after forest thinning. This was induced by the low disturbance of soil surface by forest workers using chainsaws and non-heavy machinery. Three years later, the TSS event loads in the PT catchment appeared to decrease due to trapping and settling by protective vegetation. Therefore, mitigating accelerated TSS events during forest thinning requires appropriate site-specific land preparation, particularly for improving stream water quality in forested catchments. [ABSTRACT FROM AUTHOR]

Published

2024

12. Effects of War-Related Human Activities on Microalgae and Macrophytes in Freshwater Ecosystems: A Case Study of the Irpin River Basin, Ukraine.

Author

Nezbrytska, Inna, Bilous, Olena, Sereda, Tetyana, Ivanova, Natalia, Pohorielova, Maryna, Shevchenko, Tetyana, Dubniak, Serhii, Lietytska, Olena, Zhezherya, Vladyslav, Polishchuk, Oleksandr, Kazantsev, Taras, Prychepa, Mykola, Kovalenko, Yulia, and Afanasyev, Sergyi

Subjects

CARBON content of water, CHLOROPHYLL in water, DISSOLVED organic matter, TOTAL suspended solids, BODIES of water, MACROPHYTES

Abstract

Throughout the world, river basins are directly or indirectly affected by human activities, reducing local and global biodiversity and preventing the ecosystem from properly functioning. Our research focused on the Irpin River basin (Ukraine), whose water bodies have experienced various impacts due to human activities, including the unexpected extremes caused by military operations in the catchment area: long-term flooding, disturbance of free flow, significant water level fluctuations, etc. The study hypothesized that the primary factors determining the structural and spatial distribution of quantitative indicators of microalgae and aquatic macrophytes are the result of various hydromorphological changes, that lead to changes in the physical and chemical parameters of the aquatic environment. Very high values of chlorophyll a in the water column (59–106 µg · L−1), an increase in the abundance (number of cells) and biomass of algae (due to the predominance of certain groups in the transformed sections), as well as saprobic index were recorded in the sections of the Irpin River basin that underwent significant hydromorphological changes. Our results revealed a strong correlation between phytoplanktonic (in the water column) chlorophyll a levels and water temperature (r = 0.76, p < 0.001), as well as organic phosphorus and polyphosphate concentrations (r = 0.61, p < 0.01). ANOVA and Monte Carlo permutation tests in a Canonical Correspondence Analysis (CCA) showed that the abundance of different divisions of phytoplankton and phytobenthos were significantly and similarly related to several environmental variables. We observed a positive correlation between the number of cyanobacteria and the concentration of ammonium nitrogen, nitrites, and phosphorus compounds. An increase in dissolved organic matter in the water can explain the increase in the biomass of Dinoflagellata and Euglenophyta. Species richness and the cover values of the macrophytes also clearly reflected changes in vegetation activity in sections of the Irpin River caused by hydromorphological changes. The results indicated that long-term flooding had the most negative impact on macrophyte communities. At some sites, the impact was so severe that the number of macrophyte species was very low. The total number of macrophyte species showed a significant negative correlation with total suspended solids (r = −0.51, p < 0.05) and phytoplankton chlorophyll a concentration (r = −0.73, p < 0.001). Our results provide a scientific basis for predicting changes in riverine microalgal and aquatic macrophyte communities due to extreme hydrological events. [ABSTRACT FROM AUTHOR]

Published

2024

13. Evaluating the role of hydraulic retention time (HRT) in pollutant removal efficiency using <italic>Arundo donax</italic> in vertical subsurface flow constructed wetlands.

Author

Ahmed, Ali M. and Kareem, Sabreen L.

Subjects

*SEWAGE disposal plants, *SEWAGE purification, *TOTAL suspended solids, *BIOCHEMICAL oxygen demand, *CHEMICAL oxygen demand

Abstract

AbstractThis research explores the effectiveness of phytoremediation as a sustainable method for sewage treatment, focusing on the performance of Arundo donax in a subsurface vertical flow constructed wetland at the Al-Muamirah treatment station in Hilla, Iraq. The study presents an alternative to conventional sewage treatment systems, particularly suited for resource-constrained regions. Key pollutants such as biochemical oxygen demand (BOD), chemical oxygen demand (COD), total nitrogen (TN), total phosphorus (TP), and total suspended solids (TSS) were analyzed to assess removal efficiencies. Data were collected over a period from October 2023 to March 2024 using a batch-mode system with an influent flow rate of 0.05276 m³/day (± 0.016 m³/day). Optimal hydraulic retention times (HRT) were identified at 5 days for BOD, COD, and TSS, while TN and TP required extended retention of 8 days due to their reliance on slower microbial and adsorption processes for effective removal. A control unit, lacking plant integration, was used for comparative analysis. The results demonstrated that Arundo donax achieved removal efficiencies of 91% for BOD, 84.28% for COD, 68.37% for TN, 73.42% for TP, and 89.23% for TSS, significantly outperforming the control setup. These findings emphasize the critical role of optimized HRT in enhancing pollutant removal, particularly for nutrients like TN and TP, and underscore the potential of Arundo donax as an eco-friendly solution for wastewater management. [ABSTRACT FROM AUTHOR]

Published

2024

14. Recovery of clinically relevant multidrug‐resistant Klebsiella pneumoniae lineages from wastewater in Kumasi Metropolis, Ghana.

Author

Ekhosuehi, Amen, Ikhimiukor, Odion O., Essandoh, Helen Michelle Korkor, Asiedu, Nana Yaw, Aighewi, Isoken Tito, Sunmonu, Gabriel Temitope, Odih, Erkison Ewomazino, Oaikhena, Anderson O., Cyril‐Okoh, Dorothy, Yeboah, Clara, and Okeke, Iruka N.

Subjects

*TOTAL suspended solids, *BIOCHEMICAL oxygen demand, *SEWAGE, *SEWAGE lagoons, *PUBLIC health

Abstract

Antimicrobial resistance (AMR) is under‐monitored in Africa, with few reports characterizing resistant bacteria from the environment. This study examined physicochemical parameters, chemical contaminants and antibiotic‐resistant bacteria in waste stabilization pond effluents, hospital wastewater and domestic wastewater from four sewerage sites in Kumasi. The bacteria isolates were sequenced. Three sites exceeded national guidelines for total suspended solids, biochemical oxygen demand, chemical oxygen demand and electrical conductivity. Although sulfamethoxazole levels were low, the antibiotic was detected at all sites. Multi‐drug‐resistant Klebsiella pneumoniae and Pseudomonas aeruginosa were isolated with multi‐locus sequence typing identifying K. pneumoniae strains as ST18 and ST147, and P. aeruginosa as ST235, all of clinical relevance. A comparison of ST147 genomes with isolates from human infections in Africa showed remarkable similarity and shared AMR profiles. Thirteen of the twenty‐one plasmids from ST147 harbored at least one AMR gene, including blaCTX‐M‐15 linked to copper‐resistance genes. Our study demonstrated high bacterial counts and organic matter in the analysed wastewater. The recovery of clinically significant isolates with multiple antibiotic and heavy metal resistance genes from the wastewater samples raises public health concerns. [ABSTRACT FROM AUTHOR]

Published

2024

15. Assessment of exurban expansion on water quality in Rock Creek of the Yellowstone River in southcentral Montana, USA.

Author

Arthun, David and Zaimes, George

Subjects

*TOTAL suspended solids, *TOTAL maximum daily load for water pollutants, *WATER quality, *WATER pollution, *ENVIRONMENTAL quality

Abstract

Exurban expansion can degrade significantly stream water quality. This study was conducted on Rock Creek of the Clark's Fork of the Yellowstone River in southcentral Montana, USA. The impact from recent exurban expansion was evaluated by a baseline study measuring total suspended solids (TSS), total phosphorus (TP), total nitrogen (TN) and nitrites (NO2) and nitrates (NO3) together. This was part of a larger study by Montana Department of Environmental Quality to assess water quality, identify sources of pollution and develop total maximum daily loads (TMDL). Water samples were measured for these analytes at nine (2022) and 11 (2023) locations with different land-uses over seven periods (both years). Seasonal spikes, corresponding to runoff (2022, late May), occurred in TSS, TP and TN. Data from 2023 showed similar but reduced levels occurring in June for TSS and TP. Total suspended solids, TP, NO2 and NO3 concentrations increased by location year over year, 2022 to 2023. The high relative concentrations of NO2 and NO3 in Rock Creek are primarily associated with exurban expansion, a significant threat to stream quality and wildlife habitat in Montana. The results will assist county planners in land use decisions. KEY POLICY HIGHLIGHTS: Nitrite and nitrate levels were significantly higher in Rock Creek near exurban areas. Nitrite and nitrate and total phosphorus levels increased 23% and 27%, respectively, from 2022 to 2023. Exurban expansion has accounted for 78% of homes built in our study area, with an accompanied 31,840 acres of habitat loss. Two sites are within the Greater Yellowstone Ecosystem and all sites are within the historic home range for the grizzly bear (Ursus arctos) and wolverine (Gulo gulo). [ABSTRACT FROM AUTHOR]

Published

2024

16. A new diatom-based multimetric index (MMI-D) for ecological health monitoring in the Tropical Rift Valley Lake (Lake Hawassa, Ethiopia).

