Biochemical Methane Potential of Agro Wastes

Prabhudessai, Vidhya; Ganguly, Anasuya; Mutnuri, Srikanth

doi:10.1155/2013/350731

Cited by 40 publications

(21 citation statements)

References 24 publications

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“…COD for this ranges from 6000 to 90,000 mg/L [28]. Considering theoretical methane production of 0.35 L/g-of-COD [29], an average methane production of 0.03 Nm 3 /L of process water could be obtained which can supplement the energy needed for the hydrothermal process.…”

Section: Process Watermentioning

confidence: 99%

Hydrothermal Carbonization of Biosolids from Waste Water Treatment Plant

et al. 2018

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The high moisture content of biosolid from a wastewater treatment plant limits its use for agriculture and energy applications. This limitation could be obviated by hydrothermal carbonization, which requires less energy compared to other thermochemical treatment processes, and results in stabilized solid hydrochar product. The present study examined this option by hydrothermally treating the biosolid at three temperatures (180, 200 and 220 °C) for 30 min, and at 200 °C for 15, 30 and 60 min. An increase of 50% in the heating value of the biosolid was obtained after this carbonization. A reduction in the nitrogen concentration in hydrochar was noted with an increase in phosphorus concentration, but potassium concentration remained largely unchanged. Additionally, the carbon to nitrogen ratio in the hydrochar product was higher than the biosolid that makes it suitable for agriculture applications. The chemical oxygen demand of the process water was in the range of 83,000 to 96,000 mg/L. The study thus provides insight into high-value products that can be generated by the hydrothermal carbonization of biosolids.

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Section: Process Watermentioning

confidence: 99%

Hydrothermal Carbonization of Biosolids from Waste Water Treatment Plant

et al. 2018

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“…These authors observed that the greatest biogas volume occurred with an HRT of 2 days, reaching a relative biogas production of 0.280 L CH4.g CODrem -1 . The theoretical biochemical methane potential per gram of CODrem is 0.350 L (Prabhudessai et al, 2013). However, some organic matter is used for growth of microorganisms and maintenance of cellular metabolism (Raposo et al, 2011).…”

Section: Effect Of Trh On Fermentation Of the Alkalinized Siementioning

confidence: 99%

Effect of Organic Load and Alkalinity on Dairy Wastewater Biomethanation

et al. 2017

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This study aimed to evaluate the effect of variations in organic load (hydraulic retention times -HRTs: from 2 to 0.5 day) and in alkalinity (NaHCO3 from 4,000 to 1,000 mg.L -1 ) on methane production. Biomass of sewage sludge was inoculated and stabilized on 1" polypropylene rings. The rings were immersed in the liquid phase (8.41 L) of an upflow anaerobic filter reactor (12.22 L). A solution of 5 g of whole milk powder per liter was used to simulate effluent from the dairy industry. Process effectiveness was measured by chemical oxygen demand reduction, biogas production, and biogas methane content. Biogas production started at a 2-day HRT and synthetic effluent alkalinization with 4,000 mg.L -1 NaHCO3. The best operation condition was at 1-day HRT and with the addition of 4,000 mg.L -1 NaHCO3. Biogas production reached 1.5 NL of biogas per L of reactor liquid phase, with 68% of methane and a concomitant reduction in COD of 57%.

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“…However, the rate of biogas and methane productions differs significantly according to the operation of microwave pretreatment for decanter cake at various powers and heating times. The cumulative methane also increases with the increasing of the total amount of organic matter in a substrate after microwave pretreatment (Prabhudessai et al, 2013).…”

Section: Effect Of Power and Heating Time On Bmp Testmentioning

confidence: 94%

“…Total Volatile Solids (TVS) analysis determines the total amount of organic matter in the substrate. Thus, the increasing of TVS can enhance the organic biodegradability and the biogas and methane productions for anaerobic digestion (Prabhudessai et al, 2013). Microwave pretreatment has proved to be an effective way to break down the structure of fiber and lignocellulosic materials such as rice straw and switch grass (Zhu et al, 2006;Hu and Wen, 2008).…”

Section: Characteristics Of Decanter Cakementioning

confidence: 99%

“…The highest cumulative biogas is produced by the reactor containing the decanter cake pretreated with the 360 watts of heating power and 4 min of heating time (R6). The cumulative biogas increases with the increasing total amount of organic matter in the substrate after the microwave pretreatment process (Prabhudessai et al, 2013). Figure 5 shows the cumulative methane of pretreated decanter cake at the end of the 45-day anaerobic digestion.…”

Section: Effect Of Power and Heating Time On Bmp Testmentioning

confidence: 99%

See 1 more Smart Citation

Effect of Microwave Pretreatment on BMP of Decanter Cake from Palm Oil Mill Factory

Kaosol¹,

Rungarunanotai²

2016

American Journal of Applied Sciences

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Anaerobic digestion is an effective method for treating decanter cake in the biogas production. Decanter cake usage is limited by its slow fiber degradation for anaerobic digestion process. The aim of this study is to study the possibility of using microwave pretreatment to enhance decanter cake digestibility. The power and heating time are the parameters that influence the biogas production and methane yield. The Biochemical Methane Potential (BMP) tests are used in this study to find the optimization setting of a microwave pretreatment for decanter cake solubilization and anaerobic digestibility. The results show that the microwave pretreatment provides a better performance in terms of COD solubilization and anaerobic digestibility. The increasing power and heating time can improve the biogas production and methane yield for microwave pretreated decanter cake under anaerobic digestion process. Finally, the optimum power and heating time used in the microwave pretreatment, found in this study, is 160 watts and 8 min for methane yield under the anaerobic digestion process. The highest methane yield is 309.9 mL CH 4 /g COD removed. The microwave pretreated decanter cake at 160 watts of power and 8 min of heating time can improve the methane yield with an improvement of 24.6% in comparison with the non-microwave pretreated decanter cake. It can be concluded that the microwave pretreatment of decanter cake from palm oil mill factory could be the rapid and environmental method for biogas production enhancement.

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Biochemical Methane Potential of Agro Wastes

Cited by 40 publications

References 24 publications

Hydrothermal Carbonization of Biosolids from Waste Water Treatment Plant

Hydrothermal Carbonization of Biosolids from Waste Water Treatment Plant

Effect of Organic Load and Alkalinity on Dairy Wastewater Biomethanation

Effect of Microwave Pretreatment on BMP of Decanter Cake from Palm Oil Mill Factory

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