Showing total 6,048 results

101. The combined effect of irradiance and iron concentration on photo-Fenton treatment cost

Author

Alejandro Cabrera Reina, Sara Miralles Cuevas, and Lorena Cornejo Ponce

Subjects

Irradiance, Environmental science, Treatment costs, Pulp and paper industry

Published

2018

102. Pyrolysis sengon (Paraserianthe falcatari) as a renewable energy potential

Author

Betty Nurhayati, Dwi Aries Himawanto, and Pranoto

Subjects

Materials science, business.industry, Thermal decomposition, Tar, Combustion, Pulp and paper industry, Renewable energy, visual_art, visual_art.visual_art_medium, Heat of combustion, Sawdust, Char, business, Pyrolysis

Abstract

Pyrolysis is the process of decomposition of materials at high temperatures by producing products of char, tar, and gas. Analysis of the characteristics of pyrolysis combustion with thermogravimetry is needed to determine the thermal decomposition behavior of the material. Treatment of sengon waste with pyrolysis can be used as an environmentally friendly renewable energy source. Variations in the final temperature and heating rate are required to determine the optimum conditions of pyrolysis. The final temperature variations were performed at 350°C, 450°C, 550°C, and 600°C, while variations in heating rates at 10°C/min, 30°C/min and 60°C/min each performed at a holding time of 5 minutes. The results showed that the char mass decreased with increasing the final temperature, but increased with the increase of heating rate. The activation energy increases with increasing final temperature and heating rate. While the highest calorific value obtained on tar products amounted to 10365.911 cal/g at the final temperature 450°C and heating rate 30°C/minute. The resulting calorific value is not much different from the solar calorific value indicating that this sengon sawdust waste can be used as a renewable liquid fuel.

Published

2018

103. Optimization and modelling of delignification process for nanocrystalline cellulose production from rice husk biomass

Author

Rahul Gupta, Sati N. Bhattacharya, Nhol Kao, and Md. Sakinul Islam

Subjects

chemistry.chemical_compound, Materials science, chemistry, Scientific method, Kinetics, Lignocellulosic biomass, Biomass, Process optimization, Cellulose, Pulp and paper industry, Husk, Nanocrystalline material

Abstract

Nanocrystalline cellulose (NCC) has been attributed as a noble material due to its superior properties for miscellaneous applications in medical science, pharmaceutical production and engineering fields. The major problems associated with the production of NCC are low production rate and inefficient process. Alkaline delignification plays an important role for the mass production of NCC from lignocellulosic biomass. In order to fulfil these research gaps a fractal kinetic model of alkaline delignification of rice husk biomass (RHB) was studied with process optimization. Fifteen kinetic experiments of alkaline delignification for NCC production from RHB, as designed by the Minitab® 2014b software using the Box-Behnken method, were performed in a 2L jacketed glass reactor under three process parameters (time, temperature and alkali concentration) with ranges of 2-10 hours, 40-100°C and 1-4M, respectively. The nucleic growth model of fractal kinetics, developed by Nguyen & Dang (2007), has been successfully ...

Published

2017

104. Effect of high-pressure on pine sawdust pyrolysis: Products distribution and characteristics

Author

Baiqing Xu and Aimin Li

Subjects

Thermogravimetric analysis, Cracking, Materials science, Chemical engineering, Dehydrogenation, Fourier transform infrared spectroscopy, Pulp and paper industry, Combustion, Microstructure, Deoxygenation, Pyrolysis

Abstract

In this work, the pressurized pyrolysis of pine sawdust was performed with a self-made pressurized pyrolysis reactor to investigatethe influence of pyrolysis pressure in the range of 0-5 MPa on products distribution and characteristics. The combustion feature and microstructure of bio-char had analyzed by thermogravimetric (TG) and scanning electron microscopy (SEM), respectively. Elemental analyzer and Fourier transform infrared spectroscopy (FTIR) were used to confirm the identities of bio-oil. The results indicated the pressure had a notable impact on the biomass pyrolysis, which promoted the secondary cracking of bio-oil to produce more gaseous products and bio-char. The minimum bio-oil yield of 20.24% was obtained at the pressure of 5 MPa. Furthermore, the pressure improved the products characteristics. The increasing of pressure was favour to the deoxygenation and dehydrogenation reactions of bio-oil, which led to the increase of CH4, H2 and CO2 in gas. At the same time, under the influence of pressure, the surface structure and compactedness of the bio-char were obviously improved.

Published

2017

105. Treatment of ammonia in liquid hospital waste using activated carbon

Author

Riyanto and Lena Hayati

Subjects

Ammonia, chemistry.chemical_compound, Active carbon, Chemistry, Precipitation (chemistry), Hospital waste, medicine, Liquid waste, Pulp and paper industry, After treatment, Activated carbon, medicine.drug

Abstract

In this research study of the treatment of ammonia in liquid hospitals waste using activated carbon. This study aims to the effect of activated carbon weight and precipitation time to the treatment of ammonia in liquid hospitals waste. Hospital liquid waste has been taken from Jogja International Hospital (JIH) Yogyakarta, Indonesia. Hospital liquid waste 100 mL is mixed with activated carbon with the varied weight that is 15, 30 and 60 g. After added with activated carbon then stirred with a magnetic stirrer for 15 minutes and a precipitation time of 0.5, 1.0 and 2.0 hours. The next step is the filtrate analyzed ammonia concentrations before and after treatment using UV-Vis Spectrophotometer. The results showed that activated carbon can reduce ammonia concentration in hospital liquid waste. The amount of the active carbon and the time of stirring, the greater the ammonia concentration decreases in hospital liquid waste. The best condition for the decrease of the ammonia concentration was obtained with active carbon and precipitation time is 60 g and 1.0 hours, respectively with ammonia decrease of 95.93%. The conclusion is that activated carbon can reduce ammonia concentration in hospital liquid waste.In this research study of the treatment of ammonia in liquid hospitals waste using activated carbon. This study aims to the effect of activated carbon weight and precipitation time to the treatment of ammonia in liquid hospitals waste. Hospital liquid waste has been taken from Jogja International Hospital (JIH) Yogyakarta, Indonesia. Hospital liquid waste 100 mL is mixed with activated carbon with the varied weight that is 15, 30 and 60 g. After added with activated carbon then stirred with a magnetic stirrer for 15 minutes and a precipitation time of 0.5, 1.0 and 2.0 hours. The next step is the filtrate analyzed ammonia concentrations before and after treatment using UV-Vis Spectrophotometer. The results showed that activated carbon can reduce ammonia concentration in hospital liquid waste. The amount of the active carbon and the time of stirring, the greater the ammonia concentration decreases in hospital liquid waste. The best condition for the decrease of the ammonia concentration was obtained with ac...

Published

2017

106. Impact of solvent extraction organics on bioleaching by Acidithiobacillus ferrooxidans

Author

Hualong Yu, Liu Xiaorong, Junhui Shen, and Chi Daojie

Subjects

Acidithiobacillus ferrooxidans, Laboratory flask, Adsorption, Chemistry, Chalcopyrite, Bioleaching, visual_art, visual_art.visual_art_medium, chemistry.chemical_element, Raffinate, Solvent extraction, Pulp and paper industry, Copper

Abstract

Solvent extraction organics (SX organics) entrained and dissoluted in the raffinate during copper SX operation, can impact bioleaching in case of raffinate recycling. The influence of SX organics on bioleaching process by Acidithiobacillus ferrooxidans (At. ferrooxidans) has been investigated. The results showed that, cells of At. ferrooxidans grew slower with contaminated low-grade chalcopyrite ores in shaken flasks bioleaching, the copper bioleaching efficiency reached 15%, lower than that of 24% for uncontaminated minerals. Obviously, the SX organics could adsorb on mineral surface and hinder its contact with bacterials, finanlly lead to the low bioleaching efficiency.

Published

2017

107. Effect of dilution and ash supplement on the bio-methane potential of palm oil mill effluent (POME)

Author

Chairat Siripatana, Sunwanee Jijai, and Saina Muleng

Subjects

Methane potential, Anaerobic digestion, Waste management, Biogas, Pome, Serial dilution, Environmental science, Increased ph, Pulp and paper industry, Palm oil mill effluent, Dilution

Abstract

This study aimed to evaluate the bio-methane potential of POME at different dilutions (100, 80, 60, 40, and 20 percent of initial POME) and different pH dues to different levels of ash supplement. Five different amounts of ash were added to digesters (0, 2, 4, 6, and 8 grams of ash were added to 170 ml of POME respectively). The digesters were operated in batch anaerobic digestion systems at room temperature (28-30 °C) and the experiments were performed in duplicate manner. The results showed that POME without dilution gave highest cumulative biogas (950 ml). However, 80% dilution from original POME gave the highest methane yield (45.83 mL CH4/ gCODadded or 103.13 mL CH4/ gCODremoved). Finally, the results of experiment 2, this adding ash into POME increased pH as well as enhanced the biogas production. It was found that adding ash at the ash:POME ratio of 2 g: 170 ml gave the highest both the cumulative biogas and methane yield (1,520 mL and 218.79 mL CH4/ gCODremoved respectively). The addition of ash i...