Author

Gelaw, TW, Mengistou, S, and Barker, PA

Subjects

*TOTAL suspended solids, *ENVIRONMENTAL health, *BIOINDICATORS, *ENVIRONMENTAL monitoring, *INDEPENDENT sets

Abstract

Multimetric assessment is one of the important tools for diagnosing, detecting and measuring impairment in ecosystem function in lentic ecosystems. It enhances detection capabilities across a broader variety of stressors and offers a more complete picture of ecological conditions than single metrics or biological indicators. In this context, a diatom-based multimetric index (MMI-D) has been developed to evaluate the ecological health of Lake Hawassa. Physicochemical and benthic diatom sampling was conducted at nine sites along the lakeshore, representing varying levels of human disturbance, from February to November in2015 and 2016. The sampling sites were classified a priori into three categories: minimally disturbed (three sites), moderately disturbed (three sites) and highly disturbed (three sites). This classification, was based on a clustering analysis using the percent disturbance score (PDS). Of the 24-diatom candidate metrics, only ten were chosen as core metrics for the development of MMI-D, based on redundancy analysis, reaction to environmental conditions, percent discriminatory efficiency (%DE) and box plots. The newly established MMI-D clearly distinguished between reference and non-reference sites, and between the lake's three clusters. The MMI-D's performance was validated using independent data sets from lakes Hawassa and Ziway and it demonstrated the best capability for discrimination between different disturbance levels. MMI-D 2-stage Least Squares (2SLS) regression analysis revealed an inverse but robust connection with the PDS, indicating its responsiveness to Lake Hawassa habitat quality degradation (n = 9, R2 = 0.921, p < 0.001). The MMI-D revealed a high %DE (95.1%) and a negative but significant connection with nutrients, total suspended solids (TSS), and turbidity (R2 > 0.6; p < 0.05). Generally, it can be concluded that this index is a powerful tool that could assist endusers by providing a practical method for measuring the ecological quality of Lake Hawassa. [ABSTRACT FROM AUTHOR]

Published

2024

17. Unleashing the power of remote sensing data in aquatic research: Guidelines for optimal utilization.

Author

Ogashawara, Igor, Wollrab, Sabine, Berger, Stella A., Kiel, Christine, Jechow, Andreas, Guislain, Alexis L. N., Gege, Peter, Ruhtz, Thomas, Hieronymi, Martin, Schneider, Thomas, Lischeid, Gunnar, Singer, Gabriel A., Hölker, Franz, Grossart, Hans‐Peter, and Nejstgaard, Jens C.

Subjects

*BODIES of water, *TOTAL suspended solids, *DISSOLVED organic matter, *TERRITORIAL waters, *WATER quality, *OCEAN color, *BLUE light

Abstract

The article "Unleashing the power of remote sensing data in aquatic research: Guidelines for optimal utilization" published in Limnology & Oceanography Letters discusses the importance of remote sensing data in lake studies, focusing on the estimation of chlorophyll a as a water quality indicator. It highlights the complexities of utilizing remote sensing data in limnological studies, emphasizing the need for careful product selection, atmospheric correction, and validation processes. The article provides recommendations for optimal utilization of remote sensing data in aquatic research, including choosing the right products, processes, and strategies for improving data quality and collaboration between aquatic sciences and remote sensing communities. [Extracted from the article]

Published

2024

18. Estimation of Water Surface Reflectance and Total Suspended Solid Using MODIS Images for a Reservoir in the Brazilian Semiarid Region.

Author

Rocha, V. N. L., Santos, C. A. G., and Silva, R. M.

Subjects

MODIS (Spectroradiometer), WATER management, TOTAL suspended solids, WATER shortages, WATER pollution

Abstract

Reservoirs are essential sources to ensure water supply, especially in regions with a semiarid climate, prone to prolonged drought periods and water scarcity. An exemplary case is the semiarid region of Paraíba State, Brazil. Monitoring of water surface reflectance (WSR) and total suspended solids (TSS) is indispensable to address issues such as erosion, sediment transport, depo sition, reservoir siltation, water pollution, and associated human health risks, ultimately aiding in water resources management. This study introduced a novel approach to estimating the spatiotemporal dynamics of WSR and TSS, utilizing automated methods and MODIS images over 17 years (2000 ~ 2016) for the Epitácio Pessoa Reservoir. Three models, (a) model 1 (M1), (b) model 2 (M2), and (c) model 3 (M3), were employed to estimate WSR and TSS, chosen for their replicability, mathematical simplicity, and ecosystem similarity. A total of 775 images from the Moderate Resolution Imaging Spectroradiometer (MODIS) onboard the Terra satellite, along with observed data, were used for the estimation. Model M3 yielded the best performance for estimating TSS, with values ranging from 270 ~ 961 mg/L (r = 0.57). Furthermore, a strong correlation (r > 0.93) was observed between the mean reflectance values for pixels sampled using two distinct extraction procedures (longitudinal profile and specific sampling points). This strong correlation underscores the potential utility of MODIS images for effective monitoring of WSR and TSS in comparatively smaller bodies of water in the Brazilian semiarid region. Importantly, this study represents one of the first applications for estimating WSR and TSS for a reservoir situated in a semiarid climate region. The estimates of WSR and TSS could hold significant implications for environmental monitoring and water management of such reservoirs. In conclusion, automated estimation of WSR and TSS could serve as a valuable tool for decision-makers in predicting silting, sediment yield, and reservoir water quality. [ABSTRACT FROM AUTHOR]

Published

2024

19. Wastewater Quality Assessment at Amarah Sewage Treatment Plant: Implications for Agricultural Use and Environmental Safety.

Author

Hassan, Nezar and Alewi, Haleem

Subjects

SEWAGE disposal plants, TOTAL suspended solids, WATER purification, ENVIRONMENTAL security, SEWAGE purification

Abstract

This study examines the quality of treated wastewater from the Amarah Sewage Treatment Plant (ASTP) in Iraq for potential agricultural use and compares it to the water quality standards of Iraq, Egypt, and the USA. The effluent was analyzed over a five-month period for various parameters, including pH, Total Suspended Solids (TSS), Total Dissolved Solids (TDS), and concentrations of ions, such as chloride (Cl-), sulfate (SO4-2), phosphate (PO43-), nitrate (NO3-), and ammonia (NH3). The findings showed that the pH and TDS measurements of the treated wastewater fell within the acceptable range, according to the regulations set by all three countries. The concentrations of Cl-, SO4-2, PO43-, NO3-, and NH3 in the treated wastewater were also within the acceptable limits set by the Iraqi standards. However, chloride and sulfate levels occasionally exceed permissible thresholds. The treated wastewater from ASTP is generally suitable for the irrigation of certain crops, but it is important to implement a monitoring and control system to ensure consistent water quality. Finally, investments are needed to improve treatment processes and establish educational programs for farmers to enhance their understanding of proper wastewater usage. These measures are crucial for protecting public health and conserving water resources, particularly in regions facing water scarcity. [ABSTRACT FROM AUTHOR]

Published

2024

20. Revolutionizing Urban Water Management: A Green-Aware Study Based on Innovative Approach.

Author

Al-Zubaidi, Elaf Dheyaa Abdulridha, Ismael, Hussein Abd Aljabbar, Abdulrahman, Mayasa M., Tawfeq, Jamal Fadhil, Sutar, Prasanna, Bandyopadhyay, Debjyoti, Kshirsagar, Mugdha, Shah, Pritesh, and Sekhar, Ravi

Subjects

WATER quality management, TOTAL suspended solids, URBAN runoff, WATER management, MUNICIPAL water supply, URBAN runoff management

Abstract

The study aimed to improve urban stormwater management by optimizing best management practices and low-impact development (BMP-LID) techniques using a novel multi-task spider wasp optimization (MT-SWO) approach. The research targeted urban runoff issues exacerbated by climate change, urbanization, and aging infrastructure, focusing on Chongqing's Shapingba and Jiangbei districts. BMP-LID strategies, including infiltration, bio-retention reservoirs, and permeable road surfaces, were evaluated and optimized using an integrated Stormwater Management Model (SWMM) and MT-SWO framework. Simulations considered pollutant reductions in Total Suspended Solids (TSS) and Total Nitrogen (TN) under rainfall return periods of 3 and 9 years. The key findings revealed that bio-retention reservoirs were the most effective BMP, achieving a 76% reduction in TSS and an 85% reduction in TN at 6% area allocation compared to baseline conditions. The MT-SWO approach facilitated the identification of optimal BMP configurations, enabling significant pollutant reductions while balancing spatial and economic constraints. MT-SWO's ability to dynamically explore and exploit solution spaces allowed tailored BMP strategies that significantly outperformed traditional methods. The study underscores the potential of MT-SWO to revolutionize urban stormwater management by offering efficient, adaptive, and data-driven solutions. However, the computational demands and data requirements of MT-SWO highlight scalability challenges for larger urban contexts. By demonstrating superior pollutant reduction capabilities, the research provides a critical step toward sustainable water quality management in rapidly urbanizing and climate-sensitive regions. [ABSTRACT FROM AUTHOR]

Published

2024

21. Exploring trends of wastewater treatment by using nano-materials and their composites with bio-polymer.

Author

Rauthan, Shivani and Singh, Ajay

Subjects

WATER purification, TOTAL suspended solids, BIOCHEMICAL oxygen demand, WASTE treatment, WASTEWATER treatment

Abstract

Industries have employed various wastewater treatment methods and techniques to reduce pollution load, including biological oxygen demand (BOD), chemical oxygen demand (COD), total suspended solids (TSS), total dissolved solids (TDS), color, and toxic metals. This review paper aims to highlight and analyze various water treatments with special focus on the use of nanomaterials and their composites with biopolymers. Many other techniques for wastewater treatment (WWT) have been developed using nanotechnology. These techniques are usually based on nanofiltration, disinfection, adsorption and biosorption, photocatalysis, and sensing technology. Techniques like fluorescence in situ hybridization (FISH) are used for clarification of composition, amount analysis, and dispensing of various bacterial groups in biofilms and granules. By review, it can be concluded that when the old primary water treatment technique is clubbed with nano-composite adsorption, Composites containing specific biopolymers such as starch, chitosan, collagen, or cellulose-lignin materials can effectively adsorb nearly 100% of harmful metals such as arsenic, cadmium, mercury, lead, and chromium (As, Cd, Hg, Pb, Cr) from wastewater, while also effectively removing color. Enhancing therapeutic efficacy, longevity, safety, and cost-effectiveness requires research into these methods. [ABSTRACT FROM AUTHOR]

Published

2024

22. Monitoring the Impact of Floods on Water Quality Using Optical Remote Sensing Imagery: The Case of Lake Karla (Greece).

