Biogas production from locally available aquatic weeds of Santiniketan through anaerobic digestion

Abbasi SA, Nipaney PC, Schaumberg GD (1990) Bioenergy potential of eight common aquatic weeds. Biol Waste 34:359–366

Achmad KTB, Hidayati YA, Fitriani D, Imanudin O (2011) The effect of C/N ratios of a mixture of beef cattle feces and water hyacinth (Eichhornia crassipes) on the quality of biogas and sludge. Lucrări Ştiinţifice 55:117–120

Amani T, Nosrati N, Sreekrishnan TR (2011) A precise experimental study on key dissimilarities between measophillic and thermophillic anaerobic digestion of waste activated sludge. Int J Environ Res Publ Health 5(2):333–342

Anand V, Chanakya HN, Rajan MGC (1991) Solid-phase fermentation of leaf biomass to biogas. Resour Conserv Recycl 6:23–33

APHA, AWWA, WPCE (1985) Standard methods for the examination of water and wastewater. 16th ed. APHA, Washington, DC

Bhadouria BS, Sai VS (2011) Utilization and treatment of dairy effluent through biogas generation- a case study. Int J Environ Sci 1:1621–1630

Chakrabarty S, Boksh FIMM, Chakraborty A (2013) Economic viability of biogas and green self-employment opportunities. Renew Sust Energ Rev 28:757–766

Chandra R, Takeuchi H, Hasegawa T (2012) Methane production from lignocellulosic agricultural crop wastes: a review in context to second generation biofuel production. Renew Sust Energ Rev 16:1462–1476

Chin KK, Goh TN (1978) Bioconversion of solar energy: methane production through water hyacinth. Symp Energy Biomass Waste 78:215–228

Doraisamy P, Nandakumar NB, Maheswari M, Selvamurugan M (2013) Comparative performance of anaerobic reactors for treatment of sago industry wastewater. Clean Technol Environ Policy 15:391–394

Ferrer I, Palatsi J, Campos E, Flotats X (2010) Mesophilic and thermophillic anaerobic biodegradability of water hyacinth pre-treated at 80 °C. Waste Manag 30(10):1763–1767

Geeta GS, Jagadeesh KS, Reddy TK (1990) Nickel as an accelerator of biogas production in water hyacinth (Eichhornia crassipes Solms.). Biomass 21:157–161

Hackett WC, Thompson OC (1991) Biofermentation pilot study for water hyacinth and gizzard shad composting. Spec Publ SJ 91–SP13

Jayaweera MW, Dilhani JA, Kularatne RK, Wijeyekoon SL (2007) Biogas production from water hyacinth (Eichhornia crassipes (Mart.) Solms) grown under different nitrogen concentrations. J Environ Sci Health A 42(7):925–932

Kameswari KSB, Kalyanaraman C, Porselvam S, Thanasekaran K (2012) Optimization of inoculum to substrate ratio for bioenergy generation in co-digestion of tannery solid wastes. Clean Technol Environ Policy 14:241–250

Kivaisi AK, Mtila M (1998) Production of methane from water hyacinth (Eichornia crassipes) in a two stage bioreactor. World J Micobiol Biotechnol 14:125–131

Kumar S (2005) Studies on efficiencies of bio-gas production in anaerobic digesters using water hyacinth and night-soil alone as well as in combination. Asian J Chem 17:934–938

Kunatsa T, Madiye L, Chikuku T, Shonhiwa C, Musademba D (2013) Feasibility study of biogas production from water hyacinth A case of Laka Chivero- Harare, Zimbabwe. Int J Eng Technol 3:119–128

Liu A, Xu S, Lu C, Peng P, Zhang Y, Feng D, Liu Y (2014) Anaerobic fermentation by aquatic product wastes and other auxiliary materials. Clean Technol Environ Policy 16:415–421

Malik A (2007) Environmental challenge vis a cis opportunity: the case of water hyacinth. Environ Int 33:122–138

Manni G, Caron F (1995) Calibration and determination of volatile fatty acids in waste leachates by gas chromatography. J Chromatogr A 690:237–242

Marousek J, Kondo Y, Ueno M, Kawamitsu Y (2013) Commercial-scale utilisation of greenhouse residues. Biotechnol Appl Biochem 60(2):253–258

Mathew AK, Chaney K, Crook M, Humphries AC (2011) Dilute acid pre-treatment of oilseed rape straw for bioethanol production. Renew Energy 36:2424–2432

Moorhead KK, Nordstedt RA (1993) Batch anaerobic digestion of water hyacinth: effects of particle size, plant nitrogen content and inoculum volume. Bioresour Technol 44:71–76

Nataraja K (2008) Feasibility of using Salvinia molesta (D. S. Mitchell) for composting, vermicomposting and biogas generation. MSc Thesis submitted to the University of Agricultural Sciences Dharwad

Navarro AR, Rubio MC, Maldonado MC (2012) A combined process to treat lemon industry wastewater and produce biogas. Clean Technol Environ Policy 14:41–45

O’Sullivan C, Rounsefell B, Grinham A, Clarke W, Udy J (2010) Anaerobic digestion of harvested aquatic weeds: water hyacinth (Eichhornia crassipes), cabomba (Cabomba caroliniana) and salvinia (Salvinia molesta). Ecol Eng 36:1459–1468

Ojha K (2010) Need of independent rural power producers in India—an overview. Clean Technol Environ Policy 12:495–501

Patel VB, Patel AR, Patel MC, Madamwar DB (1993) Effect of metals on anaerobic digestion of water hyacinth-cattle dung. Appl Biochem Biotechnol 43:45–50

Patil JH, Raj MA, Gavimath CC, Hooli VR (2011) A comparative study on anaerobic co-digestion of water hyacinth with poultry litter and cow dung. Int J Chem Sci Appl 2(2):148–155

Petrell RJ, Bagnall LO (1991) Hydromechanical properties of water hyacinth mats. Aquacult Eng 10:133–147

Prajapati SK (2013) Biogas production potential of algae through codigestion with cow dung. J Pet Environ Biotechnol 4(6):215

Rao PV, Baral SS, Dey R, Mutnuri S (2010) Biogas generation potential by anaerobic digestion for sustainable energy development in India. Renew Sust Energ Rrv 14(7):2086–2094

Reddy KR, Debusk WF (1985) Growth characteristics of aquatic macrophytes cultured in nutrient-enriched water: II. Azolla, Duckweed, and Salvinia. Econ Bot 39(2):200–208

Senior E (1990) Microbiology of Landfill Sites. CRC Press Inc., Boca Raton, FL, P 220

Singh K, Jash T (2014) Performance analysis of micro-turbine based grid connected biogas power plant in Purulia in West Bengal, India. Clean Technol Environ Policy. doi: 10.1007/s10098-014-0838-0

Sunarso S, Budiyono B, Sumardiono S (2010) Biogas production using anaerobic biodigester from casava starch effluvent 1(2):33–37

Tag El-Din AR (1992) Utilization of water hyacinth hay in feeding of growing sheep. Indian J Anim Sci 62(10):989–992

Vaidyanathan S, Kavadia KM, Shroff KC, Mahajan SP (1985) Biogas production in batch and semicontinuous digesters using water hyacinth. Biotechnol Bioeng 27:905–908

Wilkie AC, Riedesel KJ, Owens JM (2000) Stillage characterization and anaerobic treatment of ethanol stillage from conventional and cellulosic feed stocks. Biomass Bioenergy 19:63–102