Performance evaluation of anaerobic digestion technology for energy recovery from organic fraction of municipal solid waste: A review

Anaerobic digestion is one of the most effective and environment-friendly waste management techniques. It not only treats the organic fraction of municipal solid waste, but at the same time it can be considered as one of the potent renewable energy sources due to generation of methane during digestion process. The technology is not new and has been commercialised from early 1980s. But, the data suggests that it is not still widely applied for energy recovery from organic wastes at centralised level. The reason may be poor methane yield due to operational issues and process instability. There were numerous studies already done at the lab scale, now it is the time to replicate the outcomes of lab-scale studies to the full scale plant. Further studies are required to make the anaerobic digestion techno-economically sustainable. This paper presents a detailed review of essential process parameters and identifies gaps and solutions for effective implementation of the anaerobic digestion of organic fraction of municipal solid waste. The paper also presents the effect of co-digestion, pre-treatments and inhibition on the performance of anaerobic digestion. The paper will help the readers in understanding the process, operation and control of anaerobic digestion technology.

[1]  A. Landis,et al.  Enhancing anaerobic digestion of food waste through biochemical methane potential assays at different substrate: inoculum ratios. , 2018, Waste management.

[2]  W. Qin,et al.  Influence of salinity and water content on soil microorganisms , 2015, International Soil and Water Conservation Research.

[3]  Shumei Gao,et al.  Evaluation the anaerobic digestion performance of solid residual kitchen waste by NaHCO3 buffering , 2015 .

[4]  Qunhui Wang,et al.  A comprehensive review on food waste anaerobic digestion: Research updates and tendencies. , 2018, Bioresource technology.

[5]  Yibin Ying,et al.  Effect of ammonia and nitrate on biogas production from food waste via anaerobic digestion , 2013 .

[6]  Sunil Kumar,et al.  Artificial neural network based modeling to evaluate methane yield from biogas in a laboratory-scale anaerobic bioreactor. , 2016, Bioresource technology.

[7]  H. Carrère,et al.  Impact of initial biodegradability on sludge anaerobic digestion enhancement by thermal pretreatment , 2008, Journal of environmental science and health. Part A, Toxic/hazardous substances & environmental engineering.

[8]  D. Bagley,et al.  EVALUATION OF THE PERFORMANCE OF DIFFERENT ANAEROBIC DIGESTION TECHNOLOGIES FOR SOLID WASTE TREATMENT , 2002 .

[9]  J Mata-Alvarez,et al.  Anaerobic co-digestion of pig manure and crude glycerol at mesophilic conditions: biogas and digestate. , 2012, Bioresource technology.

[10]  Agata Czyżowska,et al.  Food waste co-digestion with slaughterhouse waste and sewage sludge: Digestate conditioning and supernatant quality. , 2017, Waste management.

[11]  Chettiyappan Visvanathan,et al.  Bio-energy recovery from high-solid organic substrates by dry anaerobic bio-conversion processes: a review , 2013, Reviews in Environmental Science and Bio/Technology.

[12]  Samir Kumar Khanal,et al.  Automatic process control in anaerobic digestion technology: A critical review. , 2015, Bioresource technology.

[13]  Pradeep Kumar,et al.  Effect of organic loading rate during anaerobic digestion of municipal solid waste. , 2016, Bioresource technology.

[14]  Jyoti Kainthola,et al.  A review on enhanced biogas production from anaerobic digestion of lignocellulosic biomass by different enhancement techniques , 2019, Process Biochemistry.

[15]  Dong-Hoon Kim,et al.  Continuous high-solids anaerobic co-digestion of organic solid wastes under mesophilic conditions. , 2011, Waste management.

[16]  Jay J. Cheng,et al.  Improving methane yield from organic fraction of municipal solid waste (OFMSW) with magnetic rice-straw biochar. , 2017, Bioresource technology.

[17]  H. W. Liu,et al.  Super blue box recycling (SUBBOR) enhanced two-stage anaerobic digestion process for recycling municipal solid waste: laboratory pilot studies. , 2002, Bioresource technology.

[18]  F. Bona,et al.  Is digestate safe? A study on its ecotoxicity and environmental risk on a pig manure. , 2016, The Science of the total environment.

[19]  I. S. Song,et al.  Enzymatic Hydrolysis of FoodWaste and Methane Production Using UASB Bioreactor , 2011 .

