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Brandstofcel --- Fuel cells --- Pile a combustible
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Electric power production from chemical action --- Electric power-plants --- -Fuel cells --- Direct energy conversion --- Electric batteries --- Electrochemistry --- Power-plants, Electric --- Electric power systems --- Fuel --- Electric power production from chemical action. --- Fuel. --- Fuel cells. --- Fuel cells --- Coal. --- Electric power-plants - Fuel. --- Power
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Accumulators [Electric ] --- Batteries [Electric ] --- Lead-acid batteries --- Secondary batteries --- Storage batteries --- Electrochemistry [Industrial ] --- Congresses --- FUEL CELLS --- POLYMERS --- CONDUCTING POLYMERS --- CARBON --- PROPERTIES
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Sulfur --- Chemical & Materials Engineering --- Chemistry --- Engineering & Applied Sciences --- Physical Sciences & Mathematics --- Chemical Engineering --- Chemistry - General --- 546.22 <063> --- Sulphur --- -#KVIV --- Brimstone --- Chalcogens --- Native element minerals --- Nonmetals --- Sulphur S--Congressen --- Congresses --- Congresses. --- 546.22 <063> Sulphur S--Congressen --- #KVIV --- Coating processes. --- Fuel cells. --- Asphalt --- Construction materials --- Polymers
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The growing awareness of environmental problems provided the stimulus for this 4th International Symposium on Biotechnology, Interbiotech '90, to address many aspects of the relationship between biotechnology and the environment. The papers are mainly devoted to the contribution of biotechnology in solving environmental problems, including biological waste water treatment, utilization of municipal sewage sludge, detoxification of polluted soil and complex utilization of lignocellulosic wastes. There is examination of possible dangers in such cases as the release of r-DNA organisms into the en
Bioremediation --- Microbial biotechnology --- Biotechnology --- Biomass energy --- Congresses. --- Environmental aspects --- Basic Sciences. Microbiology --- Industrial Microbiology --- Industrial Microbiology. --- Congresses --- Environmental biotechnology - Congresses. --- Microbial biotechnology - Congresses. --- Biotechnology - Environmental aspects - Congresses. --- Biomass energy - Environmental aspects - Congresses. --- Bio-energy (Biomass energy) --- Bioenergy (Biomass energy) --- Biofuels --- Biological fuels --- Energy, Biomass --- Microbial energy conversion --- Energy conversion --- Fuel --- Energy crops --- Microbial fuel cells --- Refuse as fuel --- Waste products as fuel --- Chemical engineering --- Genetic engineering --- Microorganisms --- Industrial microbiology --- Biotechnological microorganisms --- Bioremediation - Congresses. --- Biomass as fuel --- Renewable fuels --- Renewable energy sources
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Biocarburants --- Bioenergy --- Biofuels --- Biological fuels --- Biomass energy --- Biomassa-energie --- Carburants verts --- Energie de la biomasse --- Energy [Biomass ] --- Energy conversion [Microbial ] --- Microbial energy conversion --- 620.95 --- Bio-energy (Biomass energy) --- Bioenergy (Biomass energy) --- Energy, Biomass --- Energy conversion --- Fuel --- Energy crops --- Microbial fuel cells --- Refuse as fuel --- Waste products as fuel --- Utilization of biological energy, e.g. from vegetation, animals --- 620.95 Utilization of biological energy, e.g. from vegetation, animals --- Biomass as fuel --- Renewable fuels --- Renewable energy sources
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Advanced mixed ionic electronic conducting (MIEC) perovskites play an important role in many electrochemical systems for advanced energy technologies. They are major components in such devices as solid oxide fuel cells (SOFCs), oxygen separation membranes, chemical sensors and catalysts. In addition to energy technology, the development of these multifunctional materials is of crucial importance for transportation, aerospace engineering, and electronics. The use of these materials as chemical sensors is also important for anti-terrorism initiatives. The present book discusses progress and problems in the development of ionic, electronic, and MIEC materials as active materials in advanced energy systems; the development and design of solid-oxide fuel cells (SOFCs) for next-generation vehicles, chemical sensors and oxygen separation membranes; and identifies directions for future research, such as conducting mechanisms, stability and reliability of devices, degradation problems, crystal structure, classification of phase transitions exhibited by the materials.
