Your search keyword '"Paper mill"' showing total 2,494 results

1. Soil phosphorus fractionation after co-applying biochar and paper mill biosolids

Author

Bernard Gagnon, Xiangru Zhang, Noura Ziadi, and Eric Manirakiza

Subjects

Soil conditioner, Biosolids, business.industry, Biochar, Soil phosphorus, Soil Science, Environmental science, Paper mill, Fractionation, business, Pulp and paper industry

Abstract

In recent decades, there has been a growing interest in the recycling of organic materials such as paper mill biosolids (PB) and biochar for use as soil amendments. However, the benefits of co-application of PB and biochar and its effects on soil phosphorus (P) availability remain unknown. An incubation study was conducted on two acidic soils to assess the effect of two PB types (2.5% w/w) co-applied with three rates (0%, 2.5%, and 5% w/w) of pine (Pinus strobus L.) biochar on soil P fractions. An unfertilized control and a mineral NP fertilizer were used as a reference. Soil P fractions were determined by Hedley procedure after 2 and 16 wk of incubation. Material fractionation indicated that the PB containing the highest total P and the lowest Al content had the highest proportion of labile P, whereas most P in the biochar was in a stable form. The incubation study revealed that the P-rich PB increased P availability in both soils to a level comparable to mineral fertilizer at the end of the incubation. The addition of biochar to PB, however, did not affect soil P availability, but the highest rate induced a conversion of P fixed to Al and Fe oxides towards recalcitrant forms, particularly in the sandy loam soil. We conclude that co-applying biochar and PB could be more beneficial than application biochar alone and soils amended with such a mixture would be expected to release part of their P slowly over a longer period of time.

Published

2022

2. Co-application of wood biochar and paper mill biosolids affects yield and short-term nitrogen and phosphorus availability in temperate loamy soils

Author

Eric Manirakiza, Bernard Gagnon, and Noura Ziadi

Subjects

Biosolids, business.industry, Phosphorus, Land management, Soil Science, chemistry.chemical_element, Paper mill, 04 agricultural and veterinary sciences, 010501 environmental sciences, 01 natural sciences, Nitrogen, Agronomy, chemistry, Loam, Biochar, 040103 agronomy & agriculture, Temperate climate, 0401 agriculture, forestry, and fisheries, Environmental science, business, 0105 earth and related environmental sciences

Abstract

Amending croplands with forest residues may help in restoring soil properties in fields subject to intensive land management. Despite their known benefits when applied separately, co-application of wood biochar with paper mill biosolids (PB) has seen little investigation under field conditions. A study was initiated in Québec, QC, Canada, to determine the effect of a single application of wood biochar with and without PB on the nitrogen (N) and phosphorus (P) availability of two pH-neutral to alkaline loamy soils. Biochar at 0, 10, and 20 Mg dry weight·ha−1 and PB at 30 Mg wet weight·ha−1 were applied before planting of corn (Zea mays L.) and soybean [Glycine max (L.) Merr.] in 2018. Residual effect of this co-application was determined under soybean and corn in the subsequent year. In both years, corn received supplemental N and P from mineral fertilizers according to local agronomic recommendations. Co-applying biochar and PB reduced soil NO3-N availability in the year of application and decreased corn yield by 1.0 Mg·ha−1 compared with biochar or PB applied alone, but these amendments did not affect soybean yields. In the following year, the previous biochar addition increased soybean yield by 0.6 Mg·ha−1 but had little effect on corn. For both years, biochar addition induced a large increase in soil Mehlich-3 P. This study revealed that wood biochar positively impacted P status of these soils but was not a source of N to crops even when co-applied with PB.

Published

2022

3. Changes in soil pH and nutrient extractability after co-applying biochar and paper mill biosolids

Author

Noura Ziadi, Hani Antoun, Antoine Karam, Mervin St. Luce, Eric Manirakiza, and Chantal Hamel

Subjects

Nutrient, Biosolids, business.industry, Soil pH, Environmental chemistry, Biochar, Soil Science, Environmental science, Paper mill, business

Abstract

Acidification and metal mobility may present challenges in soil receiving paper mill biosolids (PB). Co-applying biochar and PB could help prevent these issues, but its effect must be assessed. The objective of this 224 d incubation study was to evaluate the effect of amending two acidic soils, a clay and sandy loam, with two PB types varying in pH (PB1, pH = 7.80; and PB2, pH = 4.51) co-applied with three rates (0%, 2.5%, and 5% w/w) of pine (Pinus strobus L.) biochar on soil pH and macro- (P, K, Ca, and Mg) and micronutrients (Cu, Zn, Fe, and Mn). In both soils, co-applying biochar and PB significantly increased soil pH and extractable K concentration compared with PB-only application, whereas amending with PB significantly increased soil extractable P concentration compared with the unamended soil. In comparison with PB only, co-applying 5% biochar and PB decreased extractable Cu concentration in both soils and extractable Fe concentration in the sandy loam soil. This study showed that co-applying biochar and PB can be more beneficial to agricultural soils than application of PB alone by supplying nutrients and helping prevent metal toxicity by raising pH, especially in acidic sandy soils.

Published

2022

4. Phycoremediation of water of Ellenga beel polluted with paper mill effluent using Chlorella ellipsoidea and Desmodesmus opoliensis

Author

Ajitabh Bora, Abhinav Sharma, Susmita Das, Nirmali Gogoi, Sanjai K. Dwivedi, and Subham C. Mondal

Subjects

Chlorella ellipsoidea, business.industry, Environmental science, Paper mill, Desmodesmus opoliensis, Pulp and paper industry, business, Effluent, General Environmental Science

Abstract

The present study investigated the phycoremediation efficacy of two freshwater green microalgae Chlorella ellipsoidea and Desmodesmus opoliensis for treatment of water of Ellenga beel, a wetland lo...

Published

2021

5. How Different Carryover Pitch Extractive Components are Affecting Kraft Paper Strength

Author

Jussi Antero Lahti, Roman Poschner, Andrea Hochegger, Ulrich Hirn, Stefan Spirk, Werner Schlemmer, and Erich Leitner

Subjects

Softwood, business.industry, Chemistry, Starch, General Chemical Engineering, Papermaking, Pulp (paper), Paper mill, General Chemistry, engineering.material, Pulp and paper industry, Article, chemistry.chemical_compound, Kraft process, engineering, business, QD1-999, Kraft paper, Unsaturated fatty acid

Abstract

We present how harmful different wood extractives carried over to paper mill with unbleached softwood Kraft pulp are for the strength of packaging papers and boards. The investigations were done by simulating industrial papermaking conditions in laboratory-scale trials for handsheet production. It was found that fatty acids are the most relevant compounds in the carryover pitch extractives (CPEs), as they readily interfere in fiber–fiber bonding strength, control the properties of CPE micelles, and are furthermore the most abundant compounds. Addition of cationic starch improved strength and evened out the strength differences of handsheets with different CPE compounds. Oleic acid (unsaturated fatty acid) was an exception, as it was above average harmful for paper strength without cationic starch and also heavily impaired the functioning of cationic starch. As a whole, these findings demonstrate that fatty acids, especially unsaturated ones, are the most relevant CPE compounds contributing to the reduced efficiency of cationic starch and decreased strength of unbleached softwood Kraft paper. This makes the cleaning of process waters by precipitating CPEs on the pulp fibers harmful for paper strength.

Published

2021

6. Target and Nontarget Screening of PFAS in Biosolids, Composts, and Other Organic Waste Products for Land Application in France

Author

Françoise Watteau, Sébastien Sauvé, Gabriel Munoz, Camille Resseguier, Valérie Sappin-Didier, Frédéric Feder, Thierry Morvan, Sabine Houot, Sung Vo Duy, Mélanie Desrosiers, Denis Montenach, Aurélia Michaud, Jinxia Liu, and Min Liu

Subjects

Biosolids, Swine, Substance toxique, 010501 environmental sciences, Déchet agricole, 01 natural sciences, Animals, Environmental Chemistry, Dry matter, Fluorotelomer, 0105 earth and related environmental sciences, Waste Products, Fluorocarbons, Sewage, business.industry, Composting, Aquatic ecosystem, 010401 analytical chemistry, Paper mill, Compost, Composition chimique, General Chemistry, Biodegradable waste, Manure, 0104 chemical sciences, Effluent, Environmental chemistry, Environmental science, Cattle, business, P02 - Pollution, Sludge

Abstract

Zwitterionic, cationic, and anionic per- and polyfluoroalkyl substances (PFAS) are increasingly reported in terrestrial and aquatic environments, but their inputs to agricultural lands are not fully understood. Here, we characterized PFAS in 47 organic waste products (OWP) applied in agricultural fields of France, including historical and recent materials. Overall, 160 PFAS from 42 classes were detected from target screening and homologue-based nontarget screening. Target PFAS were low in agriculture-derived wastes such as pig slurry, poultry manure, or dairy cattle manure (median ∑46PFAS: 0.66 μg/kg dry matter). Higher PFAS levels were reported in urban and industrial wastes, paper mill sludge, sewage sludge, or residual household waste composts (median ∑46PFAS: 220 μg/kg). Historical municipal biosolids and composts (1976–1998) were dominated by perfluorooctanesulfonate (PFOS), N-ethyl perfluorooctanesulfonamido acetic acid (EtFOSAA), and cationic and zwitterionic electrochemical fluorination precursors to PFOS. Contemporaneous urban OWP (2009–2017) were rather dominated by zwitterionic fluorotelomers, which represented on average 55% of ∑160PFAS (max: 97%). The fluorotelomer sulfonamidopropyl betaines (X:2 FTSA-PrB, median: 110 μg/kg, max: 1300 μg/kg) were the emerging class with the highest occurrence and prevalence in contemporary urban OWP. They were also detected as early as 1985. The study informs for the first time that urban sludges and composts can be a significant repository of zwitterionic and cationic PFAS.