[20]  Charles J Banks,et al.  A pilot-scale comparison of mesophilic and thermophilic digestion of source segregated domestic food waste. , 2008, Water science and technology : a journal of the International Association on Water Pollution Research.

[21]  Fred O Agyeman,et al.  Anaerobic co-digestion of food waste and dairy manure: effects of food waste particle size and organic loading rate. , 2014, Journal of environmental management.

[22]  I. Watson,et al.  Township-based bioenergy systems for distributed energy supply and efficient household waste re-utilisation: Techno-economic and environmental feasibility , 2019, Energy.

[23]  J. Mota,et al.  Maize cob waste pre-treatments to enhance biogas production through co-anaerobic digestion with OFMSW. , 2018, Waste management.

[24]  M. Khojastehpour,et al.  Mesophilic co-digestion of municipal solid waste and sewage sludge: Effect of mixing ratio, total solids, and alkaline pretreatment , 2017 .

[25]  Muhammad Arshad,et al.  The anaerobic digestion of solid organic waste. , 2011, Waste management.

[26]  Paolo Pavan,et al.  Mesophilic and thermophilic anaerobic co-digestion of waste activated sludge and source sorted biowaste in pilot- and full-scale reactors. , 2013 .

[27]  Siddharth Jain,et al.  A comprehensive review on operating parameters and different pretreatment methodologies for anaerobic digestion of municipal solid waste , 2015 .

[28]  Zilin Song,et al.  Anaerobic codigestion of pretreated wheat straw with cattle manure and analysis of the microbial community. , 2015, Bioresource technology.

[29]  H. Carrère,et al.  Pretreatment and co-digestion of wastewater sludge for biogas production: Recent research advances and trends , 2019, Renewable and Sustainable Energy Reviews.

[30]  M Y Qian,et al.  Industrial scale garage-type dry fermentation of municipal solid waste to biogas. , 2016, Bioresource technology.

[31]  V. Tyagi,et al.  Anaerobic co-digestion of organic fraction of municipal solid waste (OFMSW): Progress and challenges , 2018, Renewable and Sustainable Energy Reviews.

[32]  A. Mohammadi,et al.  Environmental performance of end-of-life handling alternatives for paper-and-pulp-mill sludge: Using digestate as a source of energy or for biochar production , 2019, Energy.

[33]  B. Ahring,et al.  Strategies for the anaerobic digestion of the organic fraction of municipal solid waste: an overview. , 2006, Water science and technology : a journal of the International Association on Water Pollution Research.

[34]  C. Eskicioglu,et al.  Effect of dewatered sludge microwave pretreatment temperature and duration on net energy generation and biosolids quality from anaerobic digestion , 2019, Energy.

[35]  Jacqueline H. Ebner,et al.  Anaerobic co-digestion of commercial food waste and dairy manure: Characterizing biochemical parameters and synergistic effects. , 2016, Waste management.

[36]  Anil Kumar Patel,et al.  Co-digestion of food waste and sewage sludge for methane production: Current status and perspective. , 2018, Bioresource technology.

[37]  M. Shah,et al.  Co-digestion, pretreatment and digester design for enhanced methanogenesis , 2015 .

[38]  R. Bharagava,et al.  A new approach using an open-source low cost system for monitoring and controlling biogas production from dairy wastewater , 2019 .

[39]  Yongzhong Feng,et al.  Review on research achievements of biogas from anaerobic digestion , 2015 .

[40]  S. Luostarinen,et al.  Co-digestion of dairy cattle slurry and industrial meat-processing by-products--effect of ultrasound and hygienization pre-treatments. , 2012, Bioresource technology.

[41]  Xiujin Li,et al.  Improving Biodegradability and Biogas Production of Corn Stover through Sodium Hydroxide Solid State Pretreatment , 2008 .

[42]  Bryan M. Jenkins,et al.  Anaerobic Digestion technologies for the treatment of Municipal Solid Waste , 2012 .

[43]  B. Dubey,et al.  A critical review on operating parameters and strategies to improve the biogas yield from anaerobic digestion of organic fraction of municipal solid waste , 2019, Renewable Energy.

[44]  R. Borja,et al.  Mesophilic anaerobic co-digestion of the organic fraction of municipal solid waste with the liquid fraction from hydrothermal carbonization of sewage sludge. , 2018, Waste management.

