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"Hydrogen Infrastructure for Energy Applications: Production, Storage, Distribution and Safety examines methodologies, new models and innovative strategies for the optimization and optimal control of the hydrogen logistic chain, with particular focus on a network of integrated facilities, sources of production, storage systems, infrastructures and the delivery process to the end users through hydrogen refueling stations. The book discusses the main motivations and criteria behind the adoption of hydrogen as an energy carrier or future fuel alternative. It presents current research in hydrogen production processes, especially from renewable energy sources, as well as storage and distribution. The book also reviews methods to model hydrogen demand uncertainties and challenges for the design of the future hydrogen supply chain. The authors go on to explore the network planning of hydrogen infrastructures, the safety and risk issues in hydrogen logistics and their future expectations. Energy engineering professionals, researchers and graduate students will find this a helpful resource to understand the methodologies used to assess the feasibility for developing hydrogen supply chains, hydrogen infrastructure and safety practices. Energy analysts and government agents can benefit from the book's detailed discussion of hydrogen energy applicability. Describes in detail the current state of the available approaches for the planning and modeling of the hydrogen infrastructure Discusses safety issues related to hydrogen in different components of its logistic chain and the methodological approach to evaluate risks that results from hydrogen accidents, including a mathematical model to assess the hazard and consequences of an accident scenario of hydrogen in pipelines Proposes a decision support system for hydrogen energy exploitation, focusing on some specific planning aspects, such as selection of locations with high hydrogen production, based mainly on the use of solar and wind energies Presents a short-term scenario of hydrogen distribution for automotive use, with a concrete, detailed, operative plan for a network of refueling service stations for the hydrogen economy"--
Hydrogen as fuel --- Economic aspects. --- Energy industries --- waterstof --- energiebronnen --- energieopslag --- energieproductie --- energieverdeling --- Industries --- Power resources --- Hydrogen energy --- Fuel --- Economic aspects
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Zuinig brandstofverbruik, lage emissies en veel rijplezier, dat zijn de eisen waaraan moderne voertuigen moeten voldoen. Tot nog toe werd dit vooral bereikt door optimalisering van conventionele aandrijfconcepten. Momenteel worden er, mede ingegeven door de wereldwijde crisis en politieke ambities, in hoog tempo alternatieve aandrijfconcepten ontwikkeld om ook in de toekomst de mobiliteit te kunnen garanderen. Daarbij wordt een belangrijke plaats ingenomen door de hybride en elektrische voertuigaandrijvingen. Bij hybride voertuigen wordt voor de aandrijving gebruik gemaakt van een combinatie van een verbrandings- en elektromotor, wat mogelijkheden biedt voor het toevoegen van extra functies zoals: start/stop functie, optimalisatie van het bedrijfspunt van de verbrandingsmotor en extra koppel en terugwinning van remenergie. In de verdere toekomst zullen voertuigen volledig elektrisch worden aangedreven en uitgerust met brandstofcellen. Daarbij is geen verbrandingsmotor meer nodig en dus ook geen benzine en dieselbrandstof. In deze eerste speciale editie uit de reeks Technische Leergangen wordt onder meer toegelicht hoe bij toepassing van het hybride concept een toename van het aandrijfvermogen bij een gelijktijdige afname van het brandstofverbruik mogelijk is. De op dit moment toegepaste en in ontwikkeling zijnde hybride aandrijfconcepten met specifieke voor- en nadelen worden uitgelegd. Ook de toekomstige, volledig elektrische aandrijving, met als energiebron de brandstofcel, komt uitgebreid aan de orde. Naast alternatieve aandrijfconcepten worden ook verschillende concepten voor het gebruik van alternatieve brandstoffen behandeld en met elkaar vergeleken. Hybridetechniek is door het toenemend aantal hybride personenauto's dat in Nederland rondrijdt, een dankbaar onderwerp in de media. Dit unieke en eerste boek over hybride technieken is een onmisbaar naslagwerk voor iedereen die meer wil weten over de nieuwste aandrijfconcepten van nu en in de toekomst.