Published

2021

7. DYNAMICS OF THE BACTERIOPLANKTON STATE IN THE SHCHUCHIY BAY OF LAKE LADOGA AFTER THE CLOSURE OF THE PRIOZERSKY PULP AND PAPER MILL

Author

L. L. Kapustina, G. G. Mitrukova, and E. A. Kurashov

Subjects

Hydrology, Ecology, business.industry, Pulp (paper), Closure (topology), Paper mill, Bacterioplankton, engineering.material, engineering, Environmental science, business, Waste Management and Disposal, Bay, Water Science and Technology

Abstract

Introduction. The Shchuchiy Bay is located in the western part of the skerry area of Lake Ladoga near the town of Priozersk. For almost 20 years, the bay has experienced an anthropogenic impact from the ingress of untreated wastewater from the Priozersk Pulp and Paper Mill (PPM). Systematic microbiological studies of the Shchuchiy Bay ecosystem were started in the middle of the 1970s by the Institute of Limnology of the Russian Academy of Sciences and continued after the PPM closure in 1986. Materials and methods. The ecosystem of the bay was studied in detail during the growing season of 2013–2014; periodic studies were carried out in 2015–2018. Retrospective data were also used for the analysis. Water samples were taken at four stations from the surface horizon. The following microbiological indicators were determined: the abundance of bacterioplankton and the percentages of various morphological types of bacterial cells. Results and discussion. A comparison of the quantitative level of development of the bacterial community in the bay in different periods showed a gradual decrease in the abundance of bacterioplankton as the anthropogenic impact weakened after the closure of the Priozersky PPM from 12.40 million cells ml–1 in 1987 to an average value of 2.62±1.03 million cells ml–1 in 2013–2018. A positive correlation was found between the concentration of bacteria and water temperature. The percentage of rod-shaped microorganisms in the water of the bay also decreased as the anthropogenic impact weakened from 73.4 % in 1987 to 53.1±7.6 % in 2013–2018, which indicated an improvement in water quality. Conclusion. A stable decrease in the abundance of bacteria from the level characteristic of highly polluted and eutrophic water bodies to the level characteristic of mesotrophic and mesotrophic-eutrophic water bodies is a reliable criterion for the restoration of the ecosystem of the Shchuchiy Bay to the state characteristic of similar bays of Lake Ladoga.

Published

2021

8. Printability of bio-composite sheets made from paper mill and cardboard mill waste sludge

Author

Ahmet Akgül, Burcu Nilgün Çetiner, Garip Genç, Öznur Özden, Hüseyin Yüce, and Sinan Sönmez

Subjects

Materials science, business.industry, visual_art, Composite number, Materials Chemistry, visual_art.visual_art_medium, Mill, cardboard, Paper mill, business, Pulp and paper industry, Surfaces, Coatings and Films

Abstract

Purpose The purpose of this study is to reveal the usability of waste paper sludge on the production of composite materials and the printability of their surfaces were investigated. Design/methodology/approach First, composite plates were produced by using dried and milled waste sludge together with polyester resin and epoxy. Screen printing using water, solvent and UV-based inks were carried out. Findings It was determined that UV and solvent-based inks in both resin groups were permanently attached to the surface of composite plates produced using paper mill waste sludge, while it was found that the adhesion was not achieved sufficiently in cardboard factory waste sludge. Originality/value The unique aspect of this study is obtained the composite plates from paper mill and cardboard mill waste sludge and improved the printability of them.

Published

2021

9. Application of sequencing batch biofilm reactor (SBBR) to recycled paper mill effluent treatment

Author

Shuangshuang Chen, Lirong Lei, and Youming Li

Subjects

business.industry, Biofilm, Environmental science, General Materials Science, Forestry, Paper mill, Pulp and paper industry, business, Effluent

Abstract

Paper mill effluent has been characterized as recalcitrant because of containing lignin and its derivatives. Since biofilm system exhibits a notable potential for the removal of recalcitrant contaminants, a sequencing batch biofilm reactor (SBBR) was employed to treat coagulated recycled paper mill effluent in this study. The results indicated that the SBBR removed 91.3 % of chemical oxygen demand (COD), whilst total suspended solid (TSS) and color removal reached 83.1 % and 71.0 %, respectively. The microbial analysis suggested that three typical heterotrophic phyla, Proteobacteria, Bacteroidetes and Acidobacteria are dominant bacteria and reflected the removal of recalcitrant contaminants. The COD removal rate of SBBR is evidently superior to conventional activated sludge process due to high sludge concentration as well as long sludge retention time (SRT). Whilst the problem of sludge bulking can be successfully avoided, the blockage of reactor caused by TSS accumulation and microbial growth deserve further investigation.

Published

2021

10. Performance of Modified Anaerobic Hybrid Baffled (MAHB) bioreactor treating recycled paper mill effluent: Effects of organic loading rates

Author

Siti Roshayu Hassan and Irvan Dahlan

Subjects

business.industry, Bioreactor, Environmental science, Paper mill, business, Pulp and paper industry, Anaerobic exercise, Effluent

Abstract

The performance of modified anaerobic hybrid baffled (MAHB) bioreactor treating recycled paper mill effluent (RPME) was investigated at various organic loading rates (OLR) of 1, 2, 3 and 4 g COD/ L.day. The bioreactor was operated continuously at constant hydraulic retention time (HRT) of a day without effluent recycled and chemicals adjustment/addition. Throughout 70 days of operation, a maximum removal efficiency up to 97% of chemical oxygen demand (COD) and 98% of volatile fatty acid, biogas production of 12.51 L/day equivalent to methane (CH4) yield of 0.108L CH4/ g COD and a stable pH system between 6.6 to 7.2 were achieved. Additionally, alkalinity of the bioreactor system shows a stable profile that indicates the whole system was well buffered with a quit high degradation of volatile solid (VS) up to 18%. These results indicated that MAHB bioreactor has been successfully treated RPME at various OLR.

Published

2021

11. Water Quality Assessment of Paper Mills Effluent Discharge Areas

Author

Md. Shakilur Zaman Shakil and M. G. Mostafa

Subjects

Pollution, business.industry, media_common.quotation_subject, Aquatic ecosystem, General Engineering, Environmental engineering, Paper mill, Bioaccumulation, Environmental science, Water quality, business, Effluent, Surface water, Groundwater, media_common

Abstract

The study attempted to assess the water quality around paper mill effluents discharge areas. Several physicochemical parameters and the Canadian Council of Ministers of the Environment (CCME) Water Quality Index (WQI) were considered to determine the pollution level of surface and groundwater in the selected paper mills areas located in Saidpur, Gobindaganj, and Dupchanchia Upazilas of Bangladesh. Physicochemical characterization of the surface water around the paper mills areas showed that the concentration of EC, TSS, BOD5, COD, phenols, NO3−-N, and K+were exceeded the surface water standard, whereas the DO level ranged from 1.63 to 3.5 were found below the Environmental Conservation Rules (ECR), 1997 standard. Besides, the BOD, COD, and Mn ion concentrations of groundwater exceeded the drinking water standard. In most sampling sites, the WQI of the surface water showed ‘marginal’ category, and the groundwater quality showed 'fair' category. The study observed that the toxic effluents discharged from the paper mills caused harm to the aquatic ecosystem.

Published

2021

12. Recalcitrant pollutants removal from paper mill wastewater by ferrous ion- and heat- activated persulfate oxidation processes using response surface methodology: a comparison study

Author

Gamze Varank, Emine Can-Güven, and Senem Yazici Guvenc

Subjects

Pollutant, Chemistry, business.industry, Process Chemistry and Technology, General Chemical Engineering, Filtration and Separation, Paper mill, General Chemistry, Persulfate, Pulp and paper industry, Ferrous, Ion, chemistry.chemical_compound, Wastewater, Phenol, Response surface methodology, business

Abstract

In this study, the removal of UV254, phenol, and calcium from paper industry wastewater by persulfate oxidation was investigated. Fe2+ addition and heat application methods were used for persulfate...

Published

2021

13. Sustainable Production of Thermostable Laccase from Agro-Residues Waste by Bacillus aquimaris AKRC02

Author

Ajay Kumar Singh, Muhammad Bilal, Adarsh Kumar, and Ram Chandra

Subjects

Laccase, Bran, Chemistry, business.industry, Pulp (paper), food and beverages, Banana peel, Paper mill, General Chemistry, Orange (colour), engineering.material, Catalysis, Halophile, visual_art, engineering, visual_art.visual_art_medium, Food science, Sawdust, business

Abstract

Laccase is a versatile enzyme that plays a major role in the remediation of various environmental pollutants. In this work, a thermo-tolerant halophilic Bacillus aquimaris AKRC02 was isolated from pulp and paper mill waste sludge for efficient laccase production. Various agro-industrial waste residues, including potato peel, banana peel, sawdust, pea peel, wheat bran, orange peel, and rice bran, were screened to produce laccase using a submerged fermentation process. Among these, rice bran supported the maximum laccase production (4.58 U/mL). The optimized environmental conditions (incubation time 120 h; 4.58 U/mL), 35 0C; 6.624 U/mL) and pH 7.0; 10.142 U/mL) and nutritional sources (glucose 1.0%; 14.164 U/mL and peptone 0.5%; 18.124 U/mL) significantly enhanced the laccase production. Purified laccase showed a specific activity and purification fold of 228.34 U/mg and 38.08, respectively. The purified enzyme showed a molecular weight of 65 kDa and high thermal stability at 45 0C for 8 h. In conclusion, the remarkable properties of the newly isolated bacterium may provide a significant opportunity for degrading environmental contaminants, making it an attractive biocatalyst for industrial applications.