Author

Perivolioti, Triantafyllia-Maria, Zachopoulos, Konstantinos, Zioga, Marianthi, Tompoulidou, Maria, Katsavouni, Sotiria, Kemitzoglou, Dimitra, Terzopoulos, Dimitrios, Mouratidis, Antonios, and Tsiaoussi, Vasiliki

Subjects

TOTAL suspended solids, NATURAL disasters, SUSPENDED solids, WATER quality, ENVIRONMENTAL management

Abstract

This study investigates the performance of published bio-optical remote sensing indices/algorithms for monitoring water quality changes in Lake Karla, Greece, caused by Storm Daniel after the September 2023 flooding event. Commonly applied indices were utilised to estimate chlorophyll-a (Chl-a) and total suspended solids (TSS) using Sentinel-2 high-resolution optical imagery. In situ measurements were undertaken and water samples were collected during the pre-flooding period, post-flooding, and one-year post-flood, providing a basis for validating the remote sensing models. Monitoring results showed that most physicochemical parameters changed considerably. Chl-a and TSS were estimated by testing five and seven indices, respectively. Regarding the Chl-a estimation, the NDCI and 2-BDA indices outperformed other models, having high correlations with in situ Chl-a measurements and effectively following the in situ Chl-a temporal trends. Among the TSS indices, NDWI and TUR-IND demonstrated better performances, effectively capturing the variations in suspended solids. Overall, this study highlights the potential of Sentinel-2 imagery in assessing water quality changes, particularly in response to flooding events. It is an exploratory approach to assess the feasibility of utilising optical satellite data for evaluating the environmental impacts of natural disasters on lake water quality and supports decision-making in environmental management. Additionally, it identifies potential challenges and considerations that must be addressed to ensure effective application. [ABSTRACT FROM AUTHOR]

Published

2024

23. Fluvial habitat associations of riverine dragonflies (Odonata, Gomphidae) in the Huron Mountains (Michigan, USA).

Author

Orlofske, Jessica M., Wilson, Brandon R., Tesar, Danielle E., Tyrrell, Christopher D., and Headley, Rachel

Subjects

TOTAL suspended solids, LIFE cycles (Biology), PARTICLE size distribution, WATER depth, DRAGONFLIES

Abstract

The presence of sediment‐burrowing clubtail dragonflies (Gomphidae) may be directly related to riverine geomorphic properties. Their synchronous emergence behavior, marked by persistent exuviae, allows for the examination of emerging adult‐stage habitats. Here we explore how emerging adult and benthic larvae are related to hydrogeomorphic factors through regression modeling. Nine sites in two subwatersheds of the Huron Mountain region (Michigan, USA) were surveyed during two periods: May/June 2021 and August 2021. Temperature, pH, dissolved oxygen, conductivity, and discharge were measured concurrent with invertebrate surveys, and field samples of total suspended solids, nutrients, and substrate particle size distribution were also taken. In spring, 317 exuviae were collected, including 153 Gomphidae. In August, 45 larvae were collected including 22 Gomphidae. Spearman's rank correlations preceded robust regression analysis to aid variable selection. Although nonsignificant, Gomphidae exuviae were negatively correlated with conductivity, average water depth, and percent sand while non‐Gomphidae exuviae were positively correlated with the same variables. The model selection found the top models for Gomphidae and non‐Gomphidae exuviae abundance to relate to depth and conductivity, while the top model for Gomphidae larvae was with discharge. All single variable models (discharge, width, and percent sand) had similar AICc criterion values when examining their relationship with non‐Gomphidae larval abundance. Our study demonstrates that larvae of several riverine dragonfly taxa in the Huron Mountains co‐occur despite hydrogeomorphic variation, yet, at emergence, specific taxa may be responding to different stream properties. Understanding the habitat requirements of riverine dragonflies and how these potentially shift throughout development can support conservation efforts. [ABSTRACT FROM AUTHOR]

Published

2024

24. Biotic aspects of suspended solid reduction in sedimentation ponds.

Author

Skrzypczak, Andrzej and Tandyrak, Renata

Subjects

TOTAL suspended solids, SUSPENDED solids, LIFE sciences, MINE drainage, FISH ecology, STRIP mining, FISH communities

Abstract

The reduction of suspended solids is an important aspect of water management, especially in the mining industry. The ecological potential of sedimentation ponds has been identified, but many aspects of the coexistence of ecological and technological functions of these reservoirs are still unresolved. The aim of the study was to determine the effectiveness of suspended solid reduction in an open pit mine drainage system under the influence of biotic factors, including fish, taking into account the hydrochemical background. The dynamics of biotic factors and the sedimentation process were identified using the normalized total suspended solid reduction index (TE) and the trophic group status (TGS) indices of planktivorous, benthivorous, and carnivorous fish. The hydrochemical background in both ponds provided similar habitat conditions for biota and suspended solid reduction. Although a moderately trophic ecosystem has developed, the typical relationship between water transparency (SDD) and chlorophyll a concentration characteristic of natural waters was not observed. The sedimentation complex was found to be highly effective in reducing total suspended solids by 89–93%. Spatial variation of sedimentation rates was related to the ichthyobiotic factor, mainly to the biomass of bentophages and the status of this trophic group in the fish community. Stable relationships in the structure of the ichthyofauna with a balanced proportion of planktivorous fishes favored the sedimentation process. The results obtained are part of the development of research on the possibility of combining the technological function of artificial ponds with other applications and ecological benefits for industrialized areas. [ABSTRACT FROM AUTHOR]

Published

2024

25. Slaughterhouse wastewater remediation using carbonized sawdust followed by textile filtration.

Author

Elkady, Mahmoud, Yosri, Ahmed. M., Fathy, Samar Mohamed, and Abbas, Mohammed Helmy Ahmed

Subjects

INDUSTRIAL wastes, TOTAL suspended solids, BIOCHEMICAL oxygen demand, CHEMICAL oxygen demand, CHEMICAL engineering, WOOD waste

Abstract

Slaughterhouse wastewater (SWW) is considered an industrial wastewater, which seriously harms the environment due to the high concentration of contaminants such as biochemical oxygen demand (BOD), chemical oxygen demand (COD), and total suspended solids (TSS). Additionally, the wastewater from slaughterhouses contains harmful bacteria. This study used a lap-scale model to treat SWW from a local private slaughterhouse. The treatment process involves three stages: adsorption using activated carbon, which is derived from sawdust, followed by sedimentation, and finally, a slow sand filter with a modified layer of woven textile cotton. The first two steps were tested to obtain the ideal operation condition of the treatment system. After the final step of treatment, we evaluated the overall process using a modified slow sand filter (MSSF). We used a Jar test to determine the optimal dosage of activated carbon from sawdust (ACS). The monitored parameters were physicochemical, such as turbidity, total suspended solids (TSS), total dissolved solids (TDS), biochemical oxygen demand (BOD), chemical oxygen demand (COD), total phosphorus (TP), and total nitrogen (TN). The bacteriological examination included both total coliform count (TCC) and fecal coliform count (FCC). The results of the jar test revealed that the optimal ACS dose was 2.0 g/l. After adjusting the contact time and pH levels for the adsorption process, we discovered that the ideal contact time was 100 min and the ideal pH level was 4.0. Finally, we evaluated the entire treatment system by applying the MSSF after the sedimentation process, and found that the removal efficiencies of turbidity, BOD, COD, TSS, TDS, TP, and TN were 97.14, 94.80, 91.80, 98.96, 81.17, 81.12, and 82.50%, respectively. This is in addition to the filter's ability to remove bacteria counts at a rate of up to 98.93 and 99.13% of TCC and FCC, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

26. Land cover object change monitoring and environmental suitability confirmation in Cat Ba Biosphere Reserve of Vietnam.