Published

2017

108. Influence of bottom ash of palm oil on compressive strength of concrete

Author

Mohamad Muntaha, Muhamad Hasby Laksono, Basyaruddin, and Andika Ade Indra Saputra

Subjects

Cement, Sieve, Compressive strength, law, Bottom ash, Domestic waste, Palm oil, Environmental science, Geotechnical engineering, Raw material, Pulp and paper industry, law.invention

Abstract

The technological development of concrete demands innovation regarding the alternative material as a part of the effort in improving quality and minimizing reliance on currently used raw materials such as bottom ash of palm oil. Bottom ash known as domestic waste stemming from palm oil cultivation in East Kalimantan contains silica. Like cement in texture and size, bottom ash can be mixed with concrete in which the silica in concrete could help increase the compressive strength of concrete. This research was conducted by comparing between normal concrete and concrete containing bottom ash as which the materials were apart of cement replacement. The bottom ash used in this research had to pass sieve size (#200). The composition tested in this research involved ratio between cement and bottom ash with the following percentages: 100%: 0%, 90%: 10%, 85%: 15% and 80%: 20%. Planned to be within the same amount of compressive strength (fc 25 MPa), the compressive strength of concrete was tested at the age of 7, ...

Published

2017

109. Treatment of batik waste using distillation method

Author

Riyanto, Nurma Yunita Sidiq, and Nailil Hidayah

Subjects

Ftir spectra, Hazardous waste, law, World heritage, Boiler (power generation), Environmental science, Pulp and paper industry, Distillation, Distillation method, law.invention

Abstract

In this study has been the treatment of batik waste using distillation method. This study aims to the treatment of batik waste using distillation method. Batik is a world heritage that has an impact on economic improvement and environmental damage. Batik waste is a hazardous and toxic waste material. Batik waste in this research has been taken from Batik Industry in Yogyakarta, Indonesia. Batik waste of 5 L is included in the distillation apparatus, then the distillation run for 4 hours. The distillation product of solids and liquids is collected and analyzed. The solid produced at the distillation boiler was analyzed by FTIR. The distillation liquid was analyzed ammonia and COD concentration using UV-Vis Spectrophotometer. The result of the analysis showed that based on FTIR spectra obtained by dye with high purity. The analysis results shown are of ammonia, COD and pH were 0.652 mg/L, 238.31 mg/L, and 7.306, respectively. The compounds produced by boiler are the azo dye based on the spectrum at wave numbers 1554.07 cm−1. The conclusion of this research is that the distillation method is very suitable for the treatment of the batik waste at small batik industry. Advantages of distillation techniques that can be obtained two products are water and dye that can be used in batik industry.

Published

2017

110. Influence of the metal addition for biohydrogen production from the conversion of palm oil mill effluent (POME) by anaerobic process

Author

Mindriany Syafila, Marisa Handajani, and Andri Gumilar

Subjects

Anaerobic respiration, Waste management, Wastewater, Pome, Biogas, Bioconversion, business.industry, Chemistry, Fossil fuel, Substrate (chemistry), Biohydrogen, business, Pulp and paper industry

Abstract

Biohydrogen is one of the main alternative fuels promising for the future. Bioconversion of the wastewater with the high concentration of organic using biological processes or microorganism by anaerobic processes can produce biogas which can be used as fuel instead of fossil fuels. In this study, palm oil mill effluent (POME) with the concentration of COD is 24,500 mg/L has been used as a substrate. The aim of this study was to determine the effect of metal addition for the formation of biohydrogen. Circulating bed reactor (CBR) is used with the flushing N2 1L/min for 24 hr and continued operates for 72 hr by internal biogas. The additional variation concentration of Fe(II) ion are 0.5; 1.0 and 2.5 mg/L, and Mg(II) are 0.5 and 1.5 mg/L were added by combination. The results showed that the combination of Fe(II) 1.0 mg/L and Mg(II) 1.5 mg/L produced the highest biohydrogen production is 17.12 %v/v and the rate of biohydrogen production is 0.010-0.233 % v/v /hr. Another combination of Fe(II) and Mg(II) prov...

Published

2017

111. Synthesis of geopolymer from biomass-coal ash blends

Author

Tjokorde Walmiki Samadhi, Aprilina Purbasari, Muhammad Rizki Fernando, Muhammad Iqbal Prasetyo, and Winny Wulandari

Subjects

Geopolymer, Portland cement, Materials science, Compressive strength, Aluminosilicate, law, Fly ash, Mortar, Pulp and paper industry, Husk, law.invention

Abstract

Geopolymer is an environmentally attractive Portland cement substitute, owing to its lower carbon footprint and its ability to consume various aluminosilicate waste materials as its precursors. This work describes the development of geopolymer formulation based on biomass-coal ash blends, which is predicted to be the prevalent type of waste when biomass-based thermal energy production becomes mainstream in Indonesia. The ash blends contain an ASTM Class F coal fly ash (FA), rice husk ash (RHA), and coconut shell ash (CSA). A mixture of Na2SiO3 and concentrated KOH is used as the activator solution. A preliminary experiment identified the appropriate activator/ash mass ratio to be 2.0, while the activator Na2SiO3/KOH ratio varies from 0.8 to 2.0 with increasing ash blend Si/Al ratio. Both non-blended FA and CSA are able to produce geopolymer mortars with 7-day compressive strength exceeding the Indonesian national SNI 15-2049-2004 standard minimum value of 2.0 MPa stipulated for Portland cement mortars. As...

Published

2017

112. Screening of biodiesel production from waste tuna oil (Thunnus sp.), seaweed Kappaphycus alvarezii and Gracilaria sp

Author

Mochammad Amin Alamsjah, Annur Ahadi Abdillah, Hutami Mustikawati, and Suci Dwi Purnawa Atari

Subjects

Fishery, Biodiesel, Animal fat, Kappaphycus alvarezii, biology, Biodiesel production, Environmental science, Waste oil, Tuna, biology.organism_classification, Pulp and paper industry, Thunnus, Freezing point

Abstract

Biodiesel has several advantages over solar. Compared to solar, biodiesel has more eco-friendly characteristic and produces lower greenhouse gas emissions. Biodiesel that is made from animal fats can be produced from fish oil, while other alternative sources from vegetable oils are seaweed Kappaphycus alvarezii and Gracilaria sp. Waste tuna oil (Thunnus sp.) in Indonesia is commonly a side product of tuna canning industries known as tuna precook oil; on the other hand, seaweed Gracilaria sp. and Kappaphycus alvarezii are commonly found in Indonesia’s seas. Seaweed waste that was used in the present study was 100 kg and in wet condition, and the waste oil was 10 liter. The seaweed was extracted with soxhletation method that used n-hexane as the solvent. To produce biodiesel, trans esterification was performed on the seaweed oil that was obtained from the soxhletation process and waste tuna oil. Biodiesel manufactured from seaweed K. alvarezii obtained the best score in flash point, freezing point, and visc...

Published

2017

113. Effect of temperature and biomass-water ratio to yield and product characteristics of hydrothermal treatment of biomass

Author

Rochim Bakti Cahyono, Agus Prasetya, Ahmad Tawfiequrrahman Yuliansyah, Ria F. Rahmawati, Cyrilla Oktaviananda, and Chandra Wahyu Purnomo

Subjects

Materials science, Waste management, visual_art, Yield (chemistry), visual_art.visual_art_medium, Biomass, Hydrothermal treatment, Heat of combustion, Sawdust, Product characteristics, Raw material, Pulp and paper industry, Water content

Abstract

Hydrothemal treatment is a thermochemical process that converts biomass into a coal-like materials called hydrochar by applying elevated temperature to biomass in a suspension with water under saturated pressure for a certain time. With this conversion process, easy to handle fuel with well-defined properties can be created from biomass residues, even with high moisture content. In this research, the effects of temperature (200-330°C) and biomass to water ratio (5%-20%) at initial pressure of 1.0 MPa to hydrothermal treatment of biomass (in the form of sawdust) were examined. All samples were then characterized in terms of yield, proximate analysis, calorific value,and changes in functional groups by FTIR. Approximately 52-69% of the original material was recovered as hydrochar. The gross calorific value ranged from 5472-7032 cal/g compared 5180 cal/g in the raw material. Fixed carbon ranged from 26.035-wt% compared with 26.269 wt% in the raw material.

Published

2017

114. Influence of content of coal ash on performance of cement-coal ash slurry

Author

Yue Yu, Kun Cheng, and Bo Pang

Subjects

Cement, Materials science, Compressive strength, Rheology, Fly ash, technology, industry, and agriculture, Slurry, respiratory system, Composite material, Concrete slump test, Pulp and paper industry, complex mixtures

Abstract

To investigate the influence of content of coal ash on performance of cement-coal ash slurry, slump test and rheological test were conducted to evaluate the slurry rheology comprehensively. In the case of the cement dosage unchanged and 57% concentration of slurry, the change effect of coal ash content in 62.5%~87.5% on rheology, bleeding rate, compressive strength of cement-coal ash slurry were studied. In the case of 57% concentration of slurry and 75% content of coal ash were studied. The results showed that: with the increase of coal ash content, slurry rheology weakened, cohesiveness increased, bleeding rate decreased; with the increase of coal ash content, the compressive strength of all slurry test blocks of different ages decreased, the strength of 3-day changes slowly, 7-day strength variation is the biggest, 3 ~ 7-day hydrated significantly, their strength increase could achieve 37% ~ 42% of the strength of 28-day.

