Phytoremediation Potential of Bioenergy Plants (PDF)

Management & Sustainable Development, and Environmental Law & Legislation. He serves as a reviewer for several international journals such as Fuel, Energy, Renewable Energy, Renewable & Sustainable Energy Reviews, Energy & Fuels, Journal of Cleaner Production, Materials Chemistry and Physics, Biofuel Research Journal, Oceanologia, and Journal of Agricultural Biotechnology and Sustainable Development. Dr. Singh is also Treasurer of the Ranchi Chapter of the Society "Professor HS Srivastava Foundation for Science and Society". His current interests lie in the application of biodiesel synthesis from plant oil and algal biomass, the development of heterogeneous and green catalysts, and the corrosive aspects of biodiesel fuel. Dr. Bhaskar has co-edited one book with Springer titled "Algae and Environmental Sustainability" along with Dr. Kuldeep Bauddh and Prof. Faizal Bux. His publications include 33 research and review papers in peer-reviewed and high-impact international journals, as well as 7 book chapters with reputed international publishers.


Professor John Korstad is a Professor of Biology and Past Director of the Honors Program at Oral Roberts Univ. in Tulsa, Oklahoma (USA). His educational background includes a BA in Geology and BS in Biology from Calif. Lutheran Univ., an MS in Environmental Science from Cal. State Hayward, and an MS and Ph.D. in Zoology from the Univ. of Michigan. His specialty is limnology (lake ecology), with specific expertise in nutrient-phytoplankton (microalgae)-zooplankton interactions. He has vast experience in aquaculture, including two sabbatical years conducting research at The Foundation for Scientific and Industrial Research (SINTEF) in Trondheim, Norway, which resulted in three published and numerous technical publications. He began pursuing algae to biofuels research during his Fall 2009 sabbatical leave. His goal is to bring together various industries like local oil refineries, electrical power plants, and cement factories that produce carbon dioxide waste, local industries like waste management landfills, and city sewage treatment plants with high nutrient loads in their waste water, in order to cultivate algae for biofuels. The algae would improve the air and water quality by taking up the waste CO2 and nutrients, while also providing a feedstock for biodiesel and/or 'high-end' products like omega-3 fatty acids. This would essentially be a win-win-win situation, and would hopefully develop into a vibrant industry that brings added jobs and revenue to the areas adopting it.