Author: British Standards Institute Staff
Publisher:
ISBN: 9780580506079
Category :
Languages : en
Pages : 6

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Book Description
Road vehicles, Fuel cells, Electric cells, Energy technology, Electrochemical devices, Electrically-operated devices, Safety measures, Equipment safety, Hazards, Hydrogen, Compressed gases, Safety devices

Author: Międzynarodowa Organizacja Normalizacyjna
Publisher:
ISBN:
Category :
Languages : en
Pages :

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Author: International Organization for Standardization
Publisher:
ISBN:
Category : Fuel cell vehicles
Languages : en
Pages : 6

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Author: SABS Standards Division
Publisher:
ISBN: 9780626323592
Category :
Languages : en
Pages : 6

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Author: South African Bureau of Standards
Publisher:
ISBN: 9780626393236
Category :
Languages : en
Pages : 6

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Author: Fotis Rigas
Publisher: CRC Press
ISBN: 143986232X
Category : Science
Languages : en
Pages : 287

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Book Description
Hydrogen Safety highlights physiological, physical, and chemical hazards associated with hydrogen production, storage, distribution, and use systems. It also examines potential accident scenarios that could occur with hydrogen use under certain conditions. The number of potential applications for hydrogen continues to grow-from cooling power statio

Author: P.K. Tripathi
Publisher: NIIR PROJECT CONSULTANCY SERVICES
ISBN: 8195676928
Category : Business & Economics
Languages : en
Pages : 488

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Book Description
Handbook on Electric Vehicles Manufacturing (E- Car, Electric Bicycle, E- Scooter, E-Motorcycle, Electric Rickshaw, E- Bus, Electric Truck with Assembly Process, Machinery Equipments & Layout) An electric vehicle (EV) is one that is powered by an electric motor rather than an internal-combustion engine that burns a mixture of gasoline and gases to generate power. As a result, such a vehicle is being considered as a potential replacement for current-generation automobiles in order to solve issues such as:- a) Growing Pollution b) Global Warming, c) Natural Resource Depletion, and so on. Despite the fact that the concept of electric vehicles has been around for a long time, it has garnered a lot of attention in the last decade as a result of the rising carbon footprint and other environmental implications of gasoline-powered vehicles. The global electric vehicle market is expected to increase at a CAGR of 21.7 percent. Increased government investments in the development of electric vehicle charging stations and hydrogen fuelling stations, as well as buyer incentives, will provide chances for OEMs to increase their revenue stream and regional footprint. The EV market in Asia Pacific is expected to develop steadily due to increasing demand for low-cost, low-emission vehicles, whereas the market in North America and Europe is expected to rise quickly due to government initiatives and the growing high-performance passenger vehicle segment. India's flagship plan for boosting electric mobility is FAME, or Faster Adoption and Manufacturing of (Hybrid and) Electric Vehicles FAME Scheme has been authorized by the government, with 86 percent of overall budgetary support has been set aside for the Demand Incentive, which aims to increase demand for EVs throughout the country. This phase will support e-buses, e-3 wheelers, e-4 wheeler passenger cars and e-2 wheelers in order to build demand. The book covers a wide range of information related to the manufacture of electric vehicles. It includes E- Car, Electric Bicycle, E- Scooter, E-Motorcycle, Electric Rickshaw, E- Bus, Electric Truck with Assembly Process, contact information for machinery suppliers, Directory Section & Factory Layout. A detailed guide on the manufacturing and entrepreneurship of electric vehicles. This book serves as a one-stop shop for everything you need to know about the Electric Vehicle Manufacturing industry, which is rife with opportunities for startups, manufacturers, merchants, and entrepreneurs. This is the only book on the production of commercial electric vehicles. It's a veritable feast of how-to information, from concept through equipment acquisition.

Author: Fuel Cell Standards Committee
Publisher:
ISBN:
Category :
Languages : en
Pages : 0