Published

2021

14. Lignin Biorefinery: New Horizons in Catalytic Hydrodeoxygenation for the Production of Chemicals

Author

Sonita Maharana, Bhaskar Thallada, Adarsh Kumar, and Meenu Jindal

Subjects

New horizons, business.industry, Chemistry, General Chemical Engineering, Energy Engineering and Power Technology, Paper mill, Raw material, Biorefinery, Pulp and paper industry, Catalysis, chemistry.chemical_compound, Fuel Technology, Production (economics), Lignin, business, Hydrodeoxygenation

Abstract

Lignin is a byproduct of the paper mill and second-generation (2G) ethanol biorefinery and the largest naturally available source of aromatic building blocks. It can serve as a feedstock to produce...

Published

2021

15. From wastes to functions: A paper mill sludge-based calcium-containing porous biochar adsorbent for phosphorus removal

Author

Rongrong Miao, Zhijuan Wang, Qingqing Guan, Liang He, and Ping Ning

Subjects

Langmuir, Municipal solid waste, chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Biomaterials, Colloid and Surface Chemistry, Adsorption, Biochar, Sewage, Carbonization, Chemistry, business.industry, Phosphorus, Paper mill, 021001 nanoscience & nanotechnology, Pulp and paper industry, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Kinetics, Wastewater, Charcoal, Calcium, 0210 nano-technology, business, Porosity, Water Pollutants, Chemical

Abstract

With the increased awareness of reusing solid wastes for higher sustainability and the concern of water pollution associated with phosphorus over-emission, there are strong interests in developing solid waste based adsorbents for purifying phosphorus-containing wastewater. As a rich calcium resource, paper mill sludge (i.e., a major solid waste from pulping industry) can be used as phosphorus removal adsorbent after calcination. Thus, in this work, a simple and clean thermally treating route has been proposed for preparing calcium-containing biochar from paper mill sludge. The effect of the physicochemical properties of paper mill sludge and its carbonization condition on phosphorus adsorption has been analyzed. Moreover, the influence of some key adsorption parameters, e.g., biochar dosage, initial pH of solution, co-existing anions, initial phosphorus concentration and contact time has also been investigated. The results showed that the phosphorus adsorption data could be fitted well with pseudo-second-order kinetic and Langmuir isothermal models. The calculated maximum adsorption capacity of the as-prepared optimal calcium-containing biochar could reach to 68.49 mg·g−1 at 25 °C. Combined with the characterization results, it can be reasonably inferred that the adsorption process was chemisorption-dominated. Lastly, the application of this spent adsorbent in agriculture field has also been discussed. In brief, this work provided a feasible strategy for converting paper mill solid waste to an environmental functional material (i.e., calcium-rich biochar) for remediation of eutrophic water.

Published

2021

16. Incineration of Pulp and Paper Mill Waste in Supercritical Water Using Methane as a Co-Fuel

Author

M. Ya. Sokol, A. V. Shishkin, Anatoly A. Vostrikov, D. O. Artamonov, and Oxana N. Fedyaeva

Subjects

Environmental Engineering, Waste management, business.industry, Pulp (paper), Energy Engineering and Power Technology, chemistry.chemical_element, Paper mill, engineering.material, Condensed Matter Physics, Oxygen, Supercritical fluid, Methane, Volumetric flow rate, Incineration, chemistry.chemical_compound, chemistry, Modeling and Simulation, Empirical formula, engineering, Environmental science, business

Abstract

The paper presents a research on the disposal of the toxic waste of pulp and paper mill (sludge-lignin with the empirical formula CH1.51N0.05S0.03Cl0.01O0.54through its oxidation in supercritical water-oxygen fluid, including the case of using methane as a co-fuel. The experiments were carried out with a flow reactor of original design at a pressure of 25 MPa, temperature gradient along the vertical axis (from top to bottom: 390–600°C), and variation in the flow rate of the sludge-lignin (with the addition of NaOH, 1.6 wt %), oxygen, and methane. The experiments yielded data on the content of phenols in the water and the composition of the gaseous products collected at the outlet of the reactor versus the oxygen excess ratio. From these data, as well as the time dependences of the reactor wall temperature and the power of the ohmic heaters, it follows that using distributed supply of methane to compensate for the energy for heating of the reagents is preferable as compared with local inlet of methane to the upper part of the reactor. It has been shown that the addition of methane makes it possible to reduce the oxygen excess required for complete oxidation of the organic components of sludge-lignin.

Published

2021

17. Valorization of pulp and paper industry wastewater using sludge enriched with nitrogen‐fixing bacteria

Author

Ben D. Allen, Carolina Ospina-Betancourth, Janeth Sanabria, Thomas P. Curtis, Kishor Acharya, and Ian M. Head

Subjects

Nitrogen-Fixing Bacteria, Paper, Nitrogen, Biofertilizer, Industrial Waste, chemistry.chemical_element, 02 engineering and technology, Wastewater, 010501 environmental sciences, Waste Disposal, Fluid, complex mixtures, 01 natural sciences, Bioreactors, 020401 chemical engineering, RNA, Ribosomal, 16S, Environmental Chemistry, 0204 chemical engineering, Waste Management and Disposal, Effluent, 0105 earth and related environmental sciences, Water Science and Technology, Sewage, business.industry, Ecological Modeling, food and beverages, Paper mill, Pulp and paper industry, Pollution, Activated sludge, chemistry, Nitrogen fixation, Sewage treatment, business

Abstract

Nitrogen-fixing bacteria (NFB) can reduce nitrogen at ambient pressure and temperature. In this study, we treated effluent from a paper mill in sequencing batch reactors (SBRs) and monitored the abundance and activity of NFB with a view to producing a sludge that could work as a biofertilizer. Four reactors were inoculated with activated sludge enriched with NFB and fed with a high C/N waste (100:0.5) from a paper mill. Though the reactors were able to reduce the organic load of the wastewater by up to 89%, they did not have any nitrogen-fixing activity and showed a decrease in the putative number of NFB (quantified with qPCR). The most abundant species in the reactors treating high C/N paper mill wastewater was identified by Illumina MiSeq 16S rRNA gene amplicon sequencing as Methyloversatilis sp. (relative abundance of 4.4%). Nitrogen fixation was observed when the C/N ratio was increased by adding sucrose. We suspect that real-world biological nitrogen fixation (BNF) will only occur where there is a C/N ratio ≤100:0.07. Consequently, operators should actively avoid adding or allowing nitrogen in the waste streams if they wish to valorize their sludge and reduce running costs. PRACTITIONER POINTS: Efficient biological wastewater treatment of low nitrogen paper mill effluent was achieved without nutrient supplementation. The sludge was still capable of fixing nitrogen although this process was not observed in the wastewater treatment system. This high C/N wastewater treatment technology could be used with effluents from cassava flour, olive oil, wine and dairy industries.

Published

2021

18. ANALYSIS OF LINE EFFICIENCY IN FINISHING DEPARTMENT PT PURA NUSAPERSADA UNIT PAPER MILL 7/8

Author

Wahyu Ani Maulidiyah Sari and Bambang Suhardi

Subjects

business.industry, Mechanical engineering, Environmental science, Paper mill, Line (text file), business, Unit (housing)

Abstract

Measuring line efficiency and productivity are very important to do to find out in which level the efficiency and productivity of the business process has been carried out by the company. This paper aims to determine line efficiency analysis and provide suggestions for improvements to increase line efficiency at the finishing department of PT Pura Nusapersada. Measurement of line efficiency in the finishing department of PT Pura Nusapersada paper mill unit 7 has not yet reached the company's line efficiency value target. The initial line efficiency assessment obtained a percentage of 65.14% while the company's target was 70%. In this paper, a fishbone diagram is used to determine the root cause of the problem. Based on the research results, it was found that the most dominant cause of the problem was the inefficient work elements at the cutter, sorting, pollar, and packing work stations. Improvements were made using the eliminate, combine, re-arrange, and simplify (ECRS) method and the results of the line efficiency improvements in the finishing department increased to 71.90% and the company's target can be met.

Published

2021

19. APPLICATION OF INTEGRAL QUALITY INDICATORS OF WASTEWATERS FOR INPRODUCTION ECOLOGICAL AND ANALYTICAL CONTROL OF CELLULOSE PRODUCTION

Subjects

0106 biological sciences, Chemical transformation, 02 engineering and technology, Plant Science, engineering.material, complex mixtures, 01 natural sciences, Biomaterials, chemistry.chemical_compound, Lignin, Cellulose, Total organic carbon, Chemistry, business.industry, Pulp (paper), Organic Chemistry, technology, industry, and agriculture, food and beverages, Paper mill, 021001 nanoscience & nanotechnology, Pulp and paper industry, engineering, Composition (visual arts), Gas chromatography, 0210 nano-technology, business, 010606 plant biology & botany

Abstract

The influence of technological factors (wood species, degree of delignification, the technological regime of pulping) of cellulose semi-products production on composition and qualitative properties of wastewaters of pulp and paper mills following priority of harmonizing of technological and ecological rationing of industrial enterprises. The features of the biopolymer’s composition of the lignin-carbohydrate matrix of coniferous and deciduous species, its functional nature, and self-organization were provided. The main paths of chemical bond destruction in the lignin-carbohydrate complex during delignification and formation of the composition of organic fractions in local wastewaters were shown. The implementation of complementary indicators (COD, BOD5, general and organic carbon, the content of lignin, and volatile phenols) for in-house ecological and analytical control and rationing was substantiated. The dependence of integral indicator COD from the content of fractions of organic components from wastewaters was established. These components are products of destruction and chemical transformation of the lignin-carbohydrate matrix of deciduous and coniferous wood produced during delignification. The composition and the main phenolic components of wastewaters were determined by gas chromatography with mass detection. The correctness of worldwide practice of using "phenolic index" in the system of in-house control of pulp and paper mill was justified.