Published

2017

115. Ternary liquid-liquid equilibria for the phenolic compounds extraction from artificial textile industrial waste

Author

Dewi Selvia Fardhyanti, Hermawan, Lelita Sakina Sari, and Haniif Prasetiawan

Subjects

Partition coefficient, Solvent, chemistry.chemical_compound, Materials science, Chromatography, chemistry, Extraction (chemistry), Phenol, Phenol extraction, Raffinate, Raw material, Pulp and paper industry, Industrial waste

Abstract

Liquid waste in textile industry contains large amounts of dyes and chemicals which are capable of harming the environment and human health. It is due to liquid waste characteristics which have high BOD, COD, temperature, dissolved and suspended solid. One of chemical compound which might be harmful for environment when disposed in high concentration is phenol. Currently, Phenol compound in textile industrial waste has reached 10 ppm meanwhile maximum allowable phenol concentration is not more than 0.2 ppm. Otherwise, Phenol also has economic value as feedstock of plastic, pharmaceutical and cosmetic industry. Furthermore, suitable method to separate phenol from waste water is needed. In this research, liquid - liquid extraction method was used with extraction time for 70 minutes. Waste water sample was then separated into two layers which are extract and raffinate. Thereafter, extract and raffinate were then tested by using UV-Vis Spectrophotometer to obtained liquid – liquid equilibrium data. Aim of this research is to study the effect of temperature, stirring speed and type of solvent to obtain distribution coefficient (Kd), phenol yield and correlation of Three-Suffix Margules model for the liquid – liquid extraction data equilibrium. The highest extraction yield at 80.43 % was found by using 70% methanol as solvent at extraction temperature 50 °C with stirring speed 300 rpm, coefficient distribution was found 216.334. From this research it can be concluded that Three-Suffix Margules Model is suitable to predict liquid – liquid equilibrium data for phenol system.

Published

2017

116. Physical and mechanical properties by utilizing empty fruit bunch into fired clay brick

Author

Mohd Mustafa Al Bakri Abdullah, Siti Zulaikha Mokhtar, Aeslina Abdul Kadir, and Noor Amira Sarani

Subjects

Brick, Compressive strength, Agricultural development, Materials science, Mixing (process engineering), Clay brick, Composite material, Pulp and paper industry, Porosity, Shrinkage, Initial rate

Abstract

Palm oil plantation has become one of the country’s success stories in agricultural development which also generates the highest number of waste among the agricultural waste. In this study, the investigation on the possibility to utilize the empty fruit bunch (EFB) waste into the fired clay brick was carried out. The main purpose of this study is to determine the physical and mechanical properties of bricks incorporated with different percentages of EFB. In this study, bricks with four different percentages of EFB (0 %, 1 %, 5 % and 10 %) were manufactured. Manufactured bricks were fired at 1050 °C with heating rate of 1 °C/min. Physical and mechanical properties including shrinkage, density, Initial Rate of Suction (IRS) and compressive strength were reported and discussed. Since shrinkage for each mixing is below than 8 %, then a good brick was manufactured. Bricks become more porous due to the organic content of EFB are burnt away and voids are formed in the specimen, giving it a lighter appearance and...

Published

2017

117. Study of the efficiency of some water treatment unit that present in houses in Erbil city-Iraq

Author

Janan. Jabbar. Toma and Aveen. Matti. Hanna

Subjects

Environmental engineering, Alkalinity, Pulp and paper industry, Total dissolved solids, Purified water, Chloride, chemistry.chemical_compound, Nitrate, chemistry, medicine, Environmental science, Water treatment, Water quality, Raw water, medicine.drug

Abstract

Many people in Erbil city started more than two decade to put special treatment units in their houses to purified water to become safer for drinking uses. The aim of this study was determine the efficiency of six kind water treatment units which include (two replicate of Crystal Water Purifier, So-Safe Water Filter, R O Water Purifier, Kontec Water Purified and Al-Kawther Purified Water). Water samples were collected in two sites one before and other after treatment unit. Each sample was collect with three replication during May to October-2016. Analyzed for Major cations concentration (calcium, magnesium, sodium and potassium), anions concentration (nitrate and chloride) and hydrogen ion concentration (pH), electrical conductivity (EC), total dissolved solids (TDS), alkalinity and total hardness by using standard methods. The water quality index values for all raw water sample befor and after treatment was good and excellent respectively for drinking purposes. Efficiency of So-Safe Water Filter was 66.32...

Published

2017

118. Sequential hydrogen and methane coproduction from sugary wastewater treatment by 'CSTRHyd-UASBMet' system

Author

Ping Hao

Subjects

chemistry.chemical_compound, chemistry, Hydrogen, Waste management, Substrate (chemistry), chemistry.chemical_element, Continuous stirred-tank reactor, Sewage treatment, Pulp and paper industry, Bioproduction, Substrate concentration, Effluent, Methane

Abstract

Potentiality of sequential hydrogen bioproduction from sugary wastewater treatment was investigated using continuous stirred tank reactor (CSTR) for various substrate COD concentrations and HRTs. At optimum substrate concentration of 6 g COD/L, hydrogen could be efficiently produced from CSTR with the highest production rate of 3.00 (±0.04) L/L reactor d at HRT of 6 h. The up flow anaerobic sludge bed (UASB) reactor was used for continuous methane bioproduction from the effluents of hydrogen bioproduction. At optimal HRT 12 h, methane could be produced with a production rate of 2.27 (±0.08) L/L reactor d and the COD removal efficiency reached up to the maximum 82.3%.

Published

2017

119. Bioethanol production from sugarcane bagasse by simultaneous sacarification and fermentation using Saccharomyces cerevisiae

Author

Septi Nur Hayati, Hernawan, Diah Kusuma Pratiwi, Vita Taufika Rosyida, Satriyo Krido Wahono, Khoirun Nisa, A. W. Indrianingsih, Roni Maryana, Muhammad Kismurtono, Cici Darsih, C. D. Poeloengasih, T. H. Jatmiko, and D. J. Prasetyo

Subjects

Materials science, Waste management, biology, Cellulase, Raw material, Pulp and paper industry, chemistry.chemical_compound, chemistry, Biofuel, biology.protein, Lignin, Fermentation, Ethanol fuel, Cellulose, Bagasse

Abstract

Sugarcane bagasse (SCB) is most abundant agricultural wastes in the world. It is an attractive feedstock for the large-scale biological production of bioethanol. However, the limitation in bagase use is its high degree of complexity because of its mixed composition of extremely inhomogeneous fibers. Therefore, ethanol production from bagase is often complex, with three main steps, i.e pretreatment, sacharification, and fermentation. Here we used alkali pretreatment using delignification reactor with NaOH 1N and 1.5 bar for 2 hours. Followed by Simultaneous Sacarification and Fermentation (SSF) using Saccharomyces cerevisiae in addition of cellulase and β-glucosidase enzyme. We found that the alkaline pretreatment can decrease cellulose crystallinity, decrease lignin content up to 84.83% and increased cellulose content up to 74.29%. SSF using cellulase enzymes and combination of cellulase enzymes and β-glucosidase derived bioethanol levels respectively 5.87±0.78% and 6.83±0.07%. In conclusion these results...

Published

2017

120. Manufacture of reconstruction-bricks in Mexico

Author

David Morillón Gálves, Ma. Neftalí Rojas-Valencia, Alberto López López, Denise Y. Fernández Rojas, and Armando Aguilar Penagos

Subjects

Maximum temperature, Compressive strength, Absorption of water, Granulometry, Mexico city, Environmental science, Desiccator, Cementitious, Solar drying, Pulp and paper industry

Abstract

In Mexico, around 33.600 tons of construction wastes are generated every day, Mexico City contributing for around tons/day, with fewer than 1.000 tons/day being sent to be recycled. For that reason the purpose of this study was to manufacture sustainable bricks, based on three types of wastes generated in the building industry: wood cutting residues, wastes from the excavation process (From Coapa and Cuautlancingo, Puebla, Mexico) and recycled aggregates. Water was added as kneading material, and Opuntia ficus-indica (mucilage) was supplemented as natural additive to improve the workability of the mixtures. Conventional firing process was substituted by drying in a solar drying chamber. Nine mixtures were prepared using 62% excavation wastes, 4% wood cutting residues and 11%, 17% and 34% recycled aggregates. These mixtures were classified in two groups depending on their granulometry: the first one denominated cementitious recycled aggregates only having granulometry from 25.4 mm, 9.52 mm to 6.35 mm to fines and the second group denominated all in one recycled aggregates having granulometry of 6.35 mm to fines. The quality of the sustainable bricks was evaluated according to compressive strength and water absorption parameters. The results of nine mixtures showed that the reconstruction-bricks manufactured with the mixture seven consisting of 9.52 mm and 6.35 mm construction residues (all in one) fines presented the highest strength values, lowest maximum initial absorption (4 g/min) compared to the norm NMX-C-037-ONNCCE-2013 which establishes that the maximum limit for walls exposed to the outside is 5 g/min. Using a solar desiccator made from construction residues, the bricks were dried in 11 days, the maximum temperature was 76 °C and the maximum solar radiation captured was 733.4 W/m2.

