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Energy and the environment are irrevocably interrelated, and they are critical factors that influence the development of societies. The pollution of the environment without considering various consequences has become one of the most important global issues today. This environmental pollution is mainly the result of increases in economic activities, population, transportation, electricity generation, agriculture, forestry, and land use. The exigency of energy for these activities, the rapidly rising price of petroleum oil, the harmful effect of greenhouse gases, and the quest for energy security have steered our attention towards sustainable sources of energy. It is fundamental to find innovative solutions that are sustainable from the perspective of energy management and environmental protection. This book includes three review articles which review the state-of-the-art of different sustainable energy resources. These articles include ammonia as a renewable energy carrier, integration of solar photovoltaic, and bio-oil from waste tires for automotive engine application. In addition, eight research studies reveal new knowledge about energy for a sustainable future. The topics covered span many diverse areas associated with sustainable energy, including various biofuels, photovoltaic, and other aspects of sustainability. These complementary contributions provide a substantial body of knowledge in the field of Renewable and Sustainable Energy.

heterogeneous catalyst --- hydrodeoxygenation (HDO) --- zinc --- phenol --- bio-oil --- technical --- economic --- institutional --- policy --- pumped hydro storage --- geothermal heat exchangers --- combined arrangement --- operation analysis --- solar home systems --- rural households --- energy transitions --- energy access --- bio-jet fuel --- microwave-assisted transesterification --- RSM --- ANN --- optimization --- coconut oil --- scenario analysis --- scenario generation --- weather influence --- coal decommissioning --- high PV penetration --- energy balance --- CO2 reduction --- urban air quality --- PM2.5 --- PM10 --- particle emission sources --- focus group discussion --- sustainability --- renewable energy development --- Indonesia --- geothermal --- maintenance strategy --- sustainable maintenance --- ABCD procedure --- strategic sustainable development --- transformer failures --- ammonia --- renewable energy storage --- hydrogen storage --- waste tyre --- waste management --- pyrolysis --- automobile engine --- n/a

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Biomass can be used to produce renewable electricity, thermal energy, transportation fuels (biofuels), and high-value functional chemicals. As an energy source, biomass can be used either directly via combustion to produce heat or indirectly after it is converted to one of many forms of bioenergy and biofuel via thermochemical or biochemical pathways. The conversion of biomass can be achieved using various advanced methods, which are broadly classified into thermochemical conversion, biochemical conversion, electrochemical conversion, and so on. Advanced development technologies and processes are able to convert biomass into alternative energy sources in solid (e.g., charcoal, biochar, and RDF), liquid (biodiesel, algae biofuel, bioethanol, and pyrolysis and liquefaction bio-oils), and gaseous (e.g., biogas, syngas, and biohydrogen) forms. Because of the merits of biomass energy for environmental sustainability, biofuel and bioenergy technologies play a crucial role in renewable energy development and the replacement of chemicals by highly functional biomass. This book provides a comprehensive overview and in-depth technical research addressing recent progress in biomass conversion processes. It also covers studies on advanced techniques and methods for bioenergy and biofuel production.

oxidation stability --- power density --- lipids --- pre-treatment --- dark fermentation --- hydrodeoxygenation --- combustion characteristics --- hydrogen --- feed solution --- emission --- cow manure --- anaerobic digestion --- synergistic effect --- biodiesel --- thermophilic --- mesophilic --- antioxidant --- crude oil --- biofuel --- rice husk --- base-catalyzed transesterification --- enzymatic digestibility --- fatty acid methyl ester --- coffee mucilage --- osmotic membrane --- fermentation --- forward osmosis --- Fourier transform infrared spectroscopy --- lignocellulose --- dimethyl carbonate --- diesel --- triacylglycerides --- drop-in fuel --- draw solution --- subcritical methanol --- free fatty acids --- Rhus typhina biodiesel --- sewage sludge --- alternative fuel --- vacuum --- intake temperature --- Physico-chemical properties --- bioethanol --- energy yield --- tert-butylhydroquinone --- non-edible oil --- biomass --- nano-catalysts --- Fatty Acid Methyl Ester --- bioenergy --- direct carbon fuel cell --- viscosity --- FAME yield --- reaction kinetics --- gasification --- operating conditions --- injection strategies --- instar --- butylated hydroxyanisole --- torrefaction --- nanomagnetic catalyst --- fatty acid methyl esters --- crude glycerol --- renewable energy --- pyrolysis --- glycerol carbonate --- single-pellet combustion --- biodiesel production --- nanotechnology --- microwave irradiation --- pressure-retarded osmosis --- black soldier fly larvae (BSFL) --- technology development --- concentration polarization --- waste --- nano-additives --- bio-jet fuel --- kinetic study --- thermogravimetric analysis --- rubber seed oil --- combustion --- potato peels --- power generation --- response surface --- biochar --- lipid --- organic wastes --- extrusion --- co-combustion --- biomass pretreatment --- microwave --- hardwood --- Rancimat method --- anaerobic treatment --- post-treatment --- fatty acid methyl ester (FAME) --- biogas --- GCI --- compression ratio --- membrane fouling --- environment --- rice straw --- pretreatment --- free fatty acid --- palm oil mill effluent --- acclimatization --- Box-Behnken design