Author

Hue, Le Minh, Thao, Vu Thi Phuong, Vy, Nguyen Khanh, Tra, Dang Thu, and Nam, Nguyen Ngoc

Subjects

TOTAL suspended solids, LAND cover, AIR quality monitoring, BIOSPHERE reserves, WATER quality, AIR pollutants, CHLOROPHYLL

Abstract

The study examined the core, buffer, and transition zones within the Cat Ba Biosphere Reserve in Vietnam to assess changes in five land cover categories (water surface, cropland, vacant land, residential land, and forestland) between 2018 and 2022. Additionally, we aimed to evaluate water quality using three indicators (normalized difference turbidity index, normalized difference chlorophyll index, total suspended solids) and air quality using four indicators (nitrogen dioxide, sulfur dioxide, carbon monoxide, ozone) for the 2022 data. Land cover change analysis and monitoring of water and air quality indicators were conducted using the Google Earth Engine platform, employing Sentinel-2 imagery for land cover and water quality assessment and Sentinel-5P images for air quality assessment. The findings revealed correlations between changes in land cover and water and air quality indicators within the Cat Ba Biosphere Reserve. While occasional instances of values surpassing permissible limits were noted, the average values over the 12-month period in 2022 indicated that water and air quality indicators remained within acceptable thresholds. These results suggest effective preservation efforts in the Cat Ba Biosphere Reserve, indicating no significant signs of degradation. [ABSTRACT FROM AUTHOR]

Published

2024

27. ASSESSMENT OF THREE PHYSICAL PROPERTIES OF EFFLUENTS FROM SELECTED FOOD PROCESSING CENTRES AND THEIR EFFECT ON RECEIVING WATER BODIES IN ABAKALIKI, EBONYI STATE, NIGERIA.

Author

EMEGHA, Azubuike and NJOKU, Chima

Subjects

TOTAL suspended solids, LABORATORY management, BODIES of water, ENVIRONMENTAL management, LOW temperatures

Abstract

The study assessed three physical properties of effluents from selected food processing centres and their effects on receiving water bodies in Abakaliki, Ebonyi state. Three replicates of both effluent and water samples from effluent-receiving water bodies were collected in 2023 and 2024 from Native Delicacy, Crunches, Chicken Republic and Kilimanjaro. The samples collected were taken to the Soil and Environmental Management Laboratory of Ebonyi State University for analyses of temperature, total dissolved solids (TDS) and total suspended solids (TSS). Data collected were subjected to analysis of variance and mean separated using F-SLD (p<0.05). The results revealed that the effluent temperatures for all the study centres in the dry season ranged from 28.0 - 29.5oC and were higher than that of wet season values. The receiving water bodies' temperatures were lower than the effluent temperatures but higher than WHO standards in all the study centres. The TDS and TSS of effluent studied showed a significant difference in all the food processing centres and were higher in the dry season compared to the wet season in the receiving water bodies. The TDS value ranged from 46.80 - 55.60 mg/L in the dry season and 31.00 - 50.20 mg/L in the wet season though the values were higher than that of control and were within WHO standards. The study showed that the receiving water bodies were poor in quality and there is a need to treat them before use. This research contributes to the growing body of knowledge on industrial pollution in Abakaliki. [ABSTRACT FROM AUTHOR]

Published

2024

28. Treatment of polluted river water using potential bioflocculant produced by Klebsiella pneumonia UKD24.

Author

Kaarmukhilnilavan, R. S., Wong, J. W. C., and Murugesan, K.

Subjects

TOTAL suspended solids, SEWAGE disposal plants, CHEMICAL oxygen demand, KLEBSIELLA pneumoniae, WASTEWATER treatment, FLOCCULANTS

Abstract

Chemically enhanced primary treatment (CEPT) is a rapid wastewater treatment process involving treating wastewater with two chemical-aided processes, coagulation, and flocculation. In the present study, a natural extracellular polymeric substance flocculant (EPSBF) produced by Klebsiella pneumonia UKD24, a bacterium isolated from the sewage treatment plant, and a synthetic polyacrylamide anionic polymer flocculant (PAM) were evaluated to treat polluted river water. The synthetic PAM showed immediate turbidity reduction after agitation, while the EPSBF expressed a rapid decrease in optical density. After 20 min of the settling period, the EPSBF showed reduced rates of turbidity, optical density, and chemical oxygen demand at 74.14 ± 5.2%, 89.37 ± 0.76%, and 87.21 ± 0.73%, respectively, while PAM showed 67.08 ± 4%, 85.68 ± 2%, and 86.57 ± 2%, respectively. EPSBF treatment significantly improved the water quality parameters in terms of total dissolved solids, total suspended solids, conductivity, and oxidation–reduction potential than PAM treatment. However, the EPSBF has shown a more water-holding capacity and relatively weak flock formation, producing more sludge volume than PAM. Furthermore, though the sludge produced by the EPSBF treatment had a higher moisture content, it showed shorter capillary suction time (CST). In contrast, sludge formed in PAM treatment had lower moisture content, but it exhibited prolonged CST value indicating that PAM treatment sludge showed slow dewaterability. [ABSTRACT FROM AUTHOR]

Published

2024

29. Development of water lettuce (Pistia spp.) based biochar filter for the treatment of industrial wastewater: a green approach.

Author

Jayathilake, K. M. P. I., Manage, P. M., and Idroos, F. S.

Subjects

*BIOCHAR, *WASTEWATER treatment, *TOTAL suspended solids, *BIOCHEMICAL oxygen demand, *LETTUCE, *CHEMICAL oxygen demand

Abstract

Biochar (BC) is a viable wastewater treatment agent. Water lettuce (Pistia spp.) an invasive aquatic plant in Sri Lanka has been used in this study to produce BC by pyrolysis. Industrial water was filtered through activated and non-activated BC samples having 65-125 mm and 125-250 mm particle sizes. Filter with sand and gravel served as standard for comparison. The filter unit containing activated BC showed higher treatment efficiency. pH was reduced from 8.72 ± 0.01 to 6.87 ± 0.01; biological oxygen demand (BOD5) from 57 ± 1.73 to 15.67 ± 1.15 ppm; chemical oxygen demand (COD) from 512 to 128 ppm, total Kjeldahl nitrogen (TKN) from 158.67 ± 2.89 ppm to 33 ppm, ammoniacal nitrogen from 22.63 to 3.13 ± 0.01 ppm; chromium from 0.0625 to 0.0245 ppm, and zinc from 0.9886 to 0.2105 ppm. Optimization study revealed that the BC integrated filter units could be used to treat wastewater in three cycles. Thereafter their efficiency is reduced. The BCs with small particle size (65-125 mm) recorded the highest treatment efficiency. This particle size showed 99.72% turbidity reduction. Reduction of total phosphate, ammoniacal nitrogen, total suspended solids, COD, nitrate, BOD5 and TKN was recorded as 97.82%, 91.49%, 88.38%, 88.18%, 87.44%, 84.38% and 84.38% respectively. BC derived from Pistia spp. has proven to be promising adsorbent for wastewater treatment. Findings of the study show a long-term green wastewater treatment method that makes effective use of an invasive aquatic plant. [ABSTRACT FROM AUTHOR]

Published

2024

30. Fermentation optimization and enzymatic property analysis of proteases produced by Bacillus amyloliquefaciens BS5582 and its application in cattle skin dehairing.

Author

REN Tao, NIU Chengtuo, ZHENG Feiyun, LIU Chunfeng, WANG Jinjing, and LI Qi

Subjects

TOTAL suspended solids, BIOCHEMICAL oxygen demand, BACILLUS amyloliquefaciens, CHEMICAL oxygen demand, ENZYMATIC analysis

Abstract

Proteases are considered as clean alternatives to replace chemicals to use in the leather dehairing process to avoid serious pollution. This study aimed to optimize the condition for protease production by Bacillus amyloliquefaciens BS5582 strain, to characterize the enzymatic properties and to evaluate its application in cattle hide dehairing. Results showed that the optimal enzyme production media by BS5582 strain were corn powder 50.0 g/L, soybean powder 40.0 g/L, Na2 HPO4 ·12H2 O 6.0 g/L, KH2 PO4 3.0 g/L, MgSO4 1.8 g/L, and CaCl2 0.75 g/L, with the initial pH 6. The optimal fermentation condition was as follows:The fermentation temperature was 35 °C, the inoculation volume was 10%, and the loading volume was 15 mL. Under this condition, the crude enzyme activity of the enzyme solution reached (5 270. 59 ± 19.61) U/ mL, which was 21 folds higher than that before optimization. The optimum temperature and pH of the proteases produced by the BS5582 strain were 40 °C and 8.5, respectively. Mn2+ had a significant activation effect on protease activity while Fe2+, Fe3+, and PMSF significantly inhibited the enzyme activity. The protease showed good cattle skin hair removal ability with little collagen damage. Compared with traditional chemical dehairing, the application of proteases had no hair root remaining in the pores of cattle skin with the falling of intact hairs. The pollution indexes of the dehairing wastewater, such as total suspended solids, chemical oxygen demand, and five-day biochemical oxygen demand, were reduced by 87%, 39%, and 45%, respectively. This indicated that the proteases produced by B. amyloliquefaciens BS5582 were of great potential for application in the leather industry. [ABSTRACT FROM AUTHOR]

Published

2024

31. Pre-treatment of composite industrial wastewater by Fenton and electro-Fenton oxidation processes.

Author

Omar, Basma M., Zyadah, Mohamed A., Ali, Menna Y., and El-Sonbati, Mervat A.