Published

2017

121. Fourier transform infrared spectroscopy (FTIR) analysis of paddy straw pulp treated using deep eutectic solvent

Author

Farizul Hafiz Kasim, Ahmad Anas Nagoor Gunny, Dachyar Arbain, and Lim Wei Lun

Subjects

Materials science, Pulp (paper), food and beverages, Lignocellulosic biomass, engineering.material, Straw, Deep eutectic solvent, chemistry.chemical_compound, stomatognathic system, chemistry, engineering, Organic chemistry, Lignin, Hemicellulose, Fourier transform infrared spectroscopy, Cellulose, Nuclear chemistry

Abstract

This study focus on Fourier Transform Infrared Spectroscopy (FTIR) analysis of paddy straw pulp treated using deep eutectic solvent (DES). DES was synthesized using potassium carbonate and glycerol at different molar ratio under normal atmospheric pressure. Pretreatment of lignocellulosic biomass was carried out at temperature of 120°C for 60 minutes under mass ratio of paddy straw to DES 1:9. The chemical structures of the untreated paddy straw and paddy straw pulp treated with different molar ratio of DES were analyzed using FTIR. The characterization result from FT-IR spectra indicated that the potassium carbonate-glycerol DES deconstructed the structures of paddy straw by removing lignin and hemicellulose during the pulping process. The peak intensity that occurs at region between 900 cm−1 and 1500 cm−1 shows that the presence of elevated level of cellulose after lignocellulosic pulping. From FT-IR analysis, DES could not remove the functional group of lignin and hemicellulose completely but yet expos...

Published

2017

122. Preliminary study on aerobic granular biomass formation with aerobic continuous flow reactor

Author

Marissa Handajani, Prayatni Soewondo, Andik Yulianto, and Herto Dwi Ariesyady

Subjects

Activated sludge, Volume (thermodynamics), Wastewater, Sedimentation (water treatment), Continuous reactor, Full scale, Environmental science, Biomass, Sequencing batch reactor, Pulp and paper industry

Abstract

A paradigm shift in waste processing is done to obtain additional benefits from treated wastewater. By using the appropriate processing, wastewater can be turned into a resource. The use of aerobic granular biomass (AGB) can be used for such purposes, particularly for the processing of nutrients in wastewater. During this time, the use of AGB for processing nutrients more reactors based on a Sequencing Batch Reactor (SBR). Studies on the use of SBR Reactor for AGB demonstrate satisfactory performance in both formation and use. SBR reactor with AGB also has been applied on a full scale. However, the use use of SBR reactor still posses some problems, such as the need for additional buffer tank and the change of operation mode from conventional activated sludge to SBR. This gives room for further reactor research with the use of a different type, one of which is a continuous reactor. The purpose of this study is to compare AGB formation using continuous reactor and SBR with same operation parameter. Operation parameter are Organic Loading Rate (OLR) set to 2,5 Kg COD/m3.day with acetate as substrate, aeration rate 3 L/min, and microorganism from Hospital WWTP as microbial source. SBR use two column reactor with volumes 2 m3, and continuous reactor uses continuous airlift reactor, with two compartments and working volume of 5 L. Results from preliminary research shows that although the optimum results are not yet obtained, AGB can be formed on the continuous reactor. When compared with AGB generated by SBR, then the characteristics of granular diameter showed similarities, while the sedimentation rate and Sludge Volume Index (SVI) characteristics showed lower yields.A paradigm shift in waste processing is done to obtain additional benefits from treated wastewater. By using the appropriate processing, wastewater can be turned into a resource. The use of aerobic granular biomass (AGB) can be used for such purposes, particularly for the processing of nutrients in wastewater. During this time, the use of AGB for processing nutrients more reactors based on a Sequencing Batch Reactor (SBR). Studies on the use of SBR Reactor for AGB demonstrate satisfactory performance in both formation and use. SBR reactor with AGB also has been applied on a full scale. However, the use use of SBR reactor still posses some problems, such as the need for additional buffer tank and the change of operation mode from conventional activated sludge to SBR. This gives room for further reactor research with the use of a different type, one of which is a continuous reactor. The purpose of this study is to compare AGB formation using continuous reactor and SBR with same operation parameter. Operatio...

Published

2017

123. Modification of oil palm wood using acetylation and impregnation process

Author

Lambang Subagiyo, Enih Rosamah, and Hesim

Subjects

Materials science, biology, business.industry, technology, industry, and agriculture, Chemical modification, Pulp and paper industry, Elaeis guineensis, biology.organism_classification, complex mixtures, Volume (thermodynamics), Acetylation, Palm oil, Imbibition, Coal, Composite material, skin and connective tissue diseases, business

Abstract

The purpose of this study is chemical modification by process of acetylation and impregnation of oil palm wood to improve the dimensional stability. Acetylation process aimed at substituting the hydroxyl groups in a timber with an acetyl group. By increasing the acetyl groups in wood is expected to reduce the ability of wood to absorb water vapor which lead to the dimensions of the wood becomes more stable. Studies conducted on oil palm wood (Elaeis guineensis Jacq) by acetylation and impregnation method. The results showed that acetylated and impregnated wood oil palm (E. guineensis Jacq) were changed in their physical properties. Impregnation with coal ashfly provide the greatest response to changes in weight (in wet conditions) and after conditioning (dry) with the average percentage of weight gain of 198.16% and 66.41% respectively. Changes in volume indicates an increase of volume in the wet condition (imbibition) with the coal ashfly treatment gave highest value of 23.04 %, whereas after conditionin...

Published

2017

124. Comparative analysis of emission characteristics and noise test of an I.C. engine using different biodiesel blends

Author

Fariha Rahman, Adib Bin Rashid, Maliha Mamun, Md. Alamgir Hossain, and Sadia Naznin

Subjects

Smoke, Pollutant, Diesel fuel, chemistry.chemical_compound, Biodiesel, chemistry, Carbon dioxide, chemistry.chemical_element, Environmental science, Methanol, Particulates, Pulp and paper industry, Carbon

Abstract

Biodiesel is a captivating renewable resource providing the potential to reduce particulate emissions in compressionignition engines. A comparative study is conducted to evaluate the effects of using biodiesel on exhaust emissions. Exhaust smokiness, noise and exhaust regulated gas emissions such as carbon di oxides, carbon monoxide and oxygen are measured. It is observed that methanol-biodiesel blends (mustard oil, palm oil) cause reduction of emissions remarkably. Most of the harmful pollutants in the exhaust are reduced significantly with the use of methanol blended fuels. Reduction in CO emission is more with mustard oil blend compared to palm oil blend. Comparatively clean smoke is observed with biodiesel than diesel. It is also observed that, there is a decrease of noise while performing with biodiesel blends which is around 78 dB whereas noise caused by diesel is 80 dB. Biodiesel, more importantly mustard oil is a clean burning fuel that does not contribute to the net increase of carbon dioxide.

Published

2017

125. Effects of biomass type, blend composition, and co-pyrolysis temperature on hybrid coal quality

Author

Dwiwahju Sasongko, Inga Shaffira Rubani, Rifqi Rusydiansyah, and Winny Wulandari

Subjects

Inert, Materials science, Waste management, business.industry, technology, industry, and agriculture, Energy value of coal, food and beverages, Biomass, Pulp and paper industry, complex mixtures, Husk, law.invention, Sieve, law, visual_art, visual_art.visual_art_medium, Heat of combustion, Coal, Sawdust, business

Abstract

An experimental study on co-pyrolysis of coal with biomass wastes to produce hybrid coal was conducted to investigate the effects of important process variables, namely biomass type (rice husk and sawdust), blend composition, and co-pyrolysis temperature on the quality of hybrid coal. The experiments were carried out using a vertical tubular furnace equipped with temperature controller to maintain the co-pyrolysis reactor at a given temperature. Nitrogen gas was introduced into the furnace to create an inert environment preventing the sample from burning. A known mass of solid sample consisting of manually granulated blend of coal and biomass with binder in spherical shape was contained in a basket made of stainless sieve. After a given residence time, the sample was taken from the furnace. The blend sample prior to experiment and the produced hybrid coal were then characterized for its proximate analysis, ultimate analysis and calorific value. Experimental findings suggested that by increasing co-pyrolys...

