P
P.W. Ramteke
Researcher at University of Agriculture, Faisalabad
Publications - 22
Citations - 542
P.W. Ramteke is an academic researcher from University of Agriculture, Faisalabad. The author has contributed to research in topics: Cellulase & Dark fermentation. The author has an hindex of 8, co-authored 20 publications receiving 281 citations.
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Journal ArticleDOI
Nanoengineered cellulosic biohydrogen production via dark fermentation: A novel approach.
Neha Srivastava,Manish Srivastava,Bansi D. Malhotra,Vijai Kumar Gupta,P.W. Ramteke,Roberto Nascimento Silva,Pratyoosh Shukla,Kashyap Kumar Dubey,Pradeep Kumar Mishra +8 more
TL;DR: The insights of nanotechnology for cellulosic biohydrogen production through dark fermentation are reviewed and recent advancements and feasibility of nanomaterials as the potential solution for improved cellulose conversion to the bioHydrogen production process have been discussed, and this is likely to assist in developing an efficient, economical and sustainable bio Hydrogen production technology.
Journal ArticleDOI
Advances in nanomaterials induced biohydrogen production using waste biomass.
Neha Srivastava,Manish Srivastava,P.K. Mishra,Mohd Adnan Kausar,Mohd Saeed,Vijai Kumar Gupta,Rajeev Singh,P.W. Ramteke +7 more
TL;DR: Impact of nanomaterials on cellulosic biohydrogen production, possible pretreatment technology, as well as improved enzyme & sugar production in order to enhance the bioHydrogen yield are focused on.
Journal ArticleDOI
Efficient dark fermentative hydrogen production from enzyme hydrolyzed rice straw by Clostridium pasteurianum (MTCC116).
Neha Srivastava,Manish Srivastava,Deepika Kushwaha,Vijai Kumar Gupta,Ambepu Manikanta,P.W. Ramteke,Prashant Mishra +6 more
TL;DR: The efficiency of the process illustrates that using this hydrolyzate, Clostridium pasteurianum (MTCC116) could produce cumulative hydrogen of 2580ml/L in 144h with the maximum production rate of 23.96 ml/L/h in 96h.
Application of Cellulases in Biofuels Industries: An Overview
TL;DR: The present review provides an overview on cellulase, main aspects of cellulase production and present scenario of cellulases production in the biofuels industry.
Journal ArticleDOI
A novel strategy to enhance biohydrogen production using graphene oxide treated thermostable crude cellulase and sugarcane bagasse hydrolyzate under co-culture system.
TL;DR: Graphene oxide (GO) treated thermostable crude cellulase has been obtained via fungal co-cultivation of strain Cladosporium cladosporioides NS2 and Emericella variecolor NS3 using mix substrate of orange peel and rice straw under solid state fermentation (SSF).