Energy Development for Sustainability

Edited by
May 2022
310 pages
  • ISBN978-3-0365-4113-6 (Hardback)
  • ISBN978-3-0365-4114-3 (PDF)

This book is a reprint of the Special Issue Energy Development for Sustainability that was published in

Business & Economics
Environmental & Earth Sciences
Social Sciences, Arts & Humanities

Recently, energy development has received significant attention through the promising results of technology development, experimentation, computational modeling, and validation. However, it remains a persistent challenge to produce the needed energy while significantly reducing the environmental effects, such as the emission of greenhouse gases, which lead to climate change. Moreover, technological and economic limitations may also hinder energy development for sustainability. This book entitled Energy Development for Sustainability covers technologies, products, equipment, and devices as well as energy services based on software and data protected by patents and/or trademarks. This book will serve as a collection of the latest scientific and technological approaches to various energy development initiatives for sustainability encompassing novel sonocatalytic application and integrated algal and sludge-based wastewater treatment system, energy storage, sustainable building, gas absorption, organosolv pretreatment, energy usage and CO2 emission in transportation, coal regulation for energy, solar photovoltaic system, torrefaction for fuel production, energy management system, clean energy incubator, biofuels from microalgae, and the influence of COVID-19 on climate change. Overall, this book addresses researchers, advanced students, technical consultants, as well as decision-makers in industries and politics. This book contains comprehensive overview and in-depth technical research papers addressing recent progress in the area of energy development for sustainability. We hope the readers will enjoy this book.

  • Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
multi-objective optimization; bioenergy; biomass; microalgae; sludge; wastewater; algae; biofuel production; environmental policy; life cycle assessment; clean energy incubator; core competitiveness evaluation; matter-element extension; TOPSIS; KPCA; NSGA-II; LSSVM; smart grid; time-of-use; demand bidding program; battery energy storage system; direct search method; sorghum distilled residue; thermogravimetric analysis; torrefaction kinetics; biomass and bioenergy; particle swarm optimization (PSO); biochar; LMDI decomposition; spatiotemporal analysis; ASEAN; climate change; CO2 emissions; light trapping; zero-depth concentrator; light reflection; internal-cell spacing; energy system; coal regulation; pollution abatement; environmental benefits; health benefits; transport; spatial LMDI; emissions; Philippines; Google Maps; transportation; energy use; emissions; modeling; vehicle flow; organosolv pretreatment; delignification; fractionation; organic solvent; degraded empty fruit bunch; climate change; COVID-19; CO2; fossil fuel; Malaysia; metal–organic framework; MIL-101; solvent free; adsorption; carbon dioxide; air conditioner; cooling load; heat conduction; residential building; roof insulation; roof tile color; solar reflectance; metal–air battery; carbon particles; biomass waste; electro-catalyst; g-C3N4; carbon composite; coconut shell husk; characteristic; sonocatalytic degradation; malachite green