Published

2017

126. Fixed bed pyrolysis of biomass solid waste for bio-oil

Author

Mohamed Hairol Md Ali, Mohammad Nurul Islam, and Miftah Haziq

Subjects

Materials science, Municipal solid waste, Waste management, Yield (chemistry), Biomass, Heat of combustion, Char, Raw material, Pulp and paper industry, Pyrolysis, Husk

Abstract

Biomass solid waste in the form of rice husk particle is pyrolyzed in a fixed bed stainless steel pyrolysis reactor of 50 mm diameter and 50 cm length. The biomass solid feedstock is prepared prior to pyrolysis. The reactor bed is heated by means of a cylindrical heater of biomass source. A temperature of 500°C is maintained with an apperent vapor residence time of 3-5 sec. The products obtained are liquid bio-oil, solid char and gases. The liquid product yield is found to be 30% by weight of solid biomass feedstock while the solid product yield is found to be 35% by weight of solid biomass feedtock, the rest is gas. The bio-oil is a single-phase brownish color liquid of acrid smell. The heating value of the oil is determined to be 25 MJ/kg. The density and pH value are found to be 1.125 kg/m3 and 3.78 respectively.

Published

2017

127. Optimization of bio-mineral lubricants

Author

Mohammad Khalid, M Osama, W. Rashmi, Wong W. Yin, and Tcsm Gupta

Subjects

Viscosity, Vegetable oil, Materials science, Pome, Base oil, medicine, Evaporation, food and beverages, Viscosity index, Pulp and paper industry, Mineral oil, Naphtha, medicine.drug

Abstract

Lubricants in metalworking play an essential role in controlling the quality of the final product. Different approaches have been researched to improve the performance of metalworking fluids. The use of vegetable oil such as groundnut oil and fatty acid methyl esters such as palm oil methyl ester (POME) has demonstrated improvements in machining operation parameters. These two types of lubricants provide environmental and lubricating advantages over conventional mineral oil based lubricants. In this study, naphthenic and groundnut oils were blended in three different ratios (3:1, 1:1, 3:1) to study viscosity index, thermal conductivity and evaporation losses with respect to temperature ranging from 24°C - 100°C. In addition, another set of samples were prepared by adding POME to the aforementioned blend ratios with volume fractions of 0.03, 0.05 and 0.07. The evaporation loss was evaluated using the TGA Noack test. Furthermore, results obtained on the viscosity index, thermal conductivity and evaporation losses were modeled using quadratic functions under experimental setup of full factorial design. The models generated are proposed to be used for variety of optimization problems of the groundnut oil and POME contents for this class of lubricants. The results show that as the content of the groundnut oil and POME increase, the viscosity index also increases. Moreover, groundnut oil showed higher thermal conductivity enhancement of about 36% compared to naphthenic oil which depicts that groundnut oil is capable of removing the heat generated during machining operation more efficiently than the naphthenic base oil. In contrast, POME content and temperature did not show strong influence on thermal conductivity. Along with this, it was also found that by increasing the content of the groundnut oil, the evaporation losses are reduced which could be due to the higher viscosity of the groundnut oil.Lubricants in metalworking play an essential role in controlling the quality of the final product. Different approaches have been researched to improve the performance of metalworking fluids. The use of vegetable oil such as groundnut oil and fatty acid methyl esters such as palm oil methyl ester (POME) has demonstrated improvements in machining operation parameters. These two types of lubricants provide environmental and lubricating advantages over conventional mineral oil based lubricants. In this study, naphthenic and groundnut oils were blended in three different ratios (3:1, 1:1, 3:1) to study viscosity index, thermal conductivity and evaporation losses with respect to temperature ranging from 24°C - 100°C. In addition, another set of samples were prepared by adding POME to the aforementioned blend ratios with volume fractions of 0.03, 0.05 and 0.07. The evaporation loss was evaluated using the TGA Noack test. Furthermore, results obtained on the viscosity index, thermal conductivity and evaporation ...

Published

2017

128. Effect of black rice husk ash on the physical and rheological properties of bitumen

Author

Raissa Romastarika, Dewi Sri Jayanti, Agussabti, Fadzli Mohamed Nazri, Ramadhansyah Putra Jaya, Ichwana, and Haryati Yaacob

Subjects

Materials science, Softening point, Rheology, Asphalt, Black rice, Dynamic shear rheometer, Composite material, Pulp and paper industry, Ball mill, Husk, Grinding

Abstract

Black rice husk ash (BRHA) waste product is inexpensive and can be obtained from rice mills. Reuse of waste product is ideal to reduce pollution, because disposal is decreased or eliminated. The commercial value of BRHA has increased, and it is suitable for use in road construction. In this study, BRHA waste was ground using a grinding ball mill for 120 min to form fine powder. BRHA was then sieved to less than 75 µm. At the laboratory, BRHA was mixed with bitumen to replace 2%, 4%, and 6% of the total weight, whereas 0% represented the control sample. The penetration, softening point, dynamic shear rheometer (DSR) and rolling thin film oven (RTFO) were investigated in this study. Results showed that bitumen became harder, whereas the rate of penetration decreased when the replacement amount of BRHA increased. Softening point test of bitumen also revealed an increase. The short-term aging test revealed that modification of bitumen could relieve the effect of aging. BRHA waste added into bitumen improved t...

Published

2017

129. Removal of iron and manganese using granular activated carbon and zeolite in artificial barrier of riverbank filtration

Author

Abustan Ismail, Halim Harmuni, and Remy Rozainy M. A. Z. Mohd

Subjects

Granular activated carbon, Contact time, Environmental engineering, chemistry.chemical_element, Manganese, Pulp and paper industry, River water, law.invention, Adsorption, chemistry, law, Christian ministry, Zeolite, Filtration

Abstract

Iron and Manganese was examined from riverbank filtration (RBF) and river water in Sungai Kerian, Lubok Buntar, Serdang Kedah. Water from the RBF was influenced by geochemical and hydro chemical processes in the aquifer that made concentrations of iron (Fe), and manganese (Mn) high, and exceeded the standard values set by the Malaysia Ministry of Health. Therefore, in order to overcome the problem, the artificial barrier was proposed to improve the performance of the RBF. In this study, the capability and performance of granular activated carbon, zeolite and sand were investigated in this research. The effects of dosage, shaking speed, pH and contact time on removal of iron and manganese were studied to determine the best performance. For the removal of iron using granular activated carbon (GAC) and zeolite, the optimum contact time was at 2 hours with 200rpm shaking speed with 5g and 10g at pH 5 with percentage removal of iron was 87.81% and 83.20% respectively. The removal of manganese and zeolite arose sharply in 75 minutes with 90.21% removal, with 100rpm shaking speed. The GAC gave the best performance with 99.39% removal of manganese. The highest removal of manganese was achieved when the adsorbent dosage increased to 10g with shaking speed of 200rpm.

Published

2017

130. Taguchi optimization: Case study of gold recovery from amalgamation tailing by using froth flotation method

Author

Aulia Aziza, A. Junaidi, B. B. Aji, Sudibyo, Karna, Fajar Nurjaman, Slamet Sumardi, and F. R. Mufakir

Subjects

Engineering, Municipal solid waste, Waste management, business.industry, Raw material, Pulp and paper industry, Taguchi methods, chemistry.chemical_compound, chemistry, Scientific method, Particle size, Xanthate, Froth flotation, business, Pine oil

Abstract

Gold amalgamation process was widely used to treat gold ore. This process produces the tailing or amalgamation solid waste, which still contains gold at 8-9 ppm. Froth flotation is one of the promising methods to beneficiate gold from this tailing. However, this process requires optimal conditions which depends on the type of raw material. In this study, Taguchi method was used to optimize the optimum conditions of the froth flotation process. The Taguchi optimization shows that the gold recovery was strongly influenced by the particle size which is the best particle size at 150 mesh followed by the Potassium amyl xanthate concentration, pH and pine oil concentration at 1133.98, 4535.92 and 68.04 gr/ton amalgamation tailing, respectively.Gold amalgamation process was widely used to treat gold ore. This process produces the tailing or amalgamation solid waste, which still contains gold at 8-9 ppm. Froth flotation is one of the promising methods to beneficiate gold from this tailing. However, this process requires optimal conditions which depends on the type of raw material. In this study, Taguchi method was used to optimize the optimum conditions of the froth flotation process. The Taguchi optimization shows that the gold recovery was strongly influenced by the particle size which is the best particle size at 150 mesh followed by the Potassium amyl xanthate concentration, pH and pine oil concentration at 1133.98, 4535.92 and 68.04 gr/ton amalgamation tailing, respectively.

Published

2017

131. Effect of support on catalytic cracking of bio-oil over Ni/silica-alumina

Author

Panut Mulyono, Rochmadi, Arief Budiman, Syamsu Herman, and Sunarno

Subjects

Materials science, Waste management, business.industry, Biomass, Raw material, Pulp and paper industry, Fluid catalytic cracking, law.invention, Renewable energy, Catalysis, chemistry.chemical_compound, chemistry, law, Petroleum, Calcination, business, Pyrolysis

Abstract

Depletion of petroleum and environmental problem have led to look for an alternative fuel sources In many ways, biomass is a potential renewable source. Among the many forms of biomass, oil palm empty fruit bunch (EFB) is a very attractive feedstock due to its abudance, low price and non-competitiveness with the food chain. EFB can be converted bio-oil by pyrolysis process. but this product can not be used directly as a transportation fuel, so it needs upgrading bio-oil through a catalytic cracking process. The catalyst plays an important role in the catalytic cracking process. The objective of this research is to study the effect of Ni concentrations (1,3,5 and 7 wt.%) on the characteristics of the catalyst Ni / Silica-Alumina and the performance test for the catalytic cracking of bio-oil. Preparation of the catalyst Ni / Silica-Alumina was done by impregnation at 80°C for 3 hours, then done to calcination and reduction at 500°C for 2 hours. The performance test was conducted on catalytic cracking temper...