[45]  Nicolae Scarlat,et al.  Biogas: Developments and perspectives in Europe , 2018, Renewable Energy.

[46]  Chi‐Hwa Wang,et al.  Anaerobic digestion and gasification hybrid system for potential energy recovery from yard waste and woody biomass , 2017 .

[47]  S. Ergas,et al.  Biogas production from high solids anaerobic co-digestion of food waste, yard waste and waste activated sludge. , 2019, Waste management.

[48]  Giorgio Mossa,et al.  Energy Recovery from the Organic Fraction of Municipal Solid Waste: A Real Options-Based Facility Assessment , 2018 .

[49]  A. Grosser Determination of methane potential of mixtures composed of sewage sludge, organic fraction of municipal waste and grease trap sludge using biochemical methane potential assays. A comparison of BMP tests and semi-continuous trial results , 2018 .

[50]  Sanjay K. S. Patel,et al.  Conversion of simulated biogas to electricity: Sequential operation of methanotrophic reactor effluents in microbial fuel cell , 2019 .

[51]  Jian Shi,et al.  Enhancing the solid-state anaerobic digestion of fallen leaves through simultaneous alkaline treatment. , 2011, Bioresource technology.

[52]  Ian M. O'Hara,et al.  Environmental and economic life cycle assessment of energy recovery from sewage sludge through different anaerobic digestion pathways , 2017 .

[53]  B. Chatterjee,et al.  Role of stage-separation in the ubiquitous development of Anaerobic Digestion of Organic Fraction of Municipal Solid Waste: A critical review , 2019, Renewable and Sustainable Energy Reviews.

[54]  P. Torres-Lozada,et al.  The potential of methane production using aged landfill waste in developing countries: A case of study in Colombia , 2019, Cogent Engineering.

[55]  Gaihe Yang,et al.  Effects of Temperature and Carbon-Nitrogen (C/N) Ratio on the Performance of Anaerobic Co-Digestion of Dairy Manure, Chicken Manure and Rice Straw: Focusing on Ammonia Inhibition , 2014, PloS one.

[56]  S. Vakalis,et al.  Anaerobic digestion for energy production from agricultural biomass waste in Greece: Capacity assessment for the region of Thessaly , 2020 .

[57]  Long Lin,et al.  Improving the sustainability of organic waste management practices in the food-energy-water nexus: A comparative review of anaerobic digestion and composting , 2018, Renewable and Sustainable Energy Reviews.

[58]  I. Angelidaki,et al.  Co-digestion and model simulations of source separated municipal organic waste with cattle manure under batch and continuously stirred tank reactors , 2018 .

[59]  F. Pirozzi,et al.  Anaerobic co-digestion of organic wastes , 2012, Reviews in Environmental Science and Bio/Technology.

[60]  Irini Angelidaki,et al.  Submersible microbial desalination cell for simultaneous ammonia recovery and electricity production from anaerobic reactors containing high levels of ammonia. , 2015, Bioresource technology.

[61]  M. Pérez,et al.  Temperature-phased anaerobic digestion of Industrial Organic Fraction of Municipal Solid Waste: A batch study , 2015 .

[62]  V. Eijsink,et al.  Synergistic effects of anaerobic co-digestion of whey, manure and fish ensilage. , 2018, Bioresource technology.

[63]  Mostafa Warith,et al.  Anaerobic digestion of organic fraction of municipal solid waste combining two pretreatment modalities, high temperature microwave and hydrogen peroxide. , 2012, Waste management.

[64]  T. Tan,et al.  The anaerobic co-digestion of food waste and cattle manure. , 2013, Bioresource technology.

[65]  Antoni Sánchez,et al.  A state of the art literature review on anaerobic digestion of food waste: influential operating parameters on methane yield , 2017, Reviews in Environmental Science and Bio/Technology.

[66]  J. Baeyens,et al.  Principles and potential of the anaerobic digestion of waste-activated sludge , 2008 .

[67]  Ajay S. Kalamdhad,et al.  Pre-treatment and anaerobic digestion of food waste for high rate methane production – A review , 2014 .

[68]  Chi‐Hwa Wang,et al.  Three-stage anaerobic co-digestion of food waste and horse manure , 2017, Scientific Reports.

[69]  Daniele Goi,et al.  BMP tests of source selected OFMSW to evaluate anaerobic codigestion with sewage sludge. , 2013, Waste management.