Published

2021

20. Surfactant-assisted green liquor dregs pretreatment to enhance the digestibility of paper mill sludge

Author

Prabashni Lekha, Daneal C.S. Rorke, Gueguim E.B. Kana, and Bruce Sithole

Subjects

Renewable Energy, Sustainability and the Environment, business.industry, Chemistry, Pulp (paper), Energy Engineering and Power Technology, Paper mill, 02 engineering and technology, engineering.material, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Pulp and paper industry, 01 natural sciences, 0104 chemical sciences, Fuel Technology, Kraft process, engineering, Green liquor, Fermentation, Response surface methodology, 0210 nano-technology, business, Hydrogen production, Waste disposal

Abstract

This study optimizes a novel surfactant-assisted green liquor dregs (GLD) pretreatment of paper mill sludge (PMS), both of which are wastes from the kraft pulping industry, using a combined Response Surface Methodology (RSM) design. Optimized conditions give a maximal reducing sugar release of 16.38 g/L. A substantial reduction in heavy metals aluminum, chromium, cobalt, arsenic, lead, and copper after pretreatment illustrates the enhancement of substrate digestibility by reducing toxic elements. Separate hydrolysis and fermentation (SHF) and simultaneous saccharification and fermentation (SSF) for hydrogen production are assessed. SSF produced a hydrogen yield of 3.72 mL/g, displaying a 36.26% increase from pretreated PMS compared to SHF. These findings provide insights into possible methods of reducing process duration, energy input, and costs incurred with waste disposal within the paper industry. Furthermore, improved hydrogen yield using an SSF process demonstrates the potential beneficiation of pulp and paper GLD and PMS wastes.

Published

2021

21. Slime control in paper mill using biological agents as biocides

Author

Nishi Kant Bhardwaj, Chhavi Sharma, Puneet Pathak, and Varun Kumar

Subjects

0303 health sciences, 03 medical and health sciences, Biocide, 030306 microbiology, Chemistry, business.industry, General Physics and Astronomy, General Materials Science, Paper mill, General Chemistry, business, Pulp and paper industry, 030304 developmental biology

Abstract

The environmental conditions of paper mills are suitable for the growth of slime-forming microorganisms due to the supply of nutrients, favorable temperature, and moisture. The slime formation causes the spoilage of raw materials & additives, breaks in the paper during papermaking, loss of production, reduces the hygienic quality of the end products, produces off-spec and rejected products, creates microbiological corrosion, and produces harmful gases. The main microorganisms are Bacteria (mainly Bacillus spp., Achromobacter spp., Enterobacter spp., Pseudomonas spp., Clostridium, etc.), Fungi (Aspergillus, Penicillium, Saccharomyces, etc.), and Algae. Besides the use of conventional toxic chemical biocides or slimicides, slime formation can also be controlled in an eco-friendly way using enzymes, bacteriophages, biodispersants, and biocontrol agents alone or along with biocides to remove the slime. Enzymes have shown their effectiveness over conventional chemicals due to nontoxic and biodegradable nature to provide clean and sustainable technology. Globally enzymes are being used at some of the paper mills and many enzymatic products are presently being prepared and under the trail at laboratory scale. The specificity of enzymes to degrade a specific substrate is the main drawback of controlling the mixed population of microorganisms present in slime. The enzyme has the potential to provide the chemical biocide-free solution as a useful alternative in the future with the development of new technologies. Microorganisms control in the paper mill may appear as a costly offer but the cost of uncontrolled microbial growth can be much higher leading to slime production and large economic drain.

Published

2021

22. Evaluating effects of activated sludge and nanochitosan on physical and strength properties of recycled pulp

Author

Naghmeh Amani Bishehgah, Majid Kiaei, Abdollah Najafi, Ramin Vaysi, and Seyed Eshagh Ebadi

Subjects

Tear resistance, Environmental Engineering, Absorption of water, business.industry, Chemistry, Pulp (paper), Bioengineering, Paper mill, engineering.material, Pulp and paper industry, Adsorption, Activated sludge, visual_art, Ultimate tensile strength, Newsprint, visual_art.visual_art_medium, engineering, business, Waste Management and Disposal

Abstract

The present research aims to shed light on the effect of activated sludge (from a paper mill) and nanochitosan on the physical and strength properties of recycled pulp. Firstly, activated sludge was treated with 3% acetic acid for 30 min and then placed in a beaker for 90 min at 100 °C. Then, the ingredients were mixed and refined with recycled newsprint pulp in different proportions (0, 5, 10, and 15%). Finally, 2% nanochitosan was optionally added. Test specimens were prepared according to TAPPI standards with a basis weight of 120 g/m2, and their physical (water absorption) and strength (tear strength, tensile strength, burst strength, and ring crush test) properties were measured and compared. The results showed that with the increase of untreated activated sludge in recycled paper pulp, the indicators of tear resistance, ring crush test, and burst strength decreased and water absorption increased. Strength properties increased and water adsorption decreased when adding activated sludge treated with 3% acetic acid. Through the addition of nanochitosan to activated sludge treated with acetic acid, a significant increase in strength properties and a decrease in water absorption were observed.

Published

2021

23. Removal of Heavy Metals using the Isolates of Aspergillus sp. Isolated from Contaminated Pulp and Paper Mill Sludge

Author

M. Ezhilvanan S. F. Lesley Sounderraj and Nancy Lesley

Subjects

Aspergillus, biology, business.industry, Chemistry, Pulp (paper), engineering, Paper mill, Heavy metals, engineering.material, Contamination, business, biology.organism_classification, Pulp and paper industry

Published

2021

24. Stan badań dziejów młyna papierniczego w Dusznikach-Zdroju

Author

Maciej Szymczyk

Subjects

History, business.industry, World heritage, World War II, Economic history, Mill, Paper mill, Nomination, General Medicine, business

Abstract

The article is devoted to the evolution of interest in the paper mill in Duszniki-Zdrój for over two centuries. The paper mill was established before 1562, when the Kłodzko region was part of the Kingdom of Bohemia. The mill played an important economic and cultural role for nearly three centuries. It stopped its operations during the great economic crisis and in 1939 was sold to the city of Duszniki. After the Second World War and incorporation of Silesia with the Kłodzko region into Poland, the mill was o fficially recognised as a historic building (listed in 1956) and in 1968 it was turned into the Museum of Papermaking. It 2011 the paper mill was granted the status of a Monument of History, which paved the way for it to be included in the UNESCO list.Interest in the history of the mill dates back to at least the second half of the eighteenth century. In 1789 a detailed history of the mill was published in Beyträge zur Beschreibung von Schlesien by F.A. Zimmermann and a lot of the information included in it at the time still remains relevant. During the following century interest in the history of the mill was shown by J. Kögler and W. Hohaus, and in the early twentieth century — by F. Hössle or B. Maiwald. After the Second World War the history of the mill was studied by many Polish historians, including K. Maleczyńska, M. Kutzner, M. Przyłecki, K. Sarnecki and W. Tomaszewska. The interest in the paper mill and its history has been boosted on an unprecedented scale over the recent decade, after eff orts were launched to have the mill entered in the UNESCO list. The paper mill has been studied by e.g. R. Eysymontt, A. Fortuna-Marek, G. Grajewski, A. Kozieł, R. Sachs, A. Szeląg, B. Szmygin, as well as J. Bałchan and M. Szymczyk, both of whom were associated with the museum. In 2018 the Museum of Papermaking published a Monograph of the Duszniki-Zdrój Paper Mill, which contains the latest fi ndings about the history of the paper mill and which will be used in the nomination for the mill to be included in the World Heritage List.

Published

2021

25. Removal of colour and lignin from paper mill wastewater using activated carbon from plastic mix waste

Author

Ravindra K. Rawal, Nishi Kant Bhardwaj, and V. Gupta

Subjects

Environmental Engineering, business.industry, Pulp (paper), Paper mill, 010501 environmental sciences, engineering.material, Pulp and paper industry, 01 natural sciences, chemistry.chemical_compound, Adsorption, chemistry, Wastewater, engineering, medicine, Environmental Chemistry, Lignin, Char, General Agricultural and Biological Sciences, business, Pyrolysis, 0105 earth and related environmental sciences, Activated carbon, medicine.drug

Abstract

The study aimed at the use of char produced during pyrolysis of mix plastic waste. It further focused on producing activated carbon from char and also found its efficacy as efficient adsorbent for treatment of pulp and paper mill wastewater. The activated carbon was characterized in comparison with raw char for their physical, surface and adsorptive properties. Batch type adsorption experiments were carried out using 100 ml wastewater to observe the individual effectiveness using five different variables such as adsorbent dose (0.25–2.0 g), pH (6–10), time (5–24 h), agitation speed (100–200 rpm) and temperature (30–50 °C) by keeping other variables constant which helped to find out the effective range of all the variables. The competency was evaluated on the basis of colour and lignin content of pulp and paper industry wastewater. Once the effective range of different variables was identified, the statistical analysis was conducted to monitor the mutual impact on the reduction in colour and lignin contents in wastewater. From the statistical design applied, the best result was obtained at activated carbon dose (1.25 g), pH (8.0), contact time (7 h), agitation speed (184 rpm) and temperature (40 °C). The study resulted in reduction of 96.48% in colour and 94.25% in lignin at optimized condition in comparison with 87.37 and 80.44%, respectively, at unoptimized conditions. A potential increase in reduction of 9.0% in colour and 14.0% in lignin content was achieved after optimization through statistical design that confirmed its usefulness.

