This book is a novel attempt at describing the fundamental aspects of and advancements in the field of biohythane production. The comprehensive collection of chapters is based on the fundamentals of heterotrophic hydrogen production and consequent methane production technologies. Emphasis is on the integration of two stages of a hybrid system for maximum gaseous energy generation from organic wastes, thus making the overall process economically viable. Readers get insight into the technological advancements made in the field of biohydrogen and biomethane production and the challenges involved in integrating these two technologies. The book also includes details of the microbiological, biochemical, and bioprocess aspects related to biohythane production, in addition to the applicability of this process, its socioeconomic concerns, and cost energy analysis, supplemented with illustrative diagrams, flowcharts, and comprehensive tables. It will be an ideal vade mecum for advanced undergraduate- and graduate-level students of biotechnology, microbiology, biochemical engineering, chemical engineering, and energy engineering; teachers and researchers in bioenergy, the environment, and biofuel production; and policy makers.
Fit Fuel: A Chef’s Guide To Eating Well, Getting Fit, And Living Your Best ...
Fuel For Life
Fuel Cell Fundamentals
Solid Oxide Fuel Cell Components
Micro & Nano-Engineering of Fuel Cells
Small-Scale Gas to Liquid Fuel Synthesis
Dual-Fuel Diesel Engines
Enzymatic Fuel Cells: From Fundamentals to Applications
Materials for Low-Temperature Fuel Cells
Electrocatalysis in Fuel Cells: A Non- and Low- Platinum Approach
Nanostructured and Advanced Materials for Fuel Cells
Fuels and Fuel-additives
Alcohol Fuel: A Guide to Making and Using Ethanol as a Renewable Fuel
PEM Fuel Cell Testing and Diagnosis
Fuel Cells: Current Technology Challenges and Future Research Needs