Motorcars engineering --- auto's --- hybridevoertuigen --- brandstofcellen --- alternatieve brandstoffen --- 629 --- autotechniek --- hybride systemen --- Techniek van de transportmiddelen --- verbrandingsmotoren --- aandrijvingen --- hybride voertuig --- hybride aandrijving (aandrijving; auto: hybride) --- brandstofcel --- brandstofcelauto --- biodiesel --- alternatieve brandstof --- aardgas --- bio-ethanol --- waterstof auto (brandstof; waterstof) --- remenergierecuperatie --- regeneratief remmen --- Hybride voertuigen --- Elektrische aandrijftechnieken --- 621.313 --- Motortechniek --- (zie ook: alternatieve aandrijving auto) --- (zie ook: hybride aandrijving) --- (zie ook: hybride voertuig) --- (zie ook: waterstof auto) --- (zie ook: biobrandstof) --- (zie ook: brandstof; plantaardige olie) --- (zie ook: diesel) --- (zie ook: brandstof; alternatief) --- (zie ook: brandstof) --- (zie ook: brandstof; alcohol) --- (zie ook: brandstofcelauto) --- PXL-Tech 2014 --- hydraulica --- hybride --- opleiding elektromechanica
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Anorganische chemie --- 546 --- 541 --- Periodic law. --- Loi périodique --- alkalimetalen --- chalkogenen --- edelgassen --- halogenen --- oplossingen --- pnictiden --- waterstof --- Loi périodique --- Chimie physique et théorique --- anorganische chemie --- biologie --- 546 Inorganic chemistry --- Inorganic chemistry --- Chemistry, Physical and theoretical
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The Role of Catalysis for the Sustainable Production of Bio-fuels and Bio-chemicals describes the importance of catalysis for the sustainable production of biofuels and biochemicals, focused primarily on the state-of-the-art catalysts and catalytic processes expected to play a decisive role in the ""green"" production of fuels and chemicals from biomass. In addition, the book includes general elements regarding the entire chain of biomass production, conversion, environment, economy, and life-cycle assessment. Very few books are available on catalysis in production schemes us
General biochemistry --- Industrial chemistry --- Biotechnology --- katalyse --- katalysatoren --- biomassa --- H (waterstof) --- biobrandstoffen --- biodiesel --- hernieuwbare energie --- witte biotechnologie --- groene chemie --- groene biotechnologie --- biorefinery --- biochemie --- groene economie --- biotechnologie --- duurzame ontwikkeling --- enzymen --- chemische processen --- Biomass energy. --- Catalysis.
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This book describes the challenges and solutions the energy sector faces by shifting towards a hydrogen based fuel economy. The most current and up-to-date efforts of countries and leaders in the automotive sector are reviewed as they strive to develop technology and find solutions to production, storage, and distribution challenges. Hydrogen fuel is a zero-emission fuel when burned with oxygen and is often used with electrochemical cells, or combustion in internal engines, to power vehicles and electric devices. This book offers unique solutions to integrating renewable sources of energy like wind or solar power into the production of hydrogen fuel, making it a cost effective, efficient and truly renewable alternative fuel. Presents cutting-edge research in hydrogen energy development; Contains case studies and examples to enhance practical application of the technologies presented; Presents innovative and unique solutions to integrating hydrogen into renewable sources.
Relation between energy and economics --- Electrical engineering --- Applied physical engineering --- Transport. Traffic --- brandstofcellen --- H (waterstof) --- elektrische auto's --- hernieuwbare energie --- energie (technologie) --- elektriciteit --- transport --- auto's --- Renewable energy resources. --- Transportation. --- Energy efficiency. --- Renewable and Green Energy. --- Energy Efficiency.
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Sociology of knowledge --- engineering --- technologische innovatie --- Didactics of technology --- Engineering sciences. Technology --- Philosophy and psychology of culture --- techniek --- 640.5 --- Achtbaan --- Airbag --- Auto --- Communicatie --- Donororganen --- Duikboten --- Duurzame energie --- Elektronica --- Energie --- Fiets --- Geneeskunde --- Gezondheidszorg --- GSM --- Hybride auto --- Leerrobot --- Ligfiets --- Luchtvaart --- Monowiel --- Motorfiets --- Reclame --- Robotvliegtuig --- Ruimtetoerisme --- Ruimtevaart --- Schepen --- Scooter --- Skateboarden --- Skeeleren --- Snowboarden --- Sport --- Techniek --- Technologie --- Veiligheid --- Vervoer --- Vliegen --- Voetprothese --- Wasmachine --- Waterstof --- Welzijn --- Windkracht --- Windturbine --- Wonen
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Het boek behandelt de verschillende technologieën die beschikbaar zijn om duurzame energie te benutten. Aan de orde komen zonne-energie, windenergie, waterkracht, bio-energie, omgevingswarmte en aardwarmte. Het potentieel van deze duurzame energiebronnen wordt geschetst, zowel mondiaal als meer specifiek voor Nederland en België. Ook wordt ingegaan op de systeemaspecten van een duurzame energievoorziening, waarbij energieopslag en secundaire conversie via brandstofcellen worden behandeld. Natuurlijk komen de technische aspecten van duurzame energieconversie uitgebreid aan de orde. Daarnaast wordt ingegaan op aspecten als kosten, milieu, wet- en regelgeving, acceptatie en stimuleringsbeleid. De stof wordt verduidelijkt met praktijktoepassingen en rekenvoorbeelden.