Published

2021

26. Treatment of paper mill effluent via electrochemical reaction and assessment of antibacterial activity of ZnO nanoparticles in in-vitro conditions

Author

Khanindra Sharma, Madhurankhi Goswami, Neelotpal Sen Sarma, Arundhuti Devi, and Mohammed Shadab

Subjects

Chemistry, business.industry, Environmental remediation, General Chemical Engineering, Chemical oxygen demand, Paper mill, 02 engineering and technology, General Chemistry, Bacterial growth, 010402 general chemistry, 021001 nanoscience & nanotechnology, complex mixtures, 01 natural sciences, Biochemistry, Industrial and Manufacturing Engineering, 0104 chemical sciences, chemistry.chemical_compound, Materials Chemistry, Phenol, 0210 nano-technology, Antibacterial activity, Hydrogen peroxide, business, Effluent, Nuclear chemistry

Abstract

A simple electrochemical approach has been strategically developed for in situ generations of ZnO nanoparticles using Zn rods as electrodes and hydrogen peroxide as the oxidant without the formation of any by-product. These ZnO nanoparticles were extended for remediation of pollutants present in paper mill effluents, and separation efficiency was found to be above 90% for hydrocarbons, 92% for lignin, 99% for phenol, and 93% of chemical oxygen demand (COD), as confirmed by gas chromatography-mass spectrometry and COD analysis. It was also observed that the experimental setup could successfully remove 99% of the color from the sample. These ZnO nanoparticles have been proven in the past to be antibacterial and were explored for its ability to inhibit the growth of both Gram-positive and Gram-negative bacteria in the effluent samples after the removal of toxic pollutants. Therefore, we proposed an electrochemical reaction for the in situ synthesis of ZnO nanoparticles for remediation of paper mill effluent as well as inhibit the bacterial growth in the treated effluent sample.

Published

2021

27. Pulp and paper mill wastes: utilizations and prospects for high value-added biomaterials

Author

Wassie Mengie, Amare Abuhay, Gemeda Gebino Gelebo, Derseh Yilie Limeneh, Adane Haile, Million Ayele Mebrate, and Tamrat Tesfaye

Subjects

Technology, 020209 energy, Biomedical Engineering, Biomass, 02 engineering and technology, TP1-1185, 010501 environmental sciences, engineering.material, 01 natural sciences, Bioplastic, Biomaterials, 0202 electrical engineering, electronic engineering, information engineering, Viscose, 0105 earth and related environmental sciences, Pulping waste, Renewable Energy, Sustainability and the Environment, business.industry, Pulp (paper), Chemical technology, Paper mill, Biorefinery, Pulp and paper industry, Cellulosic ethanol, engineering, Environmental science, business, High value-added, Black liquor, TP248.13-248.65, Food Science, Biotechnology

Abstract

A wide variety of biomass is available all around the world. Most of the biomass exists as a by-product from manufacturing industries. Pulp and paper mills contribute to a higher amount of these biomasses mostly discarded in the landfills creating an environmental burden. Biomasses from other sources have been used to produce different kinds and grades of biomaterials such as those used in industrial and medical applications. The present review aims to investigate the availability of biomass from pulp and paper mills and show sustainable routes for the production of high value-added biomaterials. The study reveals that using conventional and integrated biorefinery technology the ample variety and quantity of waste generated from pulp and paper mills can be converted into wealth. As per the findings of the current review, it is shown that high-performance carbon fiber and bioplastic can be manufactured from black liquor of pulping waste; the cellulosic waste from sawdust and sludge can be utilized for the synthesis of CNC and regenerated fibers such as viscose rayon and acetate; the mineral-based pulping wastes and fly ash can be used for manufacturing of different kinds of biocomposites. The different biomaterials obtained from the pulp and paper mill biomass can be used for versatile applications including conventional, high performance, and smart materials. Through customization and optimization of the conversion techniques and product manufacturing schemes, a variety of engineering materials can be obtained from pulp and paper mill wastes realizing the current global waste to wealth developmental approach.

Published

2021

28. Adsorptive decontamination of paper mill effluent by nano fly ash: response surface methodology, adsorption isotherm and reusability studies

Author

Sonal Nigam, Tithi Mehrotra, Rachana Singh, Divya Bisht, Surbhi Sinha, and Kavya Bisaria

Subjects

Langmuir, Environmental Engineering, Materials science, 0211 other engineering and technologies, nano fly ash, 02 engineering and technology, 010501 environmental sciences, Coal Ash, 01 natural sciences, Environmental technology. Sanitary engineering, Adsorption, Freundlich equation, Response surface methodology, Effluent, Decontamination, TD1-1066, 0105 earth and related environmental sciences, Water Science and Technology, 021110 strategic, defence & security studies, business.industry, colour removal, Paper mill, pulp and paper mill effluent, Human decontamination, Hydrogen-Ion Concentration, Pulp and paper industry, adsorption isotherm, Kinetics, Coal, column adsorption study, Fly ash, business, Water Pollutants, Chemical, bbd design model

Abstract

In the present study, adsorption of colour and other pollutants from agro-based paper mill effluent onto fabricated coal fly ash nanoparticles (CFA-N) have been investigated. Response surface methodology was applied to evaluate the operational conditions for maximum ouster of colour from effluent by nano structured CFA-N. Maximum reduction in colour (92.45%) and other pollutants were obtained at optimum conditions: 60 min interaction time, 60 g/L adsorbent dosage and 80 rpm agitation rate. The regression coefficient values (adjusted R2 = 0.7169; predicted R2 = 0.7539) established harmony between predicted and the experimental data. The adsorption equilibrium results matched perfectly with both Langmuir and Freundlich isotherms with maximum adsorption capacity of 250 platinum–cobalt/g. Additionally, the efficacy of CFA-N was also assessed in a continuous column mode. Furthermore, the feasibility of treated effluent for irrigation purpose was checked by growing the plant Solanum lycopersicum. Overall, the findings demonstrated the outstanding role of inexpensive and abundantly available CFA-N in treatment of paper mill effluent to the required compliance levels. HIGHLIGHTS Nano fly ash was successfully utilized for removal of colour and other pollutants from agro-based paper mill effluent.; RSM using BBD was used to optimize the operational conditions.; Quadratic models have been established for the response variables.; Fixed-bed column adsorption studies illustrated the feasibility of nano fly ash for pilot-scale applications.; The reusability of treated effluent for irrigation was examined.

Published

2021

29. Analysis of Chemical Properties and Heavy Metals from Cisadane River, Tangerang, Indonesia

Author

Dewi Rosanti, Ellysa Kusuma Laksanawati, and Desy Rosarina

Subjects

Test material, Government regulation, business.industry, Environmental engineering, Sampling (statistics), Environmental science, Heavy metals, Paper mill, Water quality, business

Abstract

This paper explained heavy metals and chemical properties from the Cisadane River in Tangerang City. A survey method was used to determine the place for sampling the test material. Water measurement is carried out in situ and laboratory tests. Data retrieval was done by purposive sampling determining three observation stations, namely in the Taman Gajah Tunggal park area (station1), Babakan Cikokol residential area (station 2), and Karawaci paper mill area (station 3). The analysis was carried out exactly using analysis. Namely, analysis carried out in the laboratory. The parameters observed were COD, phosphate, DO, BOD, pH. Results of this study informed the water quality in the Cisadane City river did not meet Class II Water Quality Standards based on Government Regulation Number 82, the year 2001. The COD content only meets class II water quality standards at stations 1 and 3. BOD and phosphate content is high and exceeds class II water quality standards. Heavy metal content still meets the water quality standard threshold with a value of Cd less than 0.01 mg/L, Cu less than 0.02 mg/L, Pb less than 0.03mg/L, and Cr less than 0.05mg/L. Zn content exceeds the water quality standard threshold at station three and meets water quality standards at stations 1 and 2 with a value of less than 0.05mg/L.

Published

2021

30. Electrochemical technique for paper mill effluent degradation using concentric aluminum tube electrodes (CATE)

Author

Chandrashekhar Basayya Shivayogimath and Prashant Basavaraj Bhagawati

Subjects

Environmental Engineering, Materials science, Health, Toxicology and Mutagenesis, 02 engineering and technology, 010501 environmental sciences, 01 natural sciences, Applied Microbiology and Biotechnology, law.invention, Taguchi methods, 020401 chemical engineering, law, 0204 chemical engineering, Turbidity, Waste Management and Disposal, Effluent, 0105 earth and related environmental sciences, Water Science and Technology, Electrolysis, business.industry, Chemical oxygen demand, Public Health, Environmental and Occupational Health, Paper mill, Pulp and paper industry, Pollution, Electrode, Orthogonal array, business, Research Article

Abstract

In this study, Taguchi experimental design was used to the optimize operating parameters for the degradation of paper mill effluent using electrochemical (EC) process with two-dimensional concentric aluminum tube electrodes (CATE). For this purpose, four significant experimental factors were used in four levels pH (6–9), electrolysis time (10–40 min), voltage (6–12 V) and surface area (357–624 cm(2)). The process parameters were optimized, through performing L16 orthogonal array of Taguchi technique, for the removal of chemical oxygen demand (COD) and turbidity. The percent COD and turbidity reductions were transferred into an accurate S/N ratio for a larger value is the better (LBT) response. The study presents a unique method of finding optimum combination of process parameters to illustrate their effect on the turbidity and COD reduction. The treatment conditions for the maximum elimination of the pollutants were second level of pH (7), third level of ET (30 min), fourth level of voltage (12 V) and second level of surface area (446 cm(2)). The confirmation experiment results were within the confidence intervals (CI) indicating an acceptable agreement between predicted and observed values. Based on the p-values, the electrolysis time and voltages were found to be the most significant factors for both COD and turbidity reduction. The findings of research indicated, that the Taguchi method can be used successfully for the treatment of paper industry effluent by electrochemical technique.