[70]  E. Koupaie,et al.  Comparison of liquid and dewatered digestate as inoculum for anaerobic digestion of organic solid wastes. , 2019, Waste management.

[71]  James D. Browne,et al.  Assessing the variability in biomethane production from the organic fraction of municipal solid waste in batch and continuous operation , 2014 .

[72]  Shahid Abbas Abbasi,et al.  The myth and the reality of energy recovery from municipal solid waste , 2018, Energy, Sustainability and Society.

[73]  Stuart J. Khan,et al.  Effects of thermal pre-treatment and recuperative thickening on the fate of trace organic contaminants during anaerobic digestion of sewage sludge , 2017 .

[74]  Pinjing He,et al.  Biochar alleviates combined stress of ammonium and acids by firstly enriching Methanosaeta and then Methanosarcina. , 2016, Water research.

[75]  A. Karlsson,et al.  Feasibility of OFMSW co-digestion with sewage sludge for increasing biogas production at wastewater treatment plants , 2017, Euro-Mediterranean Journal for Environmental Integration.

[76]  N. Zhu,et al.  Progress in inhibition mechanisms and process control of intermediates and by-products in sewage sludge anaerobic digestion , 2016 .

[77]  H. Carrère,et al.  Pretreatment methods to improve sludge anaerobic degradability: a review. , 2010, Journal of hazardous materials.

[78]  Zhiquan Hu,et al.  Batch anaerobic co-digestion of OFMSW (organic fraction of municipal solid waste), TWAS (thickened waste activated sludge) and RS (rice straw): Influence of TWAS and RS pretreatment and mixing ratio , 2016 .

[79]  A. Kalamdhad,et al.  Influence of pretreatment techniques on anaerobic digestion of pulp and paper mill sludge: A review. , 2017, Bioresource technology.

[80]  Xingbao Gao,et al.  Effect of thermal pretreatment on the physical and chemical properties of municipal biomass waste. , 2012, Waste management.

[81]  Yebo Li,et al.  Challenges and strategies for solid-state anaerobic digestion of lignocellulosic biomass , 2015 .

[82]  A. Xia,et al.  A critical review on anaerobic digestion of microalgae and macroalgae and co-digestion of biomass for enhanced methane generation. , 2018, Bioresource technology.

[83]  M. Sartaj,et al.  The toxicity effects of ammonia on anaerobic digestion of organic fraction of municipal solid waste. , 2018, Waste management.

[84]  N. Zhu,et al.  Enhancement of methane production from anaerobic digestion of waste activated sludge with choline supplement , 2019, Energy.

[85]  Yamrot M. Amha,et al.  Inhibition of anaerobic digestion processes: Applications of molecular tools. , 2018, Bioresource technology.

[86]  Elsayed Elbeshbishy,et al.  Comparative study of the effect of ultrasonication on the anaerobic biodegradability of food waste in single and two-stage systems. , 2011, Bioresource technology.

[87]  Jerry D. Murphy,et al.  What type of digester configurations should be employed to produce biomethane from grass silage , 2010 .

[88]  M. Fdz-Polanco,et al.  Theoretical methane production generated by the co-digestion of organic fraction municipal solid waste and biological sludge , 2014, Biotechnology reports.

[89]  Deepak Kumar Sahoo,et al.  Performance and kinetic study of semi-dry thermophilic anaerobic digestion of organic fraction of municipal solid waste. , 2015, Waste management.

[90]  Yebo Li,et al.  Solid-state anaerobic digestion for methane production from organic waste , 2011 .

[91]  P. Cormican,et al.  Inhibition of volatile fatty acids on methane production kinetics during dry co-digestion of food waste and pig manure. , 2018, Waste management.

[92]  E. Marañón,et al.  Co-digestion of cattle manure with food waste and sludge to increase biogas production. , 2012, Waste management.

[93]  X. Font,et al.  Valorisation of biowaste digestate through solid state fermentation to produce biopesticides from Bacillus thuringiensis. , 2019, Waste management.

[94]  Caixia Wan,et al.  Enhanced solid-state anaerobic digestion of corn stover by alkaline pretreatment. , 2010, Bioresource technology.

[95]  Sunil Kumar,et al.  Effect of calcium chloride on abating inhibition due to volatile fatty acids during the start-up period in anaerobic digestion of municipal solid waste , 2016, Environmental technology.

