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Electric vehicle

1) Research into emissions and fuel economy test methods

Electric vehicles are given a power regeneration function to recover the excess energy resulting from braking operation. Because the amount of power regeneration affects EV fuel economy, it is necessary for the chassis dynamometer testing of EVs to simulate the real-world braking condition to a high degree of accuracy. JARI continues research into EV test methods and testing equipment to ensure fair, accurate assessment of EV fuel economy. Further, we are involved in the establishment of a global hardware-in-the-loop simulator method of testing HEV emission and fuel economy performances by calculating the engine speed and torque.

2) Investigation into AC standard charger feasibility

In step with the widening use of EVs and HEVs, the use of AC standard chargers is also expanding. On the other hand there are cases of charging failure due to feasibility problems between vehicles and chargers. Since these problems are traceable not only to the chargers alone but also the vehicle and power supply sides, JARI conducts investigations for the building of a dependable charging infrastructure in collaboration with associated organizations.

AC standard charger compatibility assessment
AC standard charger compatibility assessment

3) Standardization activity

As Japanese deliberation body working with ISO/TC22 (Road vehicles), ISO/SC21 (Electrically propelled road vehicles) and IEC/TC69 (EVs and electric industrial vehicles), JARI carries out drafting and commenting concerning ISO and IEC standards and Japanese JIS standards for EVs, hybrid electric vehicles (HEVs) and fuel cell vehicles (FCVs), and is also involved in standardization discussions at ISO/TC197 (hydrogen technology), IEC/TC21 (batteries), and IEC/SC23H (industrial plug and socket-outlets) in concert with associated organizations.

a. FCVs

Regarding FCVs, we are promoting global standardization primarily in the forums of ISO/TC22/SC21 and ISO/TC197. As a result of revision work at ISO/TC22/SC21/WG1, ISO 6469 (Part 1, Part 2 and Part 3) were published by 2011. They specify the safety of EVs including FCVs. In 2011, ISO started discussion on the post-crash safety of FCVs equipped with hydrogen fuel tanks, as Part 4 of ISO 6469. Japan plays a central roll in the discussion. In ISO/TC22/SC21/WG2 convened by Japan, the hydrogen consumption measurement method developed by JARI was published as the ISO 23828 Standard in 2008, and its second edition will be published by the end of 2013. JARI's data was used in the 2012 publication of the ISO 14687-2 Standard on automotive hydrogen fuel properties. JARI is also working to draft ISO Standards for hydrogen connectors and high-pressure hydrogen tanks, and ISO 17268 Standard for hydrogen connectors was published in 2012.

b. HEVs

Japan takes the lead as the project leader for the standardization of emissions and fuel economy measurement methods for HEVs with or without external charging under ISO/TC22/SC21/WG2 convened by Japan. ISO 23274-2 for HEVs with external charging was published in 2012, and ISO 23274-1 second edition for HEVs without external charging in 2013.

c. Batteries and chargers

JARI has submitted 10 new work item proposals for the international standards relating to automotive lithium-ion battery, DC charging system and similar items. Of these, four have been published as international standards (IEC 62660-1, IEC 62660-2, IEC 62196-2, IEC 62576), one has been published as a public specification (IEC/ISO PAS 16898), and three are scheduled for the final voting in 2013 (IEC 61851-23, IEC 61851-24, IEC 62196-3). In order to promote the wide use of electric vehicles, we are trying to have our views and experiences reflected in about 20 other international standards concerning lithium-ion battery pack and system, conductive charging, wireless charging, V2G communication, lightweight EV charging, etc.

Main test items

JARI undertakes its research into FCVs, EVs and other next-generation vehicles mostly at the Hy-SEF (Hydrogen and Fuel Cell Vehicle Safety Evaluation Facility) of its Shirosato Test Center. The data obtained at this facility are used for the drafting of various FCV- and EV-related standards and safety manuals related to post-accident treatment.

Appearance of Hy-SEF
Appearance of Hy-SEF

1) Electric vehicles

Employing its chassis dynamometers dedicated to four-wheel