Abstract View

Author(s): Mona Tandon1, Shailesh Kumar Jadhav2, Kishan Lal Tiwari3

Email(s): 1jadhav9862@gmail.com


    S.o.S. in Biotechnology, Pt. Ravishankar Shukla University, Raipur (C.G.) 492 010, India.

Published In:   Volume - 1,      Issue - 2,     Year - 2019

DOI: 10.52228/NBW-JAAB.2019-1-2-6  

 View HTML        View PDF

Please allow Pop-Up for this website to view PDF file.

Biomass is the chief source of bio-hydrogen production which includes agricultural crops as well as their residues, various effluents generated in human habitat, aquatic plants and algae, and by-products released during food processing. Bio-hydrogen is selectively produced from biomass because of its cost-effectiveness, easy availability, high carbohydrate content and their ease of biodegradability. This research paper includes optimization of pH and temperature on bio-hydrogen producing capacity and their effect on bacterial growth.

Cite this article:
Mona Tandon, Shailesh Kumar Jadhav and Kishan Lal Tiwari (2019) Optimization of pH and temperature for efficient bio-hydrogen production from lignocellulosic waste. NewBioWorld A Journal of Alumni Association of Biotechnology 1(2):28-32.DOI: https://doi.org/10.52228/NBW-JAAB.2019-1-2-6


Chaudhary A, Thakur V, Quraishi A, Jadhav SK (2015) Isolation and characterization of biohydrogen producing bacteria from rice bran with optimization of different parameters. International Journal of Biomass and Renewables, 4:10-14.

Chen CY, Yang MH, Yeh KL, Liu CH, Chang JS (2008) Biohydrogen production using sequential two-stage dark and photo fermentation processes. International Journal of Hydrogen Energy, 33:4755-62.

Chittibabu G, NathK,Das D (2006) Feasibility studies on the fermentative hydrogen production by recombinant Escherichia coli BL-21. Process Biochemistry, 41:682-68.

Chou CJ, Jenney Jr.FE, Adams MWW, Kelly RM (2008) Hydrogenesis in hyperthermophilic microorganisms: Implications for biofuels. Metabolic Engineering, 10: 394-404.

Das D, Veziroglu TN(2001) Hydrogen production by biological processes a survey of the literature. International Journal of Hydrogen Energy, 26:13-28.

Haridoss S (2016) Studies on biohydrogen production from rice mill wastewater using Enterobacter aerogenes MTCC 2822 by the dark fermentation process.Journal of Petroleum and Environmental Biotechnology, 7:312-315.

Homann PH (2003) Hydrogen metabolism of green algae: discovery and early research- a tribute to Hans Gaffron and his coworkers. Photosynthesis Research, 76:93-103.

Kotay SM, Das D (2006) Studies on maximization of microbial production of hydrogen from pretreated sewage sludge IIChE- Chemcon, Ankleshwar, India.

Lee DJ, Show KY, Su A (2011) Dark fermentation on biohydrogen production: pure culture. Bioresource Technology, 102:8393-402.

Liu IC, Whang LM, Ren WJ, Lin PY (2011) The effect of pH on the production of biohydrogen by Clostridia: Thermodynamic and metabolic considerations. International Journal of Hydrogen Energy, 36:439-449.

Lo YC, Chen CY, Lee CM, Chang JS (2010) Sequential dark-photo fermentation and autotrophic microalgal growth for high-yield and CO2-free biohydrogen production. International Journal of Hydrogen Energy, 35:10944-53.

Manish S, Banerjee R (2008) Comparison of biohydrogen production processes. International Journal of Hydrogen Energy, 33: 279–86.

Martinez-Porqueras E, Rittmann S, Herwig C (2013) Analysis of H2 to CO2 yield and physiological key parameters of Entero bacteraerogenes and Caldicellulosiruptor saccharolyticus. International Journal of Hydrogen Energy, 38:10245-51.

Mohan SV, Babu VL, Sharma PN (2007) Anaerobic biohydrogen production from dairy wastewater treatment in sequencing batch reactor (AnSBR): Effect of organic loading rate. Enzyme and Microbial Technology, 41:506-515.