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Book Description
This SAE Recommended Practice identifies and defines the preferred technical guidelines relating to the safe integration of fuel cell system, the hydrogen fuel storage and handling systems as defined and specified in SAE J2579, and electrical systems into the overall Fuel Cell Vehicle. This document relates to the overall design, construction, operation and maintenance of fuel cell vehicles. The purpose of this document is to identify the unique requirements and criteria for the integration of fuel cell systems into vehicles. Since the publishing of the original document in 2002, the document has been used as a basis for the design of development vehicles and as a resource for national and international harmonization of codes and standards. This document has been revised to provide the latest information on fuel cell vehicle requirements based on these efforts. Other than minor typographical corrections, the following sections have been updated relative to the previous 200212 version: aThe Foreword and Purpose were adjusted to clarify the focus of the document with regard to providing safety criteria and methodologies. bThe Foreword and Sections 4.2.1, 4.2.5, 4.2.6, 4.3.1, and 4.6 were modified to reflect the publication of SAE J2579 for vehicular hydrogen systems. cSections 3.3, 3.4, 3.29 were modified to harmonize with electrical terminology and requirements in ISO standards. dSection 3.11 was added to define and describe flammability. Sections 4.2.3, 4.2.4, and 5.2 and Appendix C were re-written to clarify fuel discharge requirements related to flammability, and a new appendix (Appendix D) was added to provide performance-based evaluations of local flammability of fuel discharges from the vehicle.NOTE: Definitions after Section 3.11 were re-numbered to reflect the insertion of new definitions. eReactive materials were added to Hazardous Fluids in Section 3.15 to reflect materials associated with metal hydrides and fuel processors as identified in SAE J2579. fRequirements for toxicity were expanded to allow other equivalent methods to OSHA TWA for global acceptance. gIn order to harmonize with ISO, the term intermediate voltage was deleted from terminology and requirements in Sections 3.16. hSection 4.1.1.1 was generalized to allow various tools to be used for risk assessment (in addition to, or instead of, FMEA). iThe definition for Internal Transfer or Cross Leakage was added to Section 3.21 and associated requirements were addressed in Section 4.3.2 and Appendix D. jSection 4.1.3 and Appendix A on Fuel Cell Vehicle Crashworthiness were updated to reflect the recent publishing of SAE 1766, correct a typographical error and update fuel containment requirements, and to provide flexibility with regard to evaluating crash tests. kPrescriptive margins were eliminated from Section 4.2.3.2 with regard to Potentially Flammable Atmospheres and Section 4.2.3.3 on Potential Ignition Sources, and sections were modified to clarify requirements, particularly with regard to the management of discharges that could self-ignite. See 2007 World Congress SAE Paper 2007-01-0437 for basis of changes. lRequirements for discharges from pressure relief devices in Section 4.2.5 were updated to reflect latest understanding and a new appendix, Appendix E, was added to provide guidance. mSections 4.2.7 and 7.2 were modified to better define defueling requirements. nPrescriptive margins for isolation test voltage were removed from Sections 4.3.3 and 4.4.3 and Appendix B. Requirements have been harmonized relative to ISO in order to provide a more wholistic approach to electric shock protection. oHigh voltage withstand test requirements in Sections 4.3.4 and 4.4.4 and Appendix B were harmonized relative to ISO and focused on connectors, harnesses, and bus bars. pColor requirements for labels were added to 4.4.6 and 4.7 as the document is published in black and white. The flexibility for the vehicle manufacturer to use specialized badging or other unique features to identify a fuel cell vehicle was added as a "blue diamond" or equivalent markings are not required internationally for emergency response. qVehicle bonding requirements in 4.4.8.1 were clarified. rCapacitors were added as examples of energy storage components in Section 4.4.8.3. sSection 4.4.8.4 was updated to account for the overall resistance between earth ground and the conductive chassis, and to harmonize the requirement with standard gasoline-fueled vehicles. The original requirement of 25 megohms addressed only the wheels whereas the new requirement of 125 megohms addresses the vehicle requirement. tElectric System fault monitoring requirements were clarified in Section 4.4.9. uRequirements for the Use of Electric Supply Equipment in Section 4.4.10.1 were clarified, backfeed protection for stacks was made optional based on need in Section 4.4.10.2, and isolation requirements for traction batteries were clarified and extended to other power sources (e.g., capacitors) in Section 4.4.10.3. vRequirements for Automatic Disconnects in Section 4.4.11 were clarified to indicate that disconnection of both negative and positive rails is required, and that this function can be achieved by non-mechanical means (e.g., IGBTs). wRequirements for fuel shutoff and electrical disconnect after crash in Section 4.6.2 were clarified, and vehicle labeling of fuel type was simplified and made non-mandatory in Section 4.7. xMaintenance and service intervals were added as recommended information for the Owner's Manual in Section 5.1, and extensive updates were made to the methods for evaluating normal vehicle discharges (in Sections 5.2.1, 5.2.2, 5.2.3 and Appendix C). yProcedures for defueling were added as recommended information for the Service Manual in Section 7.1, and the rationale for defueling was extended to include damaged vehicles as well as standard service situations in Section 7.2.

Author: British Standards Institute Staff
Publisher:
ISBN: 9780580497735
Category :
Languages : en
Pages : 18

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Book Description
Road vehicles, Fuel cells, Electric cells, Energy technology, Electrochemical devices, Electrically-operated devices, Safety measures, Equipment safety, Hazards, Electrical safety, Electric shocks, Circuits, Voltage, Safety devices, Electrical insulation, Electric enclosures, Enclosures, Electrical testing

Author: British Standards Institute Staff
Publisher:
ISBN: 9780580984099
Category :
Languages : en
Pages : 22

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Book Description
Road vehicles, Automotive fuels, Hydrogen, Electric cells, Chemical composition, Fuel cells