Solid oxide fuel cells --- Perovskite --- Superionic conductors --- Piles à combustible à oxyde solide --- Pérovskite --- Conducteurs superioniques --- Congresses --- Congresses. --- Congrès --- Piles à combustible à oxyde solide --- Pérovskite --- Congrès --- Ceramics. --- Glass. --- Composites (Materials). --- Composite materials. --- Energy systems. --- Materials science. --- Ceramics, Glass, Composites, Natural Materials. --- Energy Systems. --- Characterization and Evaluation of Materials. --- Composites (Materials) --- Multiphase materials --- Reinforced solids --- Solids, Reinforced --- Two phase materials --- Materials --- Amorphous substances --- Ceramics --- Glazing --- Ceramic technology --- Industrial ceramics --- Keramics --- Building materials --- Chemistry, Technical --- Clay --- Material science --- Physical sciences --- Perovskite (Mineral)
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Agricultural bioenergy potential Bioenergy potential from forestry Bioenergy potential from wastes Overall results and future challenges
Biomass energy --- Agrotechnology and Food Sciences. Engineering --- Environmental aspects --- Energy --- Bioenergy. --- bioenergie --- Europa --- EUROPE -- 577.4 --- Environmental protection. Environmental technology --- European Union --- Bio-energy (Biomass energy) --- Bioenergy (Biomass energy) --- Biofuels --- Biological fuels --- Energy, Biomass --- Microbial energy conversion --- Energy conversion --- Fuel --- Energy crops --- Microbial fuel cells --- Refuse as fuel --- Waste products as fuel --- EG / Europese Unie 339.543EC/EU --- Energie 620.9 --- Milieu 504.7 --- 620.95 --- 620.95 Utilization of biological energy, e.g. from vegetation, animals --- Utilization of biological energy, e.g. from vegetation, animals --- duurzame energie --- Biomass as fuel --- Renewable fuels --- Renewable energy sources --- Europa.
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Carbonaceous materials play a fundamental role in electrochemical energy storage systems. Carbon in the structural form of graphite is widely used as the active material in lithium-ion batteries; it is abundant, and environmentally friendly. Carbon is also used to conduct and distribute charge effectively throughout composite electrodes of supercapacitors, batteries and fuel cells. The electronic conductive pathways are critical to delivering and extracting current out of the device. However, many challenges and the understanding of the role of carbon and its stability and efficiency in charge storage applications still exists. This NATO-ARW volume contains a diverse collection of papers addressing the role of carbon in some key electrochemical systems, both conventional and emerging. These papers discuss the latest issues associated with development, synthesis, characterization and use of new advanced carbonaceous materials for electrochemical energy storage. Such systems include: metal-air primary and rechargeable batteries, fuel cells, supercapacitors, cathodes and anodes of lithium-ion and lithium polymer rechargeable batteries, as well as nanocarbon materials of the future.
halfgeleiders --- Electronics and optics of solids --- engineering --- brandstofcellen --- nanotechniek --- Electrochemistry --- fysicochemie --- Electrical engineering --- elektrochemie --- transistoren --- elektrische energie --- fysica --- Solid state physics --- Ceramic materials --- Electronics --- Batteries (Ordnance) --- Fuel cells --- Matériaux céramiques --- Electroniques matériaux --- Batteries (Science militaire) --- Piles à combustible --- Congresses --- Materials --- Congrès --- EPUB-LIV-FT LIVCHIMI SPRINGER-B --- Materials. --- Chemistry. --- Optical materials. --- Optics, Lasers, Photonics, Optical Devices. --- Energy Storage. --- Materials Science, general. --- Electrochemistry. --- Energy Systems. --- Optical and Electronic Materials. --- Optics --- Physical sciences --- Engineering --- Engineering materials --- Industrial materials --- Engineering design --- Manufacturing processes --- Congresses. --- Lasers. --- Photonics. --- Energy storage. --- Materials science. --- Energy systems. --- Electronic materials. --- Electronic materials --- Chemistry, Physical and theoretical --- Material science --- Storage of energy --- Force and energy --- Power (Mechanics) --- Flywheels --- Pulsed power systems --- New optics --- Light amplification by stimulated emission of radiation --- Masers, Optical --- Optical masers --- Light amplifiers --- Light sources --- Optoelectronic devices --- Nonlinear optics --- Optical parametric oscillators
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