Mohan SV, Babu VL, Sharma VL (2008) Effect of various pretreatment methods on anaerobic mixed microflora to enhance biohydrogen production utilizing dairy wastewater as substrate. Bioresource Technology, 99:59-67.

Mu Y, Yang HY, Wang YZ, He CS, Zhao QB, Wang Y, Yu HQ (2014) The maximum specific hydrogen producing activity of anaerobic mixed cultures: definition and determination. Scientific Reports, 4:5239-5245.

Nath K, Das D (2004) Improvement of fermentative hydrogen production: various approaches. Applied Microbiology and Biotechnology, 65:520-529.

Pachapur VL, Kutty P, Brar SK, Ramirez AA (2016) Enrichment of secondary wastewater sludge for production of hydrogen from crude glycerol and comparative evaluation of mono-, co- and mixed-culture systems. International Journal of Molecular Sciences, 17:92-105.

Prescott L M, Harley JP (2002) Laboratory Exercises in Microbiology, Fifth edition: TMH Companies.

Redwood MD, Orozco RL, Majewski AJ, Macaskie LE (2012) Electro-extractive fermentation for efficient biohydrogen production. Bioresource Technology, 107: 166–74.

Ren NQ, Chua H, Chan SY, Tsang YF, Wang YJ, Sin N (2007) Assessing optimal fermentation type for bio-hydrogen production in continuous flow acidogenic reactors. Bioresource Technology, 98:1774-1780.

Rittmann S, Herwig C (2012) A comprehensive and quantitative review of dark fermentative biohydrogen production. Microbial Cell Factories, 11:115-132.

Shridevi K, Preetha B (2015) Effect of initial pH on biohydrogen production using distillery wastewater by batch process.Journal of Chemical and Pharmaceutical Sciences, 8: 148-151.

Shukla G, Thakur V, Jadhav SK (2015) Biohydrogen production from rice mill wastes by Clostridium acetobutylicum NCIM 2877. World Journal of Engineering, 12:383-390.

Thakur V, Tiwari KL, Quraishi A, Jadhav SK (2012) Biohydrogen production from rice mill effluent. Journal of Applied Sciences in Environmental Sanitation, 7:237-240.

Verhaart MRA, Bielen AAM, Vander OJ, Stams AJM, Kengen SWM (2010) Hydrogen production by hyperthermophilic and extremely thermophilic bacteria and archaea: mechanisms for reductant disposal. Environmental Technology, 31:993-1003.

Zanchetta C, Patton B, Guella G, MiotelloA(2007) An integrated apparatus for production and measurement of molecular hydrogen. Measurement Science and Technology, 18:21-26.

Zhang ML, Fan YT, Xing Y, Pan CM, Zhang GS, Lay JJ (2007) Enhanced biohydrogen production from cornstalk wastes with acidification pre-treatment by mixed anaerobic cultures. Biomass and Bioenergy, 31:250-254.

Related Images:

Recent Images

Therapeutic Use of Some Common Medicinal Plants for the Treatment of Major Life Style Diseases of Chhattisgarh
Butterflies and Their Conservation Status on the Campus of Sant Guru Ghasidas Government P.G. College Kurud, Chhattisgarh, India
Fermentation of Tomato Juice with S. cerevisiae has enhanced nutrition and shelf-life
Review on double haploid in rice plant (Oryza sativa L.)
A  Review of Clinical Aspect of Dhatura: According to Ayurveda
An aphid transmitted banana bunchy top disease of banana and its detection: A Review
Comparative Evaluation of In Vitro Antimicrobial Efficacy of different Species of Curcuma against Human Pathogenic Bacteria
Phytoremediation: A Sustainable Approach to Combat Heavy Metal Contaminated Soil - A Review
A brief overview of plant abiotic stresses
Formulation and Evaluation of Herbal Toothpaste against Biofilm Producing Staphylococcus aureus


Recomonded Articles:

Author(s): Mona Tandon; Shailesh Kumar Jadhav; Kishan Lal Tiwari

DOI: 10.52228/NBW-JAAB.2019-1-2-6         Access: Open Access Read More

Author(s): Mona Tandon; Veena Thakur; Kunjlata Sao; Shailesh Kumar Jadhav

DOI: 10.52228/NBW-JAAB.2019-1-1-1         Access: Open Access Read More