Published

2021

31. Temperature analysis of a novel MAIB reactor during the treatment of wastewater from recycled paper mill

Author

Mohammadtaghi Vakili, Haider M. Zwain, Ahmed Samir Naje, and Irvan Dahlan

Subjects

0106 biological sciences, modified anaerobic inclining-baffled (maib) reactor, business.industry, Paper mill, recycled paper mill wastewater (rpmw), 010501 environmental sciences, Pulp and paper industry, Environmental technology. Sanitary engineering, 01 natural sciences, thermophilic temperature, Wastewater, 010608 biotechnology, mesophilic temperature, Environmental science, business, anaerobic digestion (ad), TD1-1066, 0105 earth and related environmental sciences, Water Science and Technology

Abstract

Anaerobic digestion (AD) is an essential technology for wastewater management, resource recovery and biogas production, and it is considered as an efficient and reliable treatment method for many wastewaters. Operating parameters have been shown to directly affect the stability and treatment performance of AD, especially temperature. For 180 days, the AD of recycled paper mill wastewater (RPMW) was carried out in a modified anaerobic inclining-baffled (MAIB) reactor under various temperature conditions, i.e. 29 °C (low mesophilic), 37 °C (mesophilic) and 55 °C (thermophilic). It was found that total COD removal of 94, 96 and 76%, and methane yields of 0.125, 0.196 and 0.256 L CH4/g CODremoved were attained at temperatures of 29, 37 and 55 °C, respectively. Throughout the three transition periods, the pH level in the MAIB reactor fluctuated slightly within the range of 5.8–6.5 without affecting the system stability. The results concluded that thermophilic condition strongly influenced the MAIB reactor performance, leading to lower COD removal, higher methane yield and gradually recovered pH level. Highlights Novel modified anaerobic inclining-baffled (MAIB) reactor, which combines the development of attached and settled microorganisms, was operated for the treatment of recycled paper mill wastewater (RPMW).; The operational temperature intensive analysis of MAIB was investigated at thermophilic and mesophilic conditions.; The system compartmental characteristics were also analyzed and discussed.

Published

2021

32. Nitrogen and phosphorus release from paper mill biosolids as affected by material source and soil type under controlled incubation

Author

Bernard Gagnon and Noura Ziadi

Subjects

chemistry, Biosolids, business.industry, Phosphorus, Environmental chemistry, Soil Science, chemistry.chemical_element, Paper mill, business, Soil type, Incubation, Nitrogen

Abstract

Combined paper mill biosolids (PB) are a well-known fertilizing source of nitrogen (N) and phosphorus (P). Many jurisdictions have established default values for estimating their agronomic N and P contribution, but nutrient release can vary with their chemical properties, and this has been little studied. The objective of this incubation study was to compare four PB of different sources along with a de-inking paper sludge (DPS) for their N and P release in three contrasting soils under controlled conditions (25 °C, 60% water-filled pore space). Treatments consisted of PB or DPS at 50 Mg fresh mass ha−1, PB at 30 Mg fresh mass ha−1 plus inorganic N to supply 100 kg available N ha−1, inorganic NP fertilizer, and an unfertilized control. Measurements of NO3 + NH4-N were made after 3 d and 1, 2, 3, 4, 6, 8, 12, and 16 wk of incubation. Mehlich-3 P was measured after 2 and 16 wk of incubation. Nitrogen mineralization generally declined a few days after PB addition and then gradually and constantly increased. The P mineralization of PB also increased with time. By the end of incubation, net N and P release averaged 30% (7%–49%) and 75% (16%–116%) of the NP fertilizer, respectively. The intensity of release, however, varied with material characteristics and soil type. Mineral N addition to the 30 Mg PB ha−1 promoted N release to a level comparable to NP fertilizer. Soil N immobilization occurred with the DPS application. Current default N value used for PB in Quebec and Ontario is appropriate but not P.

Published

2021

33. Bioenergy Production from Paper Mill Sludge through Anaerobic Digestion

Author

G. Saravanapriya R. Shreelavaniya

Subjects

Anaerobic digestion, Bioenergy, business.industry, Environmental science, Production (economics), Paper mill, Pulp and paper industry, business

Published

2021

34. Alkali Pretreatment of Paper Mill Sludge to Enhance Biogas Production

Author

T. Karuppayee and R. Shreelavaniya G. Saravanapriya

Subjects

business.industry, Environmental science, Paper mill, business, Pulp and paper industry, Alkali metal, Biogas production

Published

2021

35. Remediation of the Solzan Industrial Waste Landfill at the Baikal Pulp and Paper Mill (BPPM)

Author

Yu. A. Dambinov, A. N. Suturin, E. P. Chebykin, V.V. Mal’nik, N.N. Kulikova, E.L. Dambinova, and A.I. Goncharov

Subjects

Ecology, 040301 veterinary sciences, Environmental remediation, business.industry, Pulp (paper), 0402 animal and dairy science, Paper mill, 04 agricultural and veterinary sciences, Management, Monitoring, Policy and Law, engineering.material, Pulp and paper industry, 040201 dairy & animal science, Pollution, Industrial waste, 0403 veterinary science, engineering, Environmental science, business

Abstract

The main environmental risks in the area of landfills are considered, all aspects of their technological reclamation using waste from the Baikal PPM are discussed. The data on the creation of soil and grounds using lignin-destroying microbiological preparations are presented. The final stage of the remediation of the Solzan landfill is the creation of cadastral maps 8, 9, 10 modern forest nurseries on the site, protected by flood and mudflow protection structures.

Published

2021

36. Desirability Analysis of Multiple Responses for Electrocoagulation Remediation of Paper Mill Wastewater by Using a Central Composite Design

Author

Chandrakant Thakur, Prabir Ghosh, Ajay Devidas Hiwarkar, and Neha Pandey

Subjects

010407 polymers, Central composite design, business.industry, Environmental remediation, Materials Science (miscellaneous), General Chemical Engineering, medicine.medical_treatment, Chemical oxygen demand, Paper mill, 02 engineering and technology, Conductivity, Total dissolved solids, Pulp and paper industry, 01 natural sciences, Industrial and Manufacturing Engineering, Electrocoagulation, 0104 chemical sciences, 020401 chemical engineering, Wastewater, medicine, Environmental science, 0204 chemical engineering, business

Abstract

The present study illustrates the electrocoagulation remediation of paper mill wastewater for multiple response optimization. Multiple response optimization can be combined into one desirability function. All variables and responses varied for a unique global solution. The effect of basic electrocoagulation process variables pH (3–10), conductivity (3.15–10 mS/cm), electrode distance (1–2.5 cm) and current density (5–20 mA/cm2) on four response parameters such as chemical oxygen demand, color, total dissolved solids and total organic carbon has been analyzed experimentally and statistically. The global solution for these variables and responses obtained by software over a hundred design points. For unit desirability function variables conditions were pH 7.49, Conductivity 8.34 mS/cm, electrode distance 2.06 cm and current density 9.32 mA/cm2. In these global variable conditions, responses were observed to be COD 70.19%, Color 75.03%, TDS 70.69% and TOC 71.93%, respectively.

Published

2021

37. Vegetation composition and assessment of phytotoxicity in a paper mill dumpsite

Author

Nabanita Bhattacharyya, Priyanka Bora, Nandita Paul, and Payal Das

Subjects

Ecology, business.industry, Environmental engineering, food and beverages, Environmental science, Paper mill, Vegetation composition, Phytotoxicity, Plant Science, business, Biochemistry, Genetics and Molecular Biology (miscellaneous), Ecology, Evolution, Behavior and Systematics

Abstract

The solid waste dumpsites of pulp and paper industries are prone to be turned into degraded lands due to the loss of vegetation cover. Such sites often possess drought, salinity and pH stresses as well as heavy metal contamination. Restoration of top soil by creating vegetation cover has proved to be the most sustainable approach to check land degradation. Therefore, to find some stress-tolerant species capable of creating vegetation cover in paper mill dumpsites, a vegetation composition study was conducted in a paper mill dumpsite. A total of seven plant species viz., Calotropis gigantea (L.) Dryand., Chromolaena odorata (L.) R.M. King & H. Rob, Mikania scandens (L.) Willd., R. communis L., Rotheca serrata (L.) Steane & Mabb., Senna sophera (L.) Roxb. and Solanum myriacanthum Dunal were found. To correlate the existence of these plants with stress condition of soil, the level of phytotoxicity in the dumpsite was assessed by studying seed germination status, proline accumulation, leaf relative water content (RWC), leaf pH, total chlorophyll content and ascorbic acid level of Ricinus communis as bioassay indices. The significantly lower percentage of seed germination in dumpsite soil, compared to control, revealed the phytotoxic nature of the soil of the dumpsite. The significantly higher level of proline, RWC, total chlorophyll and ascorbic acid in plant leaves from dumpsites than from the control soils indicated considerable stress in the dumpsite. Soil physicochemical and nutrient status analyses substantiated with the bioassay results. Despite apparent phytotoxicity, the presence of certain plant species in the dumpsite indicated their inherent stress tolerance capability to be prospected.