Subjects

*TOTAL suspended solids, *CHEMICAL oxygen demand, *INDUSTRIAL pollution, *SEWAGE purification, *INDUSTRIAL management

Abstract

The present study aims to characterize three industrial wastewater samples collected from petrochemical, food and beet sugar industries to determine the pollution potential and select the appropriate pre-treatment approach. According to the biodegradability profile of the multi-sourced mixed (composite) sample, the advanced oxidation process (AOPs) namely, Fenton (F) and Electro-Fenton (EF) were adopted as pre-treatment techniques and the operating parameters such as time, type of electrodes, pH, voltage, iron and H2O2 concentrations were critically examined. Analysis of Variance (ANOVA) was conducted to compare the performance efficiency of F& EF AOPs for treating the composite samples and the total operating costs for both approaches were assessed. The results revealed that, the initial values of the composite sample were 7.11, 19.2, 32.6, 19.3, 937, 1512, 860, 3.9, 2110 and 2.34 for pH, Total Dissolved Solids (TDS), Electrical Conductivity (EC), Salinity, BOD, COD, Oil and grease (O&G), Total Phosphorous (TP), Total Suspended Solids (TSS) and Total Kjeldahl Nitrogen (TKN), respectively. In addition, EF process achieved more removal efficiency for COD, O&G, BOD, TSS, and TKN (84.3%, 69%, 85%, 72% and 71.27%) compared to Fenton which displayed 78.43%, 66%, 69%, 70.1%, and 61%, respectively. Moreover, there are statistically significant differences (p < 0.05) between the initial and final (pretreated) values of the composite industrial wastewater for the addressed parameters and EF was significantly (p < 0.05) more effective than F process. The total operating costs were 3.117 and 2.063$ for F and EF, respectively, which confirmed that EF is more efficient and cost effective than F process. It was concluded that electro-Fenton process is favorable, eco-friendly and cost-effective option for pretreating real complicated multi-sourced industrial wastewater. The present study demonstrated a new avenue for achieving efficient management of industrial wastewater generated from similar industries. [ABSTRACT FROM AUTHOR]

Published

2024

32. Separation properties and fouling resistance of polyethersulfone membrane modified by fungal chitosan.

Author

Iman, Hilya N., Susilo, Henry, Satriyatama, Adhi, Budi, Ignatius D. M., Kurnia, Kiki A., Wenten, I. G., and Khoiruddin, K.

Subjects

*INDUSTRIAL wastes, *TOTAL suspended solids, *FOURIER transform infrared spectroscopy, *CONTACT angle, *LEAD

Abstract

This research explores the enhancement of polyethersulfone (PES) membranes through the incorporation of chitosan derived from the lignicolous fungus Ganoderma sp. Utilizing wet phase inversion and solution casting techniques, chitosan was successfully integrated into the PES matrix, as confirmed by Fourier Transform Infrared Spectroscopy (FT-IR), which indicated a high deacetylation degree of 75.7%. The incorporation of chitosan significantly increased the membrane hydrophilicity, as evidenced by a reduction in the water contact angle and a substantial improvement in pure water permeability, from 17.9 L m-2 h-1 bar-1 to 27.3 L m-2 h-1 bar-1. The membrane anti-fouling properties were also notably enhanced, with the Flux Recovery Ratio (FRR) increasing from approximately 60–80%. Moreover, the chitosan-modified PES/CS membrane, particularly at a 5% chitosan concentration, demonstrated exceptional efficacy in pollutant removal, achieving over 90% elimination of total suspended solids, cadmium (Cd), and lead (Pb), alongside a 79% reduction in color during the treatment of textile wastewater. [ABSTRACT FROM AUTHOR]

Published

2024

33. Social-ecological landscape sustainability in West Africa: applying the driver pressure state impact response framework in Ghana and Nigeria.

Author

Atampugre, Gerald, Tilahun, Seifu Admassu, Oke, Adebayo, Mabhaudhi, Tafadzwanashe, Cofie, Olufunke, Igbadun, Henry E., and Olaleye, A. O.

Subjects

TOTAL suspended solids, SUSTAINABILITY, BODIES of water, WATER quality, LAND cover

Abstract

This study interrogates the state of social-ecological landscapes (SEL) in West Africa, focusing on two case studies: the Mankran SEL in Ghana (case study 1) and the Doma–Rutu SEL in Nigeria (case study 2). Using a mix of methods, the assessment was framed by the Drivers Pressure State Impact Response (DPSIR) model tailored for SEL evaluation (DPSIR-SEL). In the Mankran landscape, land use patterns shifted significantly from 2008 to 2018, with cash crop cultivation peaking at 30% in 2015 before declining to 14.5% by 2018. Water quality assessments in the Mankran micro-watershed indicated that several parameters, including Total Suspended Solids (TSS) at 914.41 ± 1974 mg/L, lead at 18.73 ± 17.26 µg/L, and arsenic at 53.41 ± 86.66 µg/L, exceeded World Health Organization (WHO) standards, raising concerns about potential contamination. In contrast, the Doma–Rutu landscape in Nigeria experienced land use and land cover (LULC) changes from 2000 to 2022, characterized by the expansion of residential and agricultural areas alongside modifications to natural water bodies and vegetation. Water quality issues have emerged, with elevated levels of electrical conductivity, total dissolved solids, and salinity. Furthermore, Focus Group Discussions (FGDs) revealed persistent herder-farmer conflicts in Nigeria, which have historically constrained crop production due to various environmental and social factors. The intertwined challenges faced by both the Mankran and Doma–Rutu landscapes underscore the urgent need for sustainable and inclusive resource management, adaptive land-use strategies, and proactive measures to safeguard water quality. [ABSTRACT FROM AUTHOR]

Published

2024

34. Efficiency evaluation of wastewater treatment by three macrophytes using a pilot-constructed wetland system in Ota, Nigeria.

Author

Justin, Lazarus D. and Olukanni, David O.

Subjects

*TOTAL suspended solids, *BIOCHEMICAL oxygen demand, *ESCHERICHIA coli, *CONSTRUCTED wetlands, *WASTEWATER treatment

Abstract

Three aquatic macrophytes were used to treat wastewater using a pilot-constructed wetland (CW) system to determine the most efficient plants for removing contaminants from wastewater. The three macrophytes are water hyacinth (Eichhornia crassipes), water lettuce (Pistia stratiotes), and duckweed (Lemna minor). Three 150 L capacity tanks with sand and gravel as substrates were used as the pilot CW for each plant. Upon initial examination, the raw wastewater was not compliant with standard discharge limits. The wastewater samples were collected every 7 days for 3 weeks for treatment. From the findings, at 14 days hydraulic retention time (HRT), E. crassipes and P. stratiotes achieved the highest total phosphorus (TP) and chemical oxygen deman (COD) reductions of 99.3 and 99.4%, respectively. E. crassipes indicated better biological oxygen demand removal efficiency of 91.3%, COD (85.0%), electrical conductivity (90.4%), total dissolved solids (89.7%), and total coliforms (66.0%). Albeit, P. stratiotes indicated better results for total suspended solids (96.2%), TP (7.55%), and E. coli (94.4%), while L. minor was better with 90.8% total nitrogen removal. The overall analysis showed E. crassipes to be more efficient than the three macrophytes. However, the other two plants are replaceable options and large-scale implementation of this project in the community would be a major contributor to actualizing SDG number 6. [ABSTRACT FROM AUTHOR]

Published

2024

35. Utilizing Insects as Bioindicators: An Approximation for Conservation in Urban Lentic Ecosystems in Central Chile.

Author

Rodríguez, Sebastián, Huerta, Amanda, Palma, Álvaro, Vicencio, Francisco, and Araya, Jaime E.

Subjects

*TOTAL suspended solids, *AQUATIC insects, *URBAN ecology, *BODIES of water, *WATER quality

Abstract

Simple Summary: This study considered using insect families as bioindicators to establish the health status of an ecosystem's lentic bodies. The water quality in urban lentic bodies in the Metropolitan Region, Chile, was evaluated using aquatic insect family assemblages and physicochemical variables for conserving aquatic life. The eudominant insect families were Corixidae (associated with very bad water quality), Chironomidae (very bad), and Baetidae (good). The TSS (total suspended solids), P (phosphorus), and EC (electrical conductivity) were strongly positively correlated and negatively associated with DO (dissolved oxygen) levels. The TSS level was the most significant influential factor. Based on the nitrogen and phosphorus levels in the three water bodies, all of them were eutrophic. Given the diversity and complexity of ecosystems, studies should delve deeper into wetlands to establish methods that contribute to determining water quality, using insects as bioindicators and physicochemical variables. Considering the diversity of these water bodies, it is possible to determine not only the water quality but also the conservation state of the whole environment. This study considered using insect families as bioindicators to establish the health status of an ecosystem of lentic bodies. The water quality in urban lentic bodies in the Metropolitan Region, Chile, was evaluated from aquatic insect family assemblages and physicochemical variables for conserving aquatic life. Evaluations were carried out in parallel at four sampling stations of three water bodies (Batuco Wetland, Carén Lagoon, and Chada Reservoir) in a 2–3-year series, spring (2015, 2017, and 2018) and fall (2016 and 2018), with three replicates. Families were randomly sampled and aquatic insects were identified; abundance and richness differences were compared with non-parametric tests. Physicochemical variables were measured using portable multiparametric and laboratory chemical analyses to determine the water quality. A Canonical Correspondence Analysis was applied for insect families and the physical–chemical variable. In order to categorize the health of these water bodies based on aquatic insect composition and abundance, the Family Biotic Index (FBI), British Biological Monitoring Work Party (BMWP), and Stream Invertebrate Grade Number—Average Level (SIGNAL), adapted for Chile by Figueroa et al. (2007), were calculated. The eudominant insect families were Corixidae and Chironomidae in Batuco, Chironomidae and Corixidae in Carén, and Corixidae in Chada. Baetidae was dominant in Carén and Chada. The water bodies were classified in descending order of water quality by Chilean physicochemical standards: Chada > Carén > Batuco. The TSS (total suspended solids), phosphorus, and electrical conductivity were strongly positively correlated and negatively associated with dissolved oxygen. The TSS level was the most significant influential factor. The BMWP value and the SIGNAL differed from the FBI, but the first was more restrictive, contributing to the conservation of these ecosystems. Based on the nitrogen and phosphorus levels in the water bodies, all of them were eutrophic. Given the ecosystem diversity and complexity, studies should delve deeper into wetlands to establish methods that contribute to determining water quality, using insect families as bioindicators and physicochemical variables. [ABSTRACT FROM AUTHOR]