[96]  T. Tan,et al.  Reviewing the anaerobic digestion of food waste for biogas production , 2014 .

[97]  T. Kikas,et al.  Potential of bioethanol production waste for methane recovery , 2019, Energy.

[98]  Xiaochang C. Wang,et al.  Kinetic characterization of thermophilic and mesophilic anaerobic digestion for coffee grounds and waste activated sludge. , 2015, Waste management.

[99]  Vijayalakshmi Arelli,et al.  Dry anaerobic co-digestion of food waste and cattle manure: Impact of total solids, substrate ratio and thermal pre treatment on methane yield and quality of biomanure. , 2018, Bioresource technology.

[100]  K. S. Creamer,et al.  Inhibition of anaerobic digestion process: a review. , 2008, Bioresource technology.

[101]  G Perkoulidis,et al.  A multi-criteria ranking of different technologies for the anaerobic digestion for energy recovery of the organic fraction of municipal solid wastes. , 2009, Bioresource technology.

[102]  Rasool Bux Mahar,et al.  Fe3O4 nanoparticles facilitated anaerobic digestion of organic fraction of municipal solid waste for enhancement of methane production , 2017 .

[103]  M. Hassan,et al.  High solid anaerobic co-digestion of household organic waste with cow manure for mass and energy recovery , 2016 .

[104]  M. Cammarota,et al.  Enhanced Biogas Production in Pilot Digesters Treating a Mixture of Sewage Sludge, Glycerol, and Food Waste , 2018 .

[105]  Chi‐Hwa Wang,et al.  A hybrid biological and thermal waste-to-energy system with heat energy recovery and utilization for solid organic waste treatment , 2018, Energy.

[106]  Fabricio Nápoles-Rivera,et al.  Optimization of biogas supply chain in Mexico considering economic and environmental aspects , 2019, Renewable Energy.

[107]  M. V. van Loosdrecht,et al.  PHA production from the organic fraction of municipal solid waste (OFMSW): Overcoming the inhibitory matrix. , 2016, Water research.

[108]  Rajinikanth Rajagopal,et al.  A critical review on inhibition of anaerobic digestion process by excess ammonia. , 2013, Bioresource technology.

[109]  Ann E. Reisner,et al.  Compliance with household solid waste management in rural villages in developing countries , 2018, Journal of Cleaner Production.

[110]  M. Carballa,et al.  A combination of ammonia stripping and low temperature thermal pre-treatment improves anaerobic post-digestion of the supernatant from organic fraction of municipal solid waste treatment. , 2018, Waste management.

[111]  Hongtao Wang,et al.  Microbial characteristics in anaerobic digestion process of food waste for methane production-A review. , 2018, Bioresource technology.

[112]  Yebo Li,et al.  Anaerobic digestion of food waste - Challenges and opportunities. , 2018, Bioresource technology.

[113]  Qi Zhou,et al.  Effects of total solids content on performance of sludge mesophilic anaerobic digestion and dewaterability of digested sludge. , 2017, Waste management.

[114]  T. Toda,et al.  Effects of particle size on anaerobic digestion of food waste , 2010 .

[115]  Federico Sisani,et al.  Replacement of energy crops with bio-waste in existing anaerobic digestion plants: An energetic and environmental analysis , 2018, Energy.

[116]  Dieter Deublein,et al.  Biogas from Waste and Renewable Resources: An Introduction , 2008 .

[117]  L. H. Hagen,et al.  Biogas production from food waste via co-digestion and digestion- effects on performance and microbial ecology , 2017, Scientific Reports.

[118]  Atul Kumar,et al.  A review on technological options of waste to energy for effective management of municipal solid waste. , 2017, Waste management.

[119]  E. Trably,et al.  Kinetic study of dry anaerobic co-digestion of food waste and cardboard for methane production. , 2017, Waste management.

[120]  Zheng Zheng,et al.  A preliminary study of simultaneous lime treatment and dry digestion of smooth cordgrass for biogas production , 2011 .

[121]  Ryan Clemmer,et al.  Design of an organic waste power plant coupling anaerobic digestion and solid oxide fuel cell technologies , 2017 .

[122]  Rafael Borja,et al.  Anaerobic digestion of solid organic substrates in batch mode: An overview relating to methane yields and experimental procedures , 2012 .