Published

2021

38. Improvement in biodegradability of paper mill wastewater by anatase TiO2 predominant in {001} facet in the batch and packed bed photoreactor (PBPR)

Author

Hossein Esfandian, Reza Katal, Z. Beiramzadeh, and E. Shekarian

Subjects

Packed bed, Anatase, Environmental Engineering, Materials science, business.industry, Paper mill, 010501 environmental sciences, Biodegradation, 01 natural sciences, chemistry.chemical_compound, Chemical engineering, chemistry, Wastewater, Photocatalysis, Batch processing, Environmental Chemistry, General Agricultural and Biological Sciences, business, Fluoride, 0105 earth and related environmental sciences

Abstract

In this study, the synthesis of the {001} facet of anatase TiO2 (T-{001}) was hydrothermally carried out by a two-step process (without using fluoride ions as capping agent); the synthesized T-{001} sample was characterized by XRD, FESEM and HRTEM. The T-{001} was used for improvement in biodegradability of paper mill wastewater in the batch and continuous system under UV light irradiation. The performance of T-{001} was compared to commercial TiO2 (P25). In the batch system, the effect of the pH, time and photocatalyst dosage on the COD removal were investigated. The results showed that alkaline condition enhanced photocatalytic degradation of COD. For batch system, biodegradability index (BOD5/COD ratio) improved from 0.12 to 0.71 by application of the T-{001}; whereas this improvement was 0.52 for P25 sample. For the continuous system, the TiO2 samples were immobilized on the glass media and utilized in a packed bed photoreactor (PBPR). The effect of different flowrates on the COD removal was investigated. To investigate the stability of the samples, the photocatalytic experiments were continuously carried out for 3 h; both samples showed considerable stability during this time. The final values of BOD5/COD ratio at flowrate of the 5.4 ml/min were 0.64 and 0.42 for CT-{001} and CP25, respectively.

Published

2021

39. Biological indicators for assessing the maturity of the vermicomposted products of citronella bagasse and paper mill sludge mixture

Author

Tridip Boruah and Hemen Deka

Subjects

Eisenia fetida, biology, Renewable Energy, Sustainability and the Environment, Compost, business.industry, Chemistry, 020209 energy, Paper mill, 02 engineering and technology, 010501 environmental sciences, Raw material, engineering.material, biology.organism_classification, 01 natural sciences, Germination, 0202 electrical engineering, electronic engineering, information engineering, engineering, Abelmoschus, Food science, Bagasse, business, Vermicompost, 0105 earth and related environmental sciences

Abstract

Maturity of vermicomposted end products obtained from citronella bagasse (CB) and a mixture of citronella bagasse and paper mill sludge (CB + PMS) was determined employing the epigeic earthworm species Eisenia fetida. Two of the primary biological indicators—enzyme assay and germination index—were used for evaluation of vermicompost maturity. The enzyme assay includes the changes in dehydrogenase and urease activities in the final products. The test for germination index was performed on two economically important plant species Abelmoschus esculentus and Solanum melongena. The results revealed a significant increase in dehydrogenase and urease activities in the vermicompost samples over the raw materials and traditional compost. The enhancement was recorded 215.63–225.63% in dehydrogenase and 149.89–249.31% for urease in the end products obtained after 45 days of experimental trials. Further, the higher values of germination index in the vermicompost treatments as against the control confirm the suitability and stability of the vermicomposted final products.

Published

2021

40. Separation of lignin from pulp and paper mill wastewater using forward osmosis process

Author

Nimisha Singh, Subhankar Basu, Malaini Balakrishnan, and Yashi Gautam

Subjects

010302 applied physics, Chemistry, business.industry, Pulp (paper), Forward osmosis, Paper mill, 02 engineering and technology, engineering.material, 021001 nanoscience & nanotechnology, Pulp and paper industry, 01 natural sciences, chemistry.chemical_compound, Cellulose triacetate, Membrane, Wastewater, Scientific method, 0103 physical sciences, engineering, Lignin, 0210 nano-technology, business

Abstract

Cellulose triacetate (CTA) forward osmosis (FO) membrane from Hydration Technology Innovation (HTI), USA was tested in a locally fabricated FO system to concentrate synthetic and pulp and paper mill wastewater. The industry is among the 17 most polluted industries with intensive water consumption and wastewater generation (MoEFCC, Government of India). The CTA membrane was studied with deionized water as feed solution and 1 M NaCl as draw solution, which resulted into water flux of 5.8 L/m2h and reverse salt flux of 0.2 g/L. A concentration stepping method was used to determine the critical draw concentration with lignin solution as the model feed. There was no deviation in flux between the baseline (deionized water feed) and the lignin solution up to 1.5 M NaCl, but a marginal deviation (8% and 21% respectively at 2 M and 3 M) was seen thereafter. The average water flux after 24 h FO study with synthetic wastewater as feed solution (draw solution 2 M NaCl) was 8 L/m2h, and 80% water recovery. Similar study with pulp and paper wastewater as feed solution (draw solution of 1.5 M NaCl) was 5.4 L/m2h was with 62% water recovery. Lignin and COD rejection in pulp and paper mill wastewater was 90% and 64% respectively. The preliminary results indicate that FO is promising for water and lignin recovery from waste streams.

Published

2021

41. Characterization of paper mill sludge as a renewable feedstock for sustainable hydrogen and biofuels production

Author

Muhammad Tawalbeh, Tareq Salameh, Alex S. Rajangam, Malek Alkasrawi, and Amani Al-Othman

Subjects

Energy Engineering and Power Technology, 02 engineering and technology, engineering.material, Raw material, 010402 general chemistry, 01 natural sciences, chemistry.chemical_compound, Cellulose, Renewable Energy, Sustainability and the Environment, business.industry, Pulp (paper), Paper mill, Renewable fuels, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Pulp and paper industry, 0104 chemical sciences, Cellulose fiber, Fuel Technology, chemistry, Kraft process, Biofuel, engineering, Environmental science, 0210 nano-technology, business

Abstract

Paper and pulp mills generate substantial quantities of cellulose-rich sludge materials that are disposed in landfills at a large scale. For sustainability purposes, sludge materials can be bioprocessed to produce renewable fuels and useful chemicals. The enzymatic hydrolysis of cellulose is the process bottleneck that affects the conversion economics directly by using zero-cost raw materials. In order to study and optimize the process, the characteristics of the sludge raw materials should be first evaluated. In this work, sludge samples were obtained from paper mills located at different locations in Wisconsin and Minnesota. Part of the sludge samples was washed (de-ashed) with hydrochloric acid while the other part remained unwashed. The samples were subjected to multiple spectroscopic analyses techniques to evaluate the morphological properties of cellulose fibers and to estimate the total structural carbohydrate content. The results showed that the de-ashing process changed some fiber characteristics and cellulose crystallinity structure in all sludge samples. Sludge sample A (obtained from Kraft pulp and recycled paper mill region) showed a high percentage of fiber, with crystalline cellulose, compared to the other two sludge samples suggesting that sludge A is a valuable source to make value-added products. Aspen Plus mass and energy calculations performed in view of the ‘zero’ cost and the reliable supply of sludge raw materials producing 2 mol H2/mol glucose. Moreover, the results showed that extracting crystalline cellulose from these sludge samples is more profitable than crystalline cellulose made from the other lignocellulosic feedstocks. The results reported here showed that the utilization of these sludge materials would be an economically attractive and promising alternative for the production of hydrogen.

Published

2021

42. Economic impacts of ambient ozone pollution on wood production in Italy

Author

Yasutomo Hoshika, Gherardo Chirici, Sandro Sacchelli, Claudia Cocozza, Elisa Carrari, Augusto Screpanti, Alessandra De Marco, Elena Paoletti, Pierre Sicard, and Alessandro Anav

Subjects

Pollution, wood production, 010504 meteorology & atmospheric sciences, ozone pollution, media_common.quotation_subject, Science, 010501 environmental sciences, Firewood, 01 natural sciences, Article, Ambient ozone, Environmental impact, chemistry.chemical_compound, Ozone, economic impacts, Forest, Tropospheric ozone, Economic impact analysis, 0105 earth and related environmental sciences, media_common, Multidisciplinary, Wood production, business.industry, Paper mill, Forestry, Interest rate, ozone pollution, economic impacts, wood production, chemistry, Environmental science, Medicine, business, Plant sciences

Abstract

Worldwide, tropospheric ozone (O3) is a potential threat to wood production, but our understanding of O3 economic impacts on forests is still limited. To overcome this issue, we developed an approach for integrating O3 risk modelling and economic estimates, by using the Italian forests as a case study. Results suggested a significant impact of O3 expressed in terms of stomatal flux with an hourly threshold of uptake (Y = 1 nmol O3 m−2 leaf area s−1 to represent the detoxification capacity of trees), i.e. POD1. In 2005, the annual POD1 averaged over Italy was 20.4 mmol m−2 and the consequent potential damage ranged from 790.90 M€ to 2.85 B€ of capital value (i.e. 255–869 € ha−1, on average) depending on the interest rate. The annual damage ranged from 31.6 to 57.1 M€ (i.e. 10–17 € ha−1 per year, on average). There was also a 1.1% reduction in the profitable forest areas, i.e. with a positive Forest Expectation Value (FEV), with significant declines of the annual national wood production of firewood (− 7.5%), timber pole (− 7.4%), roundwood (− 5.0%) and paper mill (− 4.8%). Results were significantly different in the different Italian regions. We recommend our combined approach for further studies under different economic and phytoclimatic conditions.

Published

2021

43. Impact of Paper Mill effluent on Protein Metabolism of Snake headed fish, Channa punctatus

Author

Ashok Kumar Verma and Sadguru Prakash

Subjects

chemistry.chemical_classification, medicine.diagnostic_test, business.industry, Chemistry, Proteolysis, Protein metabolism, Tissue protein, Paper mill, General Medicine, Amino acid, chemistry.chemical_compound, medicine, %22">Fish , Food science, business, Channa punctatus, Effluent

Abstract

The present investigation was designed to study the effect of sublethal concentration of paper mill effluent on the total protein and amino acid contents in muscles, liver and gill of Channa punctatus after exposure to 96 hours. A significant decrease in protein content with increase in amino acids content in muscles, liver and gill of effluent exposed fishes was observed. A reduction in the protein content and enhancement of free amino acids in the muscles, liver and gill of experimental fish suggests that the tissue protein might have undergone proteolysis, during the stressful situation. Thus, the present study concludes that the protein metabolism of fish Channa punctatus affected during effluent exposure and reduces the nutritive value of fish.