Published

2024

36. A Novel Approach for Ex Situ Water Quality Monitoring Using the Google Earth Engine and Spectral Indices in Chilika Lake, Odisha, India.

Author

Das, Subhasmita, Nandi, Debabrata, Thakur, Rakesh Ranjan, Bera, Dillip Kumar, Behera, Duryadhan, Đurin, Bojan, and Cetl, Vlado

Subjects

*WATER quality monitoring, *TOTAL suspended solids, *GEOGRAPHIC information system software, *WATER quality, *ALGAL blooms, *TURBIDITY

Abstract

Chilika Lake, a RAMSAR site, is an environmentally and ecologically pivotal coastal lagoon in India facing significant emerging environmental challenges due to anthropogenic activities and natural processes. Traditional in situ water quality monitoring methods are often labor intensive and time consuming. This study presents a novel approach for ex situ water quality monitoring in Chilika Lake, located on the east coast of India, utilizing Google Earth Engine (GEE) and spectral indices, such as the Normalized Difference Turbidity Index (NDTI), Normalized Difference Chlorophyll Index (NDCI), and total suspended solids (TSS). The methodology involves the integration of multi-temporal satellite imagery and advanced spectral indices to assess key water quality parameters, such as turbidity, chlorophyll-a concentration, and suspended sediments. The NDTI value in Chilika Lake increased from 2019 to 2021, and the Automatic Water Extraction Index (AWEI) method estimated the TSS concentration. The results demonstrate the effectiveness of this approach in providing accurate and comprehensive water quality assessments, which are crucial for the sustainable management of Chilika Lake. Maps and visualization are presented using GIS software. This study can effectively detect floating algal blooms, identify pollution sources, and determine environmental changes over time. Developing intuitive dashboards and visualization tools can help stakeholders engage with data-driven insights, increase community participation in conservation, and identify pollution sources. [ABSTRACT FROM AUTHOR]

Published

2024

37. Review on applicability of constructed wetlands in the South Asian region focusing on roles of media, macrophytes, microbes, pre-treatment and post-treatment.

Author

Karki, Bhesh Kumar

Subjects

*TOTAL suspended solids, *CONSTRUCTED wetlands, *BIOCHEMICAL oxygen demand, *EMERGING contaminants, *CHEMICAL oxygen demand

Abstract

This article examines the utilization and advancements of constructed wetlands (CWs) in South Asia (SA), focusing on their roles, costs, and efficacy enhancements through pre- and post-treatment units for various pollutants. Notable findings include Phragmites and Canna species as commonly used macrophytes, achieving high removal rates for various pollutants. CWs consistently remove total suspended solids, biochemical oxygen demand, chemical oxygen demand, emerging contaminants, and antimicrobial resistant bacteria at substantial rates. Anaerobic baffled reactors are effective pretreatment devices for high-strength wastewater. Moreover, CWs exhibit lower operational and maintenance costs compared to conventional treatment methods. However, the bibliometric analysis reveals limited regional cooperation in SA. Key challenges identified include the absence of guidelines for media, vegetation, and maintenance. The review underscores the necessity for further research in optimizing CWs' efficiency through land area management, plant selection, and enhanced design and operation and maintenance protocols. [ABSTRACT FROM AUTHOR]

Published

2024

38. Performance of Agricultural Wastes as A Biofilter Media for Low-Cost Greywater Treatment Technology.

Author

Abbas, Ebtesam K. and Ali, Seroor Atalah K.

Subjects

SANITATION, AGRICULTURAL wastes, TOTAL suspended solids, RICE hulls, CHEMICAL oxygen demand, GRAYWATER (Domestic wastewater)

Abstract

Copyright of Journal of Engineering & Sustainable Development is the property of Republic of Iraq Ministry of Higher Education & Scientific Research (MOHESR) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

39. Evaluation of stormwater runoff pollutant distributions combined with land-use information in a regional karst aquifer in Texas, USA.

Author

Jafarzadeh, Arash, Matta, Akanksha, Moghadam, Sina Vedadi, Dessouky, Samer, Hutchinson, Jeffrey, and Kapoor, Vikram

Subjects

WATER pollution, TOTAL suspended solids, RUNOFF, RAIN gardens, WASTE management, HEAVY metal content of water, URBAN runoff management

Abstract

Fast urbanization can result in significant stormwater runoff pollution due to changes in land use. A 3-year study on the distribution and temporal variations of urban water pollutants in stormwater runoff was conducted, with a specific focus on the influence of land-use patterns in the recharge zone of a regional karst aquifer in Texas (Edwards Aquifer). The presence and concentration of various water pollutants including total suspended solids (TSS), total dissolved solids (TDS), nutrients (nitrite, nitrate, ammonia and phosphate), total carbon (TC) and total organic carbon (TOC), oil and grease (O&G), and eight heavy metals (Fe, Mg, Cu, Pb, Zn, Ni, Cr, Cd) were measured in stormwater samples collected from three bioswales. Results show that average TSS in site S1 (598.87 mg/L) and S2 (628.69 mg/L), COD in site S1 (103.97 mg/L), phosphate in sites S1 (1.44 mg/L) and S3 (0.65 mg/L), and O&G (ranging from 50.63 to 84.32 mg/L) in all three sites surpassed the national average (NSQD). While residential areas were identified as the main sources of nutrients, roads and parking lots were associated with heavy metals. Temporal variations indicated the effect of antecedent dry days on the concentrations of TSS and phosphate. Growing seasons as well as pet feces were associated with elevated nitrate concentrations in residential areas. Organic carbon was found overall higher during warmer months, while heavy metals during cooler months. The study also identified specific land-use practices that can be enhanced to mitigate stormwater pollution, such as the implementation of permeable pavements, rain gardens, and stricter waste disposal regulations. The results of this study offer valuable insights for enhancing stormwater management strategies to better mitigate stormwater pollution in urban regions. [ABSTRACT FROM AUTHOR]

Published

2024

40. Integration of Coagulation–flocculation(with Natural Coagulant) to Constructed Wetlands for Color Removal from Tequila Vinasses.

Author

Zurita, Florentina, Tejeda, Allan, Ramirez-Ramirez, Anderson, and Montoya, Arturo

Subjects

TOTAL suspended solids, CONSTRUCTED wetlands, CHEMICAL oxygen demand, ADVECTION, MORINGA oleifera, COAGULANTS

Abstract

The aim of this study was to evaluate a natural coagulant, Moringa oleifera seeds (MOC), to reduce the color concentration in treated tequila vinasses (TVs). TV-A was the effluent of horizontal subsurface flow wetlands (HSSFW); TV-B was the effluent of vertical up-flow wetlands (VUFW); and TV-C was the effluent of vertical down-flow constructed wetlands (VDFW). Raw TVs were also evaluated with MOC. Jar tests were performed to find the optimal dose and pH value for apparent color (AC) removal. With the optimal dose and pH for each type of TV, tests were performed in triplicate to evaluate the removal of apparent color (AC), true color (TC), turbidity, total suspended solids (TSS), chemical oxygen demand (COD), and electrical conductivity (EC). For TV-A and TV-B, the optimal values were 1 g/L of MOC and pH 8, and the removals were 52%, 43%, 50% and 72% of AC, turbidity, TC, and TSS, respectively. For TV-C, the optimal values were 2.5 g/L and pH 5, with removals of 66%, 73%, and 98% for AC, TC, and TSS, respectively. For TV-D, the MOC had no coagulant effect in any of the experimental conditions evaluated, probably due to the high concentration of turbidity and TSS in the raw vinasses, which prevented the interaction between MOC and melanoidins. Deeper studies are required to understand and evaluate those factors that influence MOC efficiency so that the coagulation–flocculation process can be optimized. [ABSTRACT FROM AUTHOR]

Published

2024

41. Modeling Operations in System-Level Real-Time Control for Urban Flooding Reduction and Water Quality Improvement—An Open-Source Benchmarked Case.

