Explore a Major Component of Renewable EnergyIntroduction to Bioenergy takes a look at energy from biomass (thermal energy, power, liquid fuels, and biogas) and envisions a sustainable future fueled by renewable energy. From production to conversion to heat, power, and biofuel, this book breaks down the science of bioenergy and explains the major processes for its production, conversion, and use.Covers Solar Energy, Bioenergy, and Biomass ResourcesThe book begins with an introduction to solar energy (the source of bioenergy) and then moves on to describe bioenergy, biomass, chemical conversion, and the renewable energy processes involved. The authors cover measurement energy parameters, analysis of data, and the prediction of energy production for different bio products. They also consider the institutional, environmental, and economic concerns surrounding bioenergy. An all-inclusive resource covering a rapidly-advancing field, this book:Explores the impact of climate change and global warming on the production of biomassDescribes the positive and negative effects of biomass production on ecosystems and biodiversityIllustrates the use of biomass for the production of electricityConsiders the replacement of fossil fuels with biofuels, biofuel production, and emerging technologiesAddresses institutional and environmental issues relevant to bioenergyDiscusses factors impacting the economic feasibility of renewable energy systemsIntroduction to Bioenergy defines major processes for the production, conversion, and use of bioenergy. A book suitable for coursework or self-study, this essential work serves students and practicing professionals in the renewable energy, environmental science, agriculture engineering, and biology fields.
This book covers numerous sources of bioenergy (collected and converted energy from the sun, the original source), the biomass resource (plants, crops, and forests). Different conversion processes are described for converting biomass to heat, power/electricity, and biofuels. The measurement (instrumentation) energy parameters, analysis of data, and prediction of energy production are also discussed as well as the economics of bioenergy. Institutional issues from local to national are discussed, along with environmental concerns, regulations, and incentives.