Published

2021

44. ANTHROPOGENIC IMPACT OF PULP AND PAPER ENTERPRISES ON THE ENVIRONMENT AS A FACTOR LEADING TO THE ECOLOGICAL CRISIS IN THE EUROPEAN NORTH OF RUSSIA IN THE LATE SOVIET PERIOD (the case study of the KOTLAS PULP and PAPER MILL)

Author

Rimma S. Kolokolchikova

Subjects

Geography, business.industry, Pulp (paper), Period (geology), engineering, Paper mill, engineering.material, business, Ecological crisis, Agricultural economics

Published

2021

45. Pretreatment and enzymatic saccharification of sludge from a prehydrolysis kraft and kraft pulping mill

Author

Bruce Sithole, Prabashni Lekha, Roshini Govinden, Sarisha Singh, and Kugenthiren Permaul

Subjects

0106 biological sciences, Chemistry, business.industry, General Chemical Engineering, Pulp (paper), Paper mill, 02 engineering and technology, General Chemistry, engineering.material, 021001 nanoscience & nanotechnology, Pulp and paper industry, 01 natural sciences, Hydrolysis, Kraft process, 010608 biotechnology, Enzymatic hydrolysis, engineering, Mill, General Materials Science, 0210 nano-technology, business, Kraft paper

Abstract

The South African pulp and paper industry generates an estimated 0.5 million tons of pulp and paper mill sludge (PPMS) annually. As PPMS is generated, it requires safe, efficient, and economical co...

Published

2021

46. Strength Improvement of the Coloring Paper for Fruit Bag by Using Non-woody Bamboo Kraft Pulp

Author

Su Ho Kim, Hae Min Jo, LeeJi Young, and Yeon Hui Lee

Subjects

Bamboo, Softwood, business.industry, Paper mill, General Chemistry, Pulp and paper industry, Kraft process, Ultimate tensile strength, Media Technology, Chemical pulp, Hardwood, General Materials Science, Fiber, business, Mathematics

Abstract

In this study, we evaluated the effect of bamboo bleached kraft pulp (BKP) on the strength of the coloring paper used for pear paper bags. The characteristics of bamboo BKP were measured to compare them with those of softwood BKP and hardwood BKP. Handsheets from bamboo and hardwood BKPs were prepared at various mixing ratios, and their strengths were then analyzed. After that, a mill trial was performed to produce a prototype of coloring paper with bamboo BKP, and the effect of bamboo BKP on the strength of the coloring paper was finally determined. The initial freeness and fiber shape of bamboo BKP were similar to those of hardwood BKP, although the average fiber length and curl of bamboo BKP were higher than those of hardwood. As the mixing ratio of bamboo BKP increased, the strength of the handsheets increased, indicating the enhancing effect of bamboo BKP on the strength of coloring paper. As a result of the mill trial of coloring paper in the specialty paper mill, it was found that the tensile strength increased by 27.8% and burst strength by 20.0% when bamboo chemical pulp replaced 20% of the hardwood chemical pulp. Therefore, it was concluded that bamboo chemical pulp can replace and improve the strength of hardwood chemical pulp for manufacturing coloring paper.

Published

2020

47. Deoxygenation of Bio‐oil from Calcium‐Rich Paper‐Mill Waste

Author

Muhammad Asif Bashir, Andreas Hornung, Miloud Ouadi, and Hessam Jahangiri

Subjects

Chemistry, business.industry, General Chemical Engineering, Biochar, chemistry.chemical_element, Paper mill, General Chemistry, Calcium, Pulp and paper industry, business, Deoxygenation, Industrial and Manufacturing Engineering, Syngas

Published

2020

48. Pulp and paper mill sludges decrease soil erodibility

Author

Krista Peltoniemi, Risto Uusitalo, Hannu Fritze, Kimmo Rasa, Juuso Joona, Taina Pennanen, Sannakajsa Velmala, and Janne Kaseva

Subjects

Environmental Engineering, Technical Reports, Rain, 010501 environmental sciences, Management, Monitoring, Policy and Law, complex mixtures, 01 natural sciences, Soil, Nutrient, Organic matter, Waste Management and Disposal, 0105 earth and related environmental sciences, Water Science and Technology, 2. Zero hunger, chemistry.chemical_classification, Suspended solids, Sewage, business.industry, Soil organic matter, Surface Water Quality, food and beverages, Agriculture, Phosphorus, Paper mill, 04 agricultural and veterinary sciences, 15. Life on land, Pollution, 6. Clean water, Soil conditioner, Agronomy, chemistry, Soil water, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Soil fertility, business

Abstract

Declining carbon (C) content in agricultural soils threatens soil fertility and makes soil prone to erosion, which could be rectified with organic soil amendments. In a 4‐yr field trial, we made a single application of three different organic sludges from the pulp and paper industry and studied their effects on cereal yield, soil C content, and fungal and bacterial composition. In laboratory rainfall simulations, we also studied the effects of the soil amendments on susceptibility to erosion and nutrient mobilization of a clay‐textured soil by measuring the quality of percolation water passing through 40‐cm intact soil monoliths during 2‐d rainfall simulations over four consecutive years after application. A nutrient‐poor fiber sludge reduced wheat yield in the first growing season, but there were no other significant effects on cereal yield or grain quality. An input of ∼8 Mg ha−1 C with the soil amendments had only minor effects on soil C content after 4 yr, likely because of fast microbe‐mediated turnover. The amendments clearly changed the fungal and bacterial community composition. All amendments significantly reduced suspended solids (SS) and total phosphorus (TP) concentrations in percolation water. The effect declined with time, but the reduction in SS and TP was still >25% 4 yr after application. We attributed the lower tendency for particle detachment in rain simulations to direct interactions of soil minerals with the added particulate organic matter and microbe‐derived compounds that stabilize soil aggregates. In soils with low organic matter content, pulp and paper industry by‐products can be a viable measure for erosion mitigation.

Published

2020

49. Comparative Analysis of the Oxidation of Lignin and Sludge-Lignin in a Stream of Air and a Water–Oxygen Mixture

Author

Anatoly A. Vostrikov and Oxana N. Fedyaeva

Subjects

010304 chemical physics, Chemistry, business.industry, Pulp (paper), chemistry.chemical_element, Sulfuric acid, Paper mill, engineering.material, 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Corrosion, chemistry.chemical_compound, Chemical engineering, 0103 physical sciences, engineering, Lignin, Phenols, Physical and Theoretical Chemistry, Sulfate, business, Carbon

Abstract

Oxidation of sulfate lignin and sludge-lignin (waste from Baikal Pulp and Paper Mill) in a stream of water–oxygen mixture and in air in the programmed heating regime is studied. Based on the temporal dependences of the power of resistive heaters and the temperature of the reactor wall, it is revealed that the maximum rates of lignin and sludge-lignin oxidation in an H2O/O2 mixture are reached at 613–643 K. The oxidation of both materials in the H2O/O2 mixture is completed at lower temperatures than in air. The temperature dependences of compositions of volatile and liquid products, including the content of phenols, are obtained. Using the mass-spectrometric analysis, it is shown that during oxidation in the H2O/O2 stream 90.3 and 79.5% of the carbon is removed from lignin and sludge-lignin, respectively, in the form of carbon oxides. The mechanisms of the transformation of heteroatomic components are discussed. The formation of hydrochloric and sulfuric acids in the course of sludge-lignin’s oxidation in the H2O/O2 stream causes the corrosion of stainless steel.

Published

2020

50. Facile extraction and characterization of calcium hydroxide from paper mill waste sludge of Bangladesh

Author

Most. Hosney Ara Begum, Mohammad Sajjad Hossain, Mohammad Robel Molla, Mir Tamzid Rahman, Muhammad Shahriar Bashar, Riyadh Hossen Bhuiyan, Syed Farid Uddin Farhad, Md. Sha Alam, A. S. M. Asadur Rahman, and Nazmul Islam Tanvir

Subjects

chemistry.chemical_compound, Calcium hydroxide, Multidisciplinary, Chemistry, business.industry, Extraction (chemistry), Paper mill, business, Pulp and paper industry

Abstract

Herein, paper mill waste sludge (PMS) from two different sources has been investigated to extract calcium hydroxide, Ca(OH)2 by a facile and inexpensive extraction process. This green process exploits typical chemical precipitation (CP) in an aqueous medium at room temperature to develop an economically and industrially viable technique for the effective utilization of calcium-containing waste sludge. PMS samples, collected from local paper mill plants of Bangladesh, were the main precursors wherein HCl and NaOH were utilized for chemical treatment. The as-synthesized products were analyzed by a variety of characterization tools including X-ray diffraction (XRD), Fourier transform infrared (FTIR) spectroscopy, Raman spectroscopy, Scanning electron microscopy (SEM), and Energy Dispersive X-ray (EDX) elemental analyses. Our studies confirm that the extracted product contains Ca(OH)2 as a major content, albeit it also includes CaCO3 phase formed owing to the inescapable carbonation process from the surrounding environment. The particle size of the synthesized products is in the range of 450 - 500 nm estimated from SEM micrographs. The crystallite domain size of the same estimated from XRD analyses and was found to be ~47 nm and ~31 nm respectively for product-A and product-B considering major (101) Bragg peak of Ca(OH)2. The yield percentage of the isolated products is about 65% for samples collected from both sources.

Published

2022