Author

Li, Jiada, Johnson, Ryan, and Burian, Steven

Subjects

TOTAL suspended solids, REAL-time control, DRAINAGE pipes, WATER quality, WATER depth, STORM water retention basins, PONDS

Abstract

Advancements in smart sensing and control technologies enable urban drainage engineers to retrofit stormwater storage facilities with real-time control devices for mitigating stormwater in-site overflow, downstream flooding, and overloaded total suspended solids (TSS) in drainage pipes. While the smart technology can improve the performance of the static drainage systems, coordinatively controlling multiple valve and gate operations poses a significant challenge, especially at a large-scale watershed. Using a benchmark stormwater model located at Ann Arbor, Michigan, USA, we assessed the impact of different real-time control strategies (local individual downstream control and system-level multiple control) on balancing flooding mitigation at downstream outlets and TSS reduction at upstream storage units, such as detention ponds. We examined changes in peak water depth, outflow, and TSS as indicators to assess changes in water quantity and quality. The results indicate that system-level control can reduce peak water depth by up to 7.3%, reduce flood duration by up to 34%, and remove up to 67% of total suspended solids compared with a baseline uncontrolled system, with the outflow from upstream detention ponds being the most important hydraulic indicator for control strategy rule set-up. We find that system-level control does not always outperform the individual downstream controls, particularly in alleviating flooding duration at some downstream outlets. With urban growth and a changing climate, this research provides a foundation for quantifying the benefits of real-time control methods as an adaptive stormwater management solution that addresses both water quantity and quality challenges. [ABSTRACT FROM AUTHOR]

Published

2024

42. Effects of Dosage and Stirring Speed Variations in the Use of Bittern as a Natural Coagulant to Remove Biological Oxygen Demand, Chemical Oxygen Demand, Total Suspended Solids and Dye Concentrations from Batik Industry Wastewater.

Author

Fitriani, Nurina, Supriyanto, Agus, Jariyah, Niswatun Indana, Putriadji, Rachely Annisa Dwi, Pratama, M. Bagas Pramudya, Wan Jusoh, Hajjar Hartini, Ismail, Azimah, and Kurniawan, Setyo Budi

Subjects

TOTAL suspended solids, BIOCHEMICAL oxygen demand, CHEMICAL oxygen demand, PEARSON correlation (Statistics), TWO-way analysis of variance, SUSPENDED solids

Abstract

This study aimed to determine the effect of bittern coagulant dosage and rapid stirring speed on reducing the concentrations of biological oxygen demand (BOD), chemical oxygen demand (COD), total suspended solids (TSS), and dye absorbance in batik industry wastewater, as well as to identify the optimum coagulant dosage and stirring speed. Wastewater samples were collected from a batik industry in the batik center of Sidoarjo, East Java, Indonesia. Dosage variations of 5%, 10%, 15%, and 20% were tested alongside rapid stirring speeds of 100 rpm, 130 rpm, and 160 rpm. The study was conducted on a laboratory scale using the jar test method. Initial wastewater characteristics showed BOD, COD, TSS, and dye absorbance concentrations of 185.68 ± 29.34 mg/L, 10.091 ± 363.24 mg/L, 2.231.33 ± 155.55 mg/L, and 0.212 ± 0.02, respectively. Statistical analysis using the Pearson correlation test and Two-Way ANOVA revealed that variations in coagulant dosage and stirring speed significantly impacted the reduction percentages of BOD, COD, TSS, and dye absorbance. The optimal coagulant dosage was found to be 5%, and the optimal stirring speed was 100 rpm, with reduction percentages for BOD, COD, TSS, and dye absorbance being 80.32%, 65.86%, 92.35%, and 70.77%, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

43. Examining Water Quality Indices Method in Varied Climatic Regions -- Sutami Reservoir Case Study.

Author

Sholichin, Moh, Prayogo, Tri Budi, Wicaksono, Kurniawan Sigit, Nur Hidayati, A. S. Dwi Saptati, and Prabowo Rahardjo, Seto Sugianto

Subjects

WATER quality, TROPICAL climate, TOTAL suspended solids, ENVIRONMENTAL standards, COMMUNITY involvement

Abstract

Monitoring and analyzing reservoir water quality are crucial for ecological and environmental strategies. This study examines the differences between the water quality index (WQI) of Indonesia (WQI-INA), Malaysia (DOE-Malaysia), Oregon (WQI-Oregon), and Italy (PI-Prati), considering the tropical climate of Indonesia and Malaysia, and contrasting with the temperate climate of Oregon and the Mediterranean climate of Italy. Using data from the Sutami Reservoir in Indonesia from 2015 to 2021, the study assesses water quality parameters such as BOD, COD, DO, NH3, NO3, total suspended solids, total phosphorus (TP), and pH at various depths (0.3, 5, and 10 meters) across three sites (upstream, midstream, down-stream). The results show varied classifications: WQI-INA rated the reservoir as "pretty good," WQI-Oregon as "poor," and both DOE-Malaysia and PI-Prati as "slightly polluted." Spatial analysis of vertical distribution revealed "slightly polluted" (WQI-INA), "moderately polluted" (WQI-Oregon and PI-Prati), and "heavily polluted" (DOE-Malaysia). These discrepancies arise from differences in local environmental standards, regulatory requirements, and specific water quality concerns included in each index. The Sutami Reservoir water quality status was declared using WQI-INA, however, other methods were employed to simulate the worst-case scenarios and inform preventive actions. The Sutami Reservoir hyper-eutrophic conditions indicate a pollution load capacity of 65.22 tons per year. Critical parameters such as pH and TP highlight significant water quality and pollution issues. Recommendations for water quality treatment under heavy pollution conditions include applying 12.09-120.87 tons of lime, using 78.75-393.75 kg of chemical buffers, oxygen diffusion, controlling riparian vegetation over 2.37-23.7 hectares, dredging 37,100 m3 of sediment per year, and reducing nutrient sources through community involvement. [ABSTRACT FROM AUTHOR]

Published

2024

44. Feasibility of Sediment Budgeting in an Urban Catchment with the Incorporation of an HEC—HMS Erosion Model: A Case Study from Sri Lanka.

Author

Abeysiriwardana, Himasha D. and Gomes, Pattiyage I. A.

Subjects

UNIVERSAL soil loss equation, DITCHES, SEDIMENT analysis, SEDIMENT control, TROPICAL climate

Abstract

This study aimed at studying the feasibility of using a sediment model built in HEC – HMS incorporating Modified Universal Soil Loss Equation (MUSLE) in aiding the separation of sediment contribution as point and non-point, an important aspect in sediment pollution control. The model was developed and verified using a representative sub-catchment and a canal reach of a tropical climate. The field observations and model developed had a good agreement and indicated about 16% and 35% of total sediments in the canal may be from nonpoint sources for the dry and wet seasons, respectively. Results suggested that a major fraction of eroded sediment ended up in the main canal through the dense drainage network across the catchment. This meant sediment trapping should focus tributary drainage ditches or at point source inputs to canal rather than the main canal banks. The study recognized that HEC – HMS is also capable of simulating sediment generation with acceptable errors. Being a free software package, HEC – HMS would be an effective sediment modelling tool for jurisdictions where sediment analysis has been constrained by cost. [ABSTRACT FROM AUTHOR]

Published

2024

45. Enhancing textile wastewater sustainability through calcium hypochlorite oxidation and subsequent filtration with assistance from waste blast furnace iron slag.

Author

Rafiq, Md Sahil, Apurba, Mohammad Shakhawat Hosen, and Khandaker, Nadim Reza

Subjects

INDUSTRIAL wastes, TOTAL suspended solids, ENVIRONMENTAL protection, SAND blasting, CHEMICAL oxygen demand

Abstract

The textile industry is vital to Bangladesh's economy, employing over three million women and being the top foreign exchange earner. However, it severely impacts the environment because of untreated wastewater discharge. High treatment costs, reliant on expensive imported chemicals, worsen the issue. The Environmental Conservation Rules (ECR) 2023 of Bangladesh requires textile wastewater discharge to have a colour of less than 150 Pt‐Co, which current systems struggle to meet affordably. A pilot project tested a sustainable solution using chemical oxidation with calcium hypochlorite and sand filtration with blast furnace iron slag. This method effectively removed colour, and the treated water showed total dissolved solids (TDS) levels of 157 ± 4 mg/L, total suspended solids (TSS) levels of 8 ± 2 mg/L and chemical oxygen demand (COD) levels of 9 ± 3 mg/L, with reductions of 92%, 87% and 94%, respectively, making it a viable solution for resource‐limited economies. Highlights: The research utilized calcium hypochlorite and iron slag to treat textile wastewater, which reduces reliance on costly imported chemicals and energy‐intensive systems.The treatment process effectively addresses the ECR 2023, which requires textile wastewater discharge to have a colour of less than 150 Pt‐Co.The pilot‐scale plant demonstrated average removal efficiencies of 92% for TDS, 87% for TSS and 94% for COD and achieved complete colour removal.The tertiary treated water meets the standards of ECR 2023 producing water, which can be reused in the textile industry. [ABSTRACT FROM AUTHOR]

Published

2024

46. Developing an Active Biodegradable Bio-Based Equilibrium Modified Atmosphere Packaging Containing a Carvacrol-Emitting Sachet for Cherry Tomatoes.

