Advances in Carbon Management Technologies

Advances in Carbon Management Technologies

Biomass Utilization, Manufacturing, and Electricity Management, Volume 2

Princiotta, Frank; Sikdar, Subhas K.

Taylor & Francis Ltd

08/2022

366

Mole

Inglês

9780367520564

15 a 20 dias

303

Descrição não disponível.
Introductory Chapter. What key low-carbon technologies are needed to meet serious climate mitigation targets and what is their status. SECTION 1. BIOMASS SECTOR. Biomass as a source for heat, power, and coproducts. The Brazilian experience on the use of bioethanol. Biomass in regional and local context. Prioritizing uses for woody biowaste: a case study from British Columbia. Industrial oleochemicals from used cooking oils (UCOs)- sustainability benefits and challenges. Advances in carbon capture through thermochemical conversion of biomass waste. Phytowaste processing. Anaerobic digestion for energy recovery and carbon management. Critical aspects in developing sustainable biorefinery systems based on bioelectrochemical technology with carbon dioxide capture. Synthesis of regional bioproducts supply networks. Supply chain analysis for advancing carbon and nutrient recovery from organic waste. Efficient and low-carbon energy solution through polygeneration with biomass. SECTION II. MANUFACTURING AND CONSTRUCTION (BATTERIES, BUILT ENVIRONMENT, AUTOMOTIVE, AND OTHER INDUSTRIES). Urban carbon management strategies. Lean and green (L&G) manufacturing. Advances, challenges and opportunities of Li-ion batteries for electric vehicles. Charging strategies for electrified transport. SECTION III. ELECTRICITY AND THE GRID. Microgrids' role in grid decarbonization. Storage of fluctuating energy. Lithium ion batteries - future technology development driven by environmental impact. Carbon constrained electricity sector planning with multiple objectives.
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Energy Sources;Carbon management in manufacturing technologies;EV;Clean coal;Anaerobic Digestion;Wind power;Energy Density;Solar power;Dry Anaerobic Digestion;Biomass conversion for carbon footprint reduction;IEA Bioenergy;Eliminate the use of fossil carbon;Syntrophic Acetate Oxidation;Low-carbon footprint;Energy System;Biomass wastes;Moisture Content;Carbon management technologies;Waste Cooking Oils;Decarbonization;Carbon Management;Battery technologies;Anaerobic Digestion Process;Bipolar Membranes;HTL;Li Ion Battery;Mac;Casa;Indian Power Sector;Chemical Looping;Net Annual Cash Flow;Power System Planning;TS Content;Biorefinery Systems;Acetoclastic Methanogens;Pig Manure