warmteleer --- Thermodynamics --- Energietechniek --- 621.51/.54 --- energietechniek --- duurzame energiebronnen --- zonne-energie --- windenergie --- waterkracht --- biomassa --- warmtepomp --- geothermische energie --- energieopslag --- waterstoftechnologie --- 620.9 --- Energietechnologie --- Zonne-energie --- Windenergie --- Waterkracht --- Bio-energie --- Aardwarmte --- Technische toepassingen van pneumatische energie --- (zie ook: biomassa vergassing) --- energiebronnen --- PXL-Tech 2018 --- bio-energie --- brandstofcellen --- thermodynamica --- Energie --- Duurzaamheid --- Milieubeheer --- Biomassa-energie --- Warmtepompen --- Geothermische energie --- Energieopslag --- Waterstof --- Biomassa --- Warmtepomp --- Belasting (fiscaal)
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This multi-author, 670-page handbook provides information on alternative vehicular power systems, encompassing advances in the rapidly evolving battery, hybrid and fuel cell technology domains. Vehicles based on these technologies are described in terms of performance, fuel economy, environmental impact, energy sources and costs, and are extensively compared and contrasted to conventional vehicles.For the most advanced concepts in development (fuel cell and long-range electric vehicles), the issue of recharging infrastructure is addressed, as are case studies of alternative vehicles propose
Motorcars engineering --- batterijen --- convertoren --- elektrische auto's --- AC-DC omzetters --- DC-AC omzetters --- hybridevoertuigen --- verbrandingsmotoren --- Electric vehicles. --- Hybrid electric vehicles. --- brandstofcellen --- H (waterstof) --- powertrain --- duurzaamheid --- lithium-ion batterijen --- duurzame ontwikkeling --- auto's --- Engineering --- Mechanical Engineering --- Electric vehicles --- Hybrid electric vehicles --- EVs (Electric vehicles) --- Vehicles, Electric --- Motor vehicles --- HEVs (Hybrid electric vehicles) --- Hybrid drive vehicles --- Hybrid vehicles --- Véhicules électriques --- Véhicules électriques hybrides
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Automobiles are responsible for a substantial part of the world's consumption of primary energy, mostly fossil liquid hydrocarbons. The reduction of the fuel consumption of these vehicles has become a top priority. Many ideas to reach that objective have been presented. In most cases these systems are more complex than the traditional approaches. For such complex systems a heuristic design approach fails. The only way to deal with this situation is to employ model-based methods. This text provides an introduction to the mathematical modeling and subsequent optimization of vehicle propulsion systems and their supervisory control algorithms.
Electrical engineering. --- Engineering. --- Structural control (Engineering) --- Thermodynamics. --- Chemistry, Physical and theoretical --- Dynamics --- Mechanics --- Physics --- Heat --- Heat-engines --- Quantum theory --- Construction --- Industrial arts --- Technology --- Control of structures (Engineering) --- Structural dynamics --- Electric engineering --- Engineering --- Automobiles --- Propulsion systems. --- Propulsion systems --- Motors. --- Mathematical models. --- Systems, Propulsion --- Engineering systems --- Automobile engines --- Internal combustion engines --- Motors --- Mathematical models --- Power trains --- aandrijving; auto --- brandstofverbruik --- brandstofcelauto --- hybride voertuig --- (zie ook: alternatieve aandrijving auto) --- (zie ook: waterstof auto) --- (zie ook: hybride aandrijving) --- Propulsion --- Moteurs --- Modèles mathématiques
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Physiology of nutrition. Metabolism --- dieet --- voedingsleer --- metabolische ziekten --- voeding --- voedingshygiëne --- darmziekten --- Intestine, Large --- Nutritional Physiological Phenomena --- Metabolism --- Intestin --- intestines --- Absorption digestive --- Digestive absorption --- Maladie de l'appareil digestif --- Digestive system diseases --- Trouble digestif --- Digestive disorders --- Physiologie humaine --- Human physiology --- Physiologie de la nutrition --- Nutrition physiology --- Nutrition humaine --- human nutrition --- Digestion --- Dietary Proteins --- Dietary Carbohydrates --- Starch --- Gastrointestinal Transit --- 612.3 --- #abib:almm --- fysiologie --- metabolisme --- spijsverteringsstelsel --- 579.67 --- 612.36 --- biologie --- colitis ulcerosa* --- darmcarcinoom --- darmflora --- dieetleer --- fermentatie --- geneeskunde --- microbiologie --- microbiële vertering --- obstipatie --- pathologie --- vertering --- voedingsmiddelenmicrobiologie --- 616.3 --- Carbohydraten --- Colitis (toxisch megacolon) --- Colon (dikke darm) --- Constipatie --- Dieet --- Proteinen --- Spijsverteringsstelsel (gastrointestinaal stelsel) --- Stofwisseling (metabolisme) --- Vetten --- 628.4 --- colitis --- constipatie --- darmcarcinoom (darmkanker) --- dikke darm (colon) --- voedingshygiëne (voedingsgewoonten) --- physiology. --- metabolism. --- Alimentation. Eating. Digestion. Nutrition --- Voedingsmicrobiologie --- Spijsverteringsorganen: fysiologie --- Darmziekten en voeding --- Agrotechnology and Food Sciences. Human Nutrition --- Human Nutrition and Health --- Human Nutrition and Health. --- 612.3 Alimentation. Eating. Digestion. Nutrition --- physiology --- metabolism --- H (waterstof) --- vetzuren --- interne ziekten --- spijsvertering --- spijsverteringsorganen --- Interne geneeskunde --- interne geneeskunde
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