Author

Kapetanakou, Anastasia E., Mistriotis, Antonis, Bozinaki, Dimitra C., Tserotas, Philippos, Athanasoulia, Ioanna-Georgia, Briassoulis, Demetrios, and Skandamis, Panagiotis N.

Subjects

TOTAL suspended solids, POLYLACTIC acid, FOOD waste, CARVACROL, FRUIT

Abstract

This study aimed to develop an active biodegradable bio-based (polylactic acid/PLA) equilibrium modified atmosphere packaging (EMAP) containing a carvacrol-emitting sachet (created by poly-hydroxybutyrate) (PLA-PHB-CARV) to extend the shelf-life of cherry tomatoes at 15 °C and 25 °C. Cherry tomatoes in macro-perforated polypropylene (PP) films (mimicking the commercial packaging) or in PLA-based micro-perforated film without the carvacrol sachet (PLA) were also tested. Weight loss, decay, headspace gases, pH, titratable acidity (TA), total suspended solids (TSS), ripening index, color, texture, total viable counts (TVC), and sensory analysis were performed. Decay was 40% in PLA-PHB-CARV, and 97% in PP after 20 days at 25 °C. PLA-PHB-CARV showed lower weight loss (p < 0.05) and stable firmness compared to PP and PLA at both temperatures. TSS and TA were not affected by the packaging at 15 °C, while at 25 °C, the TSS accumulation was inhibited in PLA-PHB-CARV compared to in PLA and PP (p < 0.05), indicating a notable delay in the ripening process. PLA-PHB-CARV retained their red color during storage compared to PP and PLA. Carvacrol addition inhibited TVC compared to PP and PLA by ca. 2.0 log CFU/g during storage at 25 °C, while at 15 °C, the packaging did not reveal a significant effect. Overall, the results indicated that the developed active EMAP may be adequately used as an advanced and alternative packaging for tomatoes or potentially other fruits with a similar respiration rate versus their conventional packaging, showing several advantages, e.g., a reduction in petrochemical-based plastics use, shelf-life extension of the packaged food, and consequently, the perspective of limiting food waste during distribution and retail or domestic storage. [ABSTRACT FROM AUTHOR]

Published

2024

47. Analysis and evaluation of performance of Al-Rustumiya wastewater treatment plant.

Author

Abbas, Hala, Mahdi, Ayat, Azeez, Hasanain, and Karim, Ibtisam

Subjects

*TOTAL suspended solids, *SEWAGE disposal plants, *BIOCHEMICAL oxygen demand, *CHEMICAL oxygen demand, *ACIDITY function

Abstract

Wastewater treatment plants (WWTPs) are functional systems with several treatment procedures to mitigate pollutants and toxins in wastewater. The monitoring of the influent raw wastewater and the effluent processed wastewater has been conducted throughout the years 2022 and 2023 to assess the performance of the wastewater treatment plant. The chosen metrics for assessing the operational effectiveness of the Al-Rustumiya WWTP in Iraq are Biochemical Oxygen Demand (BOD), Chemical Oxygen Demand (COD), Total Suspended Solids (TSS), Nitrate (NO3), Phosphorus (PO4), and the quantitative measurement of acidity or alkalinity (pH). The calculation and comparison of the removal effectiveness of each parameter in the influent and effluent wastewater are conducted concerning the Iraqi standards. The findings from the operational performance evaluation conducted on the Al-Rutumiya Wastewater Treatment Plant (WWTP) indicated that the quantities of all pollutants present in the effluent wastewater were found to comply with the established requirements set by the Iraqi regulatory authorities. The study revealed that the mean monthly levels of the parameters BOD, COD, TSS, and PO4 over 2022 and 2023 were determined to be 21 ppm, 44 ppm, 25 ppm, and 2.8 ppm, respectively. The parameters' concentrations adhere to the Iraqi Quality Standards (IQS) 2017. Furthermore, the removal efficiencies of biochemical oxygen demand (BOD), chemical oxygen demand (COD), total suspended solids (TSS), and phosphate (PO4) were found to be 91%, 83.4%, 96%, and 34%, correspondingly. The removal efficiency values of biochemical oxygen demand (BOD), chemical oxygen demand (COD), and total suspended solids (TSS) can be deemed satisfactory. [ABSTRACT FROM AUTHOR]

Published

2024

48. Investigation of water quality of surface and subsurface water in Adiyur lake region.

Author

Deepikaa, V. V. and Kumar, M. Dinesh

Subjects

*GROUNDWATER, *TOTAL suspended solids, *WATER quality monitoring, *WATER quality, *RESEARCH personnel

Abstract

The purpose of this research is to identify the surface and subsurface water quality measurements that are present in a particular lake. The Methodology and the Elements: It was Adiyur lake that provided the samples for analysis. The examples have utilised physical and chemical characteristics to assess the qualities of subsurface water in two groups of 18 samples each. The G-power was set at 80 percent, the alpha and beta qualities were set at 0.05 and 0.2, respectively, and the confidence interval was set at 95 percent. In the process of determining the quality of water, two different kinds of samples are utilised: lake water, which has four examples out of a total of eighteen, and subterranean water, which contains eighteen instances. In surface and subsurface lake water, the pH, variety, total dissolved solids, total suspended solids, and turbidity correspond to 6.46, 16.826.4, 36, and 14.6 respectively. On the other hand, the pH, total suspended solids, pH, and turbidity of subsurface water are 7.9, 26.1, 936.2, 232.9, and 26 respectively. In accordance with the statistical package known as SPSS, the significance value is 0.000 (p<0.05), which signifies that the independent sample t-test conducted on the two groups revealed noteworthy differences. In terms of the actual properties of the water's surface and subsurface, this study discovered that the subsurface water generated superior findings in comparison to the surface water while the researchers were researching the nature of the water. [ABSTRACT FROM AUTHOR]

Published

2024

49. Evaluation of contaminated irrigation water near the metal coating industry.

Author

Nasihah, Mimatun, Ardyati, Tri, Siswanto, Dian, and Retnaningdyah, Catur

Subjects

*TOTAL suspended solids, *METAL coating, *BIOCHEMICAL oxygen demand, *COPPER, *LEAD

Abstract

The irrigation water in Plosowahyu Village, Lamongan, East Java, Indonesia, was predicted to be low quality due to pollution from the metal coating industry. The purpose of this study was to evaluate the physicochemical quality of irrigation water. Water sampling was carried out in October 2021 at the irrigation canals, which served as outlets for the disposal of metal coating industrial waste. Several water parameters were measured, including the value of pH, conductivity, total suspended solids (TSS), dissolved oxygen (DO), biochemical oxygen demand (BOD), nitrate, orthophosphate, the concentration of copper (Cu), lead (Pb) and zinc (Zn). The parameter measurements were conducted in the Ecology and Chemistry Laboratory of Universitas Brawijaya. The results of this study indicated that the irrigation water had been polluted with organic matter and heavy metals. This pollution was shown by the value of BOD 15.8 mg/L, N Total 88.24 mg/L, P Total 39.34 mg/L, Cu 2.81 mg/L, Pb 101.47 mg/L, and Zn 18.82 mg/L that did not meet the quality standards according to Indonesian government regulations No. 22/2021. Other parameters include TSS 6.78 mg/L, the conductivity of 0.239 S/m, DO 4.98 mg/L, pH 7.25, nitrate 0.194 mg/L, and orthophosphate 3.462 mg/L have met the government quality standards set for agricultural use. The highest heavy metal content is lead, so further research is needed to reduce the lead level through phytoremediation technology. [ABSTRACT FROM AUTHOR]

Published

2024

50. Enhancing domestic wastewater treatment: Evaluating the potential of Hibiscus rosa-sinensis (ornamental plants) in floating wetland islands.

Author

Arivukkarasu, D. and Sathyanathan, R.

Subjects

*SEWAGE purification, *TOTAL suspended solids, *ORNAMENTAL plants, *SEWAGE, *WATER pollution

Abstract

The inadequate infrastructure for wastewater treatment in many regions has led to the contamination of surface water bodies and groundwater degradation. To address this issue, floating wetland treatment systems have emerged as a viable alternative for effective wastewater remediation. This study focuses exclusively on utilizing Hibiscus rosa-sinensis, a tropical ornamental plant, within the context of floating wetland treatment techniques for the remediation of domestic wastewater. The primary objective is to assess the nutrient and pollutant removal efficiency of Hibiscus rosa-sinensis in a laboratory-scale floating wetland system. Healthy Hibiscus rosa-sinensis plants were cultivated on identical floating rafts and placed in plastic tanks filled with domestic sewage for experimental investigation. Water quality analyses were conducted regularly, spanning 0, 3, 5, 10, 15, 20, and 25 days HRT. The results of this experimental investigation revealed that Hibiscus rosa-sinensis, when used in floating wetland treatment, exhibited significant removal efficiencies for various parameters, including turbidity, total suspended solids (TSS), total phosphorus (TP), ammonia, and dissolved oxygen (DO). These findings highlight the potential of Hibiscus rosa-sinensis plants as a practical component of floating wetland systems for removing nutrients and pollutants from domestic wastewater. This research underscores the viability of Hibiscus rosa-sinensis as a sustainable and environmentally friendly solution to address water pollution challenges, particularly in the context of floating wetland treatment. [ABSTRACT FROM AUTHOR]

Published

2024