Published

2017

132. The device application of electrochemical exfoliated graphene

Author

K.P. Beh, Yu Zhang Ng, Mohd Zubir Mat Jafri, Chee Kiat Tan, Fong Kwong Yam, Hwee San Lim, and Faris Hidayat Ahmad Suhaimi

Subjects

Materials science, Graphene, Nanotechnology, medicine.disease_cause, Exfoliation joint, law.invention, Field emission microscopy, symbols.namesake, law, medicine, symbols, Spectroscopy, Raman spectroscopy, Graphene nanoribbons, Ultraviolet, Graphene oxide paper

Abstract

In this work, graphene was exfoliated by introducing the constant Galvano Static Current (GSC) at the range of 300-600mA with the incremental of 100mA. The Graphene produced through this exfoliation technique was also investigated through optical characterization using Field Emission Scanning Electron Microscope (FESEM), Ultraviolet Visible (UV-vis) spectroscopy and Raman spectroscopy to comprehend the quality behavior. To further understand the graphene characteristic, we applied the produced graphene on top of fabricated interdigitated electrode (IDE) device to investigate the electrical reaction.

Published

2017

133. Modifications of sugarcane bagasse-derived adsorbents to enhance the adsorption of microalgae biomass in easing harvesting process

Author

Mohamed Hasnain Isa, Lavania Baloo, Mohammed J.K. Bashir, Wan Nurain Farahah Wan Basri, Jun Wei Lim, and Yoshimitsu Uemura

Subjects

Materials science, Adsorption, Waste management, Scientific method, Biomass, Bagasse, Pulp and paper industry

Abstract

Recently, the attempt to create adsorbents in solving various separation problems has intensified drastically. The proposal of present research lightens the way to enhance the microalgae biomass harvesting process with the addition of sugarcane bagasse-derived adsorbent in culture medium. The adsorbents were tested with several chemical activations and concentrations to determine the optimum ones. Acid modified adsorbents with concentration of 1.0M and 1.5M demonstrated the highest adsorption with attainable biomass adsorption capacities 66% for both. The samples viewed under SEM showed 1.0M and 1.5M acid modified adsorbents have highest microalgae adsorption.

Published

2017

134. Simple preparation of rice husk activated carbon (RHAC) and applications for laundry and methylene blue wastewater treatment

Author

Riyanto, Bayu Ismoyo Mukti, and Rury Astuti

Subjects

chemistry.chemical_compound, Wastewater, chemistry, Laundry, medicine, Sewage treatment, Pulp and paper industry, Husk, After treatment, Methylene blue, Activated carbon, medicine.drug

Abstract

The research of laundry and methylene blue wastewater treatment has been done using Rice Husk Activated Carbon (RHAC). Preparation of RHAC was doing by the furnace with temperature activating at 400 °C. RHAC preparation results were used for laundry and methylene blue wastewater treatment. In this study was also conducted the time and the weight of RHAC variation. 100 mL of laundry wastewater was mixed by RHAC powder as much 2 g then stirred and filtered. The performance of RHAC can be seen at the COD before and after treatment. The results showed that the time and weight of a good condition for methylene blue wastewater treatment are 60 minute and 7 g RHAC. The percentage of COD reduction for laundry wastewater treatment at 30 minutes is 79.39%. Meanwhile, the best percentage of COD reduction is 90.19% using RHAC with weight is 7 g.

Published

2017

135. Physical and chemical pretreatment of lignocellulosics in pineapple (Ananus comosus) peels dried for investment

Author

Adulsman Sukkaew, Maimoon Intan, Panthip Boonsong, and Sriubol Thongpradistha

Subjects

chemistry.chemical_compound, Fine powder, Chemistry, Carbon source, Ethanol fuel, Sulfuric acid, Cost (economic), Investment (macroeconomics), Sugar, Pulp and paper industry, Fermentable sugar

Abstract

Pineapple (Ananus comosus) Peels, once known as waste from agricultural, can be a problem when we eliminate in agriculture and industry. The current technology can help preliminarily to solve this problem. The sustainable solution to this problem is lignocellulosics pretreatments for converted saccharide as a carbon source for ethanol production. The objective of this study is the investigation of pineapple peels pretreatment to produce fermentable sugar by drying and digesting 5% sulfuric acid (H2SO4). And study of cost economic passed selection for investment. The result found that the best investment of drying was 100 °C at 11 hours for the sulphuric acid which could be easily crushed into a fine powder. Moreover, digestion of pineapple peels gave the best total sugar 252.2 g/l by 5% H2SO4 incubated for 60 minutes at room temperature. The pineapple peels were digested by 5%H2SO4 concentration by incubating for 60 minutes at room temperature, finding to be the best condition and the lowest investment. F...

Published

2017

136. Analysis of the effect of waste’s particle size variations on biodrying method

Author

Gabriel Andari Kristanto and Masayu Nadiya Zikrina

Subjects

Energy demand, Municipal solid waste, Environmental science, Composition (visual arts), Biodrying, Particle size, Raw material, Pulp and paper industry, Energy source, Water content

Abstract

The use of municipal solid waste as energy source can be a solution for Indonesia’s increasing energy demand. However, its high moisture content limits the use of solid waste as energy. Biodrying is a method of lowering wastes’ moisture content using biological process. This study investigated the effect of wastes’ particle size variations on biodrying method. The experiment was performed on 3 lab-scale reactors with the same specifications. Organic wastes with the composition of 50% vegetable wastes and 50% garden wastes were used as substrates. The feedstock was manually shredded into 3 size variations, which were 10 – 40 mm, 50 – 80 mm, and 100 – 300 mm. The experiment lasted for 21 days. After 21 days, it was shown that the waste with the size of 100 – 300 mm has the lowest moisture content, which is 50.99%, and the volatile solids content is still 74.3% TS. This may be caused by the higher free air space of the reactor with the bigger sized substrate.

Published

2017

137. Optimisation of microwave-assisted processing in production of pineapple jam

Author

Norazlin Abdullah, Nur Aisyah Mohd Ismail, and Norhayati Muhammad

Subjects

Water activity, Soluble solids, Direct heating, Pulp and paper industry, Microwave assisted, Mathematics

Abstract

Pineapples are available all year round since they are unseasonal fruits. Due to the continuous harvesting of the fruit, the retailers and farmers had to find a solution such as the processing of pineapple into jam, to treat the unsuccessfully sold pineapples. The direct heating of pineapple puree during the production of pineapple jam can cause over degradation of quality of the fresh pineapple. Thus, this study aims to optimise the microwave-assisted processing conditions for producing pineapple jam which could reduce water activity and meets minimum requirement for pH and total soluble solids contents of fruit jam. The power and time of the microwave processing were chosen as the factors, while the water activity, pH and total soluble solids (TSS) content of the pineapple jam were determined as responses to be optimised. The microwave treatment on the pineapple jam was able to give significant effect on the water activity and TSS content of the pineapple jam. The optimum power and time for the microwav...

Published

2017

138. Fouling reduction by ozone-enhanced backwashing process in ultrafiltration of petroleum-based oil in water emulsion

Author

Tutuk Djoko Kusworo, Nita Aryanti, and Indah Prihatiningtyas

Subjects

Diesel fuel, Fouling, Chemistry, Emulsion, Backwashing, Ultrafiltration, Sewage treatment, Permeation, Pulp and paper industry, Membrane technology

Abstract

Ultrafiltration membrane has been successfully applied for oily waste water treatment. However, one significant drawback of membrane technology is fouling which is responsible for permeate flux decline as well as reducing membrane performance. One method commonly used to reduce fouling is a backwashing process. The backwashing is carried out by a push of reversed flow from permeate side to the feed side of a membrane to remove fouling on the membrane pore and release fouling release fouling layer on the external side. However, for adsorptive fouling, the backwashing process was not effective. On the other hand, Ozone demonstrated great performance for reducing organics fouling. Hence this research was focused on backwashing process with ozone for removing fouling due to ultrafiltration of petroleum based oil emulsion. Gasoline and diesel oil were selected as dispersed phase, while as continuous phase was water added with Tween 80 as a surfactant. This research found that the Ozone backwashing was effectiv...

Published

2017

139. Development of anaerobic ammonium oxidation (anammox) for biological nitrogen removal in domestic wastewater treatment (Case study: Surabaya City, Indonesia)

Author

I Made Wahyu Wijaya, Eddy Setiadi Soedjono, and Nurina Fitriani

Subjects

chemistry.chemical_compound, Wastewater, Nitrate, chemistry, Anammox, Chemical oxygen demand, Environmental engineering, Environmental science, Sewage treatment, Pulp and paper industry, Water pollution, Effluent, Anoxic waters

Abstract

Domestic wastewater effluent is the main contributor to diverse water pollution problems. The contaminants contained in the wastewater lead the low quality of water. The presence of ammonium and nitrate along with phosphorus are potentially cause eutrophication and endanger aquatic life. Excess nutrients, mostly N and P is the main cause of eutrophication which is result in oxygen depletion, biodiversity reduction, fish kills, odor and increased toxicity. Most of the domestic wastewater in Surabaya City still contains nitrogen that exceeded the threshold. The range of ammonium and orthophosphate concentration in the domestic wastewater is between 6.29 mg/L – 38.91 mg/L and 0.44 mg/L – 1.86 mg/L, respectively. An advance biological nitrogen removal process called anammox is a sustainable and cost effective alternative to the basic method of nitrogen removal, such as nitrification and denitrification. Many research have been conducted through anammox and resulted promisingly way to remove nitrogen. In this process, ammonium will be oxidized with nitrite as an electron acceptor to produce nitrogen gas and low nitrate in anoxic condition. Anammox requires less oxygen demand, no needs external carbon source, and low operational cost. Based on its advantages, anammox is possible to apply in domestic wastewater treatment in Surabaya with many further studies.

Published

2017

140. Pilot scale experiments of magnesia hydration under gas-liquid-solid (three-phase) reaction system

Author

Yangyuan Ji, Qiwei Lv, Tang Xiaojia, Nie Yixing, Yin Lin, Zhu Yimin, and Qi Jin

Subjects

Chemistry, Magnesium, Pulp (paper), Mineralogy, chemistry.chemical_element, engineering.material, Exfoliation joint, Degree (temperature), Three-phase, Chemical engineering, engineering, Hydration reaction, Reactivity (chemistry), Particle size

Abstract

Pilot scale experiments were conducted to prepare magnesium hydroxide by magnesia hydration under gas-liquid-solid (three-phase) reaction system. The effect of reaction pressure, reactivity and particle size of magnesia and the concentration of the pulp on the degree of hydration was investigated. The results indicated that the hydration reaction occurred at the first 30min mainly. During the set reaction condition, degree of hydration of 68% could be obtained at the reaction pressure of 0.2MPa, concentration of pulp of 5%w/w with high reactivity and fine powder. The promotion effect on the degree of hydration caused by the three-phase reaction system was mostly attributed to the exfoliation of steam.

Published

2017

141. Briquettes of rice husk, polyethylene terephthalate (PET), and dried leaves as implementation of wastes recycling

Author

N Citrasari, Mohammad Nurdianfajar Usman, and Sucipto Hariyanto

Subjects

Briquette, chemistry.chemical_compound, Materials science, Compressive strength, Waste management, chemistry, Polyethylene terephthalate, Composition (visual arts), Pulp and paper industry, Water content, Husk

Abstract

This research aim is to determine the best briquettes as implementation of wastes recycle based on scoring method, main component composition, compressive strength, caloric value, water content, vollatile content, and ash content, also the suitability with SNI 01-6235-2000. Main component that used are rice husk, 2mm and 6 mm PET, and dried leaves. Composition variation in this research are marked as K1, K2, K3, K4, and K5 with 2 mm PET plastic and K1, K2, K3, K4, and K5 with 6 mm PET plastic. The total weight of the briquettes is 100 g and divided into 90% main components and 10% tapioca as binder. The compressive strength, caloric value, water content, vollatile content, and ash content were tested according to ASTM D 5865-04, ASTM D 3173-03, ASTM D 3175-02, ASTM D 3174-02. The tested results were used to determine the best briquette by scoring method, and the chosen briquettes is K2 with 6 mm PET plastic. The composition is 70% rice husk, 20% 6 mm PET plastic, and 10% dried leaves with the compressive strength, caloric value, water content, vollatile content, and ash content value is 51,55 kg/cm2; 5123 kal/g; 3,049%; 31,823%, dan 12,869%. The suitable value that meet the criteria according to SNI 01-6235-2000 is compressive strength, caloric value, water content, and ash content.

Published

2017

142. Use of a double condenser in a dehumidifier with a spray dryer for vitamin A extraction in tomato as a heat-sensitive material

Author

Warjito, Engkos Achmad Kosasih, I. H. Imansyah, and Nanang Ruhyat

Subjects

Heat sensitive, Chromatography, Chemistry, Air temperature, Extraction (chemistry), Air flow rate, Spray dryer, Refrigeration, Pulp and paper industry, Condenser (heat transfer), Evaporator

Abstract

Spray dryers are commonly operated at a high temperature (>100 °C), which becomes an obstacle for heat-sensitive materials. In this study, a refrigeration system that uses evaporator as dehumidifier and that recovers the heat released from the first condenser to preheat the drying air was utilised to reduce the drying temperature. Results showed that the degradation of vitamin A (measured with the high performance liquid chromatography method) in tomato increased significantly when the drying air temperature increased from 90 °C to 120 °C, and it cannot be controlled at a temperature higher than 120 °C. At an air flow rate of 450 lpm, the drying capacity at a drying air temperature of 60 °C (with refrigeration, humidity ratio of 0.005 [kg H2O / kg dry air]) is equal to the drying capacity at a drying air temperature of 120 °C (without refrigeration, humidity ratio of 0.021 [kg H2O / kg dry air]). The drying capacity at a drying air temperature of 90 °C (with refrigeration) even becomes 1.5 times the dryin...

Published

2017

143. The behavior of self-compacting concrete (SCC) with bagasse ash

Author

Saloma, Putri Nurul Kusuma Whardani, and Hanafiah

Subjects

Slump flow, Cement, Compressive strength, Materials science, Aggregate (composite), Bagasse ash, Maximum size, Pulp and paper industry, Bagasse, Grain size

Abstract

Self-Compacting Concrete (SCC) has the ability to flow and self-compacting. One of the benefit of SCC can reduced the construction time and labor cost. The materials to be used for see slightly different with the conventional concrete. Less coarse aggregate to be used up to 50%. The maximum size of coarse aggregate was also limited e.g. 10 mm. Other material was quartz sand with grain size of 50-650 µm. For reducing the around of cement, bagasse ash was used as partial replacement of cement. In this research, the variations of w/c to be used, e.g. 0.275, 0.300, 0.325 and the percentage of bagasse ash substitution were 10%, 15%, and 20%. EFNARC standard was conducted for slump flow test following the V-funnel test and L-box shape test. The maximum value of slump flow test was 75.75 cm, V-funnel test was 4.95 second, and L-box test was 1.000 yielded by mixture with w/c = 0.325 and 0% of bagasse ash. The minimum value of slump flow test was 61.50 cm, V-funnel test is 21.05 second, and L-box test was 0.743 yielded by mixture with w/c = 0.275 and 20% of bagasse ash. The maximum value of compressive strength was 67.239 MPa yielded by mixture with w/c = 0.275 and 15% of bagasse ash. And the minimum value of compressive strength was 41.813 MPa yielded by mixture with w/c = 0.325 and 20% bagasse ash.Self-Compacting Concrete (SCC) has the ability to flow and self-compacting. One of the benefit of SCC can reduced the construction time and labor cost. The materials to be used for see slightly different with the conventional concrete. Less coarse aggregate to be used up to 50%. The maximum size of coarse aggregate was also limited e.g. 10 mm. Other material was quartz sand with grain size of 50-650 µm. For reducing the around of cement, bagasse ash was used as partial replacement of cement. In this research, the variations of w/c to be used, e.g. 0.275, 0.300, 0.325 and the percentage of bagasse ash substitution were 10%, 15%, and 20%. EFNARC standard was conducted for slump flow test following the V-funnel test and L-box shape test. The maximum value of slump flow test was 75.75 cm, V-funnel test was 4.95 second, and L-box test was 1.000 yielded by mixture with w/c = 0.325 and 0% of bagasse ash. The minimum value of slump flow test was 61.50 cm, V-funnel test is 21.05 second, and L-box test was 0.743 yi...

Published

2017

144. Optimization of soxhlet extraction and physicochemical analysis of crop oil from seed kernel of Feun Kase (Thevetia peruviana)

Author

Yohanes Buang, Herry Z. Kotta, and Suwari

Subjects

chemistry.chemical_compound, Saponification value, Iodine value, Acid value, Thevetia, chemistry, biology, Biodiesel production, Extraction (chemistry), Petroleum ether, Raw material, biology.organism_classification, Pulp and paper industry

Abstract

Optimizing the soxhlet extraction of oil from seed kernel of Feun Kase (Thevetia peruviana) for biodiesel production was carried out in this study. The solvent used was petroleum ether and methanol, as well as their combinations. The effect of three factors namely different solvent combinations (polarity), extraction time and extraction temperature were investigated for achieving maximum oil yield. Each experiment was conducted in 250 mL soxhlet apparatus. The physicochemical properties of the oil yield (density, kinematic viscosity, acid value, iodine value, saponification value, and water content) were also analyzed. The optimum conditions were found after 4.5 h with extraction time, extraction temperature at 65 oC and petroleum ether to methanol ratio of 90 : 10 (polarity index 0.6). The oil extract was found to be 51.88 ± 3.18%. These results revealed that the crop oil from seed kernel of Feun Kase (Thevetia peruviana) is a potential feedstock for biodiesel production.

Published

2017

145. Effect of carbon black on thermal properties of charcoal and salacca leafstalk briquettes

Author

Chewa Thassana and Witoon Nuleg

Subjects

Briquette, Laboratory methods, Moisture, biology, Chemistry, Carbon black, Pulp and paper industry, biology.organism_classification, visual_art, Thermal, visual_art.visual_art_medium, Heat of combustion, Charcoal, Salacca

Abstract

In this work, the effect of a carbon black (CB) on the thermal properties of briquettes produced from the charcoal and the salacca leafstalk with and without CB have been investigated. Four thermal properties of a briquettes compose of the burning time, the calorific value, the percentage moisture (PMC) and an percentage ash content (PAC) were analyzed using standard laboratory methods. Our results were indicated that the sallacca leafstalk mix a carbon black is the long burning times, high heating but a few ash content. Results shown that the burning time and the calorific value of a charcoal, a charcoal with CB, the salacca leafstalk and the salacca leafstalk with carbon black particles is about 58, 63, 76, 81 minutes, and 10.33, 12.96, 13.12, 14.63 MJ/kg, respectively. In addition, the PMC and PAC were in range of 11.6 - 8.14% and 9.33 - 5.42%. So, we can conclude that a cabon black affect on the thermal properties of a briquettes and salacca leaftstalk mixed CB has been most suited for briquetting.

Published

2017

146. Kinetics study of Jatropha oil esterification with ethanol in the presence of tin (II) chloride catalyst for biodiesel production

Author

Naomi Ratrianti, Arief Budiman, Indah Purnamasari, and Ratna Dewi Kusumaningtyas

Subjects

chemistry.chemical_compound, Acid value, Biodiesel, Waste management, Chemistry, Biodiesel production, By-product, Tin(II) chloride, Transesterification, Raw material, Pulp and paper industry, complex mixtures, Catalysis

Abstract

Jatropha oil is one of the promising feedstocks for biodiesel production. Jatropha oil is non-edible oil hence utilization of this oil would not compete with the needs of food. However, crude jatropha oil usually has high free fatty acid (FFA) content. Due to this fact, direct alkaline-catalyzed transesterification of crude jatropha oil for biodiesel production cannot be performed. FFA in crude jatropha oil will react with a base catalyst, resulting in soap as by product and hindering methyl ester (biodiesel) production. Therefore, prior to a transesterification reaction, it is crucial to run a pretreatment step of jatropha oil which can lower the FFA content in the oil. In this work, the pretreatment process was conducted through the esterification reaction of FFA contained in crude jatropha oil with ethanol over tin (II) chloride catalyst to reduce the acid value of the feedstock. The feedstock was Indonesia crude jatropha oil containing 12.03% of FFA. The esterification reaction was carried out in a ba...

Published

2017

147. Physico-chemical properties and energy potency of wood waste biomass from the logging activities to generate electricity in East Kalimantan, Indonesia

Author

Yuliansyah and Rudianto Amirta

Subjects

Wood waste, Logging, Natural forest, Biomass, Environmental science, Potency, Pulp and paper industry, Felling, Hectare, Chemical composition

Abstract

In this work, the wood waste biomass from the logging activity of the natural forest area in East Kalimantan, Indonesia has been characterized in regards to the physicochemical properties and energy. The four species of wood waste biomass were Shorealeprosula (red meranti), Shoreabracteolata (white meranti), Shoreagibbosa (yellow meranti), and Shorealaevis (bangkirai). The total amount of wood waste biomass produced from the logging activity was 557.87 m3/plot(5.58 m3 ha−1). The waste biomass was identified as log end part (40.07%), bucking (27.39%), twigs (14.61%), stump (12.0%) and branch parts (5.92%), respectively. Among the four species studied, we observed that the highest volume of wood waste biomass was obtained from S. leprosulagiving 48.40% and followed by S. laevis 47.40%, and the last was S. bracteolata. From the field study, We noticed that the waste of wood biomass was not only yielded from the part of the log harvested such as branch, stump, log end and bucking processes but also reached from the damaged trees around the felling trees location and skidding operation. In general, the chemical composition of wood waste biomass studied was almost similar, while the highest calorivic value (HCV) was obtained from S. laeviswith value of 17.90 MJ/kg and followed by S. leprosula of 17.38 MJ/kg, S. bracteolata of 17.09 MJ/kg, and S. gibbosa of 16.86 MJ/kg.The logging wood waste biomass was estimated sufficient to provide and supply 3668.62 GJ energy, to generate ±1,019 MWh electricity that equivalent to ±10.19 MWh electricity potency per hectare.

Published

2016

148. Enhancement of the mechanical properties of aluminum-graphene composites

Author

L.A. Yolshina, R. V. Muradymov, E. O. Smirnova, and D. I. Vichuzhanin

Subjects

Materials science, Graphene, law, Graphene foam, Halide, Composite material, Ductility, Graphene nanoribbons, law.invention, Carbide, Corrosion, Graphene oxide paper

Abstract

A novel method of creating new lightweight aluminum-metallic composite materials in halide melts at temperatures of 973–1073 К in air atmosphere is proposed. The method for synthesizing aluminum-based metallic composite materials containing up to 2 wt. % graphene sheets uniformly distributed in a metal matrix is entirely new, having no analogies in current science and practice. The synthesis of graphene nanosheets in a metal matrix is a one-step simultaneous process taking place directly in molten aluminum in alkali halide melt without the necessity of a separate stage of synthesis and introduction of graphene. This has the potential to facilitate the inexpensive synthesis of aluminum-graphene composites with a high concentration of graphene. Aluminum-graphene composites formed according to this method are characterized by a high uniformity of graphene films with linear dimensions from 100 nm to 50 µm and a thickness from 1 nm to 3 nm in the metal bulk. No aluminum carbide forms under synthesis; aluminum-graphene and aluminum-graphite composites are resistant to corrosion in a NaCl solution. The hardness, strength and ductility of aluminum-graphene composites are at least 2–3 times as high as the initial aluminum material, proportional to the concentration of graphene.

Published

2016

149. Improving engine performance with distillated water-methanol

Author

Nyenyep Sriwardani and Basori

Subjects

chemistry.chemical_compound, Materials science, Fluid composition, chemistry, Waste management, Carbon dioxide, Water methanol, Methanol, Thrust specific fuel consumption, Water injection (engine), Pulp and paper industry, Experimental research, Petrol engine

Abstract

The effect of detonation is the reduction of engine performance, increasing specific fuel consumption and increasing the quality of exhaust gas emissions. This experimental research aims to get solved with applied water injection system at gasoline engine. This study uses experimental research. The testing of engine performance is done by giving the treatment of Honda mega pro 2009. WaI (Water Injection) system is mounted on the motorcycle with the fluid composition:(1) aquadest 100% and methanol 0%, (2) aquadest 90% and methanol 10%, (3) aquadest 80% and methanol 20, (4) aquadest 70% and methanol 30, (5) aquadest 60% and methanol 40%, (6) aquadest 50% and methanol 50%.The result shows, by adjusting the percentage of methanol and aquadest could decrease the specific fuel consumption, increase the power of engine and reduce Carbon Dioxide (CO2) emission.

Published

2016

150. The utilization of aquacultures wastewater as nutrient sources in Nannochloropsis oculata cultivation to prevent waters contamination in coastal area

Author

Reagan Septory and Bambang Triyatmo

Subjects

business.industry, Environmental engineering, engineering.material, Pulp and paper industry, Salinity, chemistry.chemical_compound, Nutrient, Wastewater, Aquaculture, chemistry, Nitrate, engineering, Environmental science, Fertilizer, Aeration, Nitrite, business

Abstract

Aquaculture activity on coastal area produces organic and inorganic waste that cause a high concentration of dissolved nutrient in waters. Therefore, the organic and inorganic waste should be reduced to prevent a negative impact to coastal water. One way to reduce the aquaculture waste loading to coastal water is to use it as a fertilizer on microalgae cultivation. The objective of this study was to investigate the change of dissolved nitrogen concentration in aquaculture waste during 14 days treatment in aerated and unaerated conditions. Two liters of wastewater was collected every 2 days from the reactor for culture media of microalgae Nannochloropsis oculata in 2 liters Erlenmeyer flask. The concentration of ammonia, nitrite, nitrate and phosphate were determined spectrophotometrically as well as chlorophyll-a content when waste were treated in aerated and unaerated reactor. Water temperature, dissolved oxygen, hydrogen ion and salinity were monitored throughout the treatment. Concentration of ammonia, nitrate and nitrite in aeration treatment were changed faster in aerated condition compared to unaerated condition. The phosphate concentration in both aerated and unaerated had a same pattern and these could reach the highest concentration to 0,9 mg L−1. Six days cultivation of N. oculata showed that N. oculata was able to assimilate nutrient from wastewater to construct its cell structure with the highest density of 19,75 × 106 cell mL−1 and its process caused extremely low nutrient concentration. This result showed that nutrient from aquaculture waste can be almost totally assimilated by N. oculata and create an extremely low concentration of nutrient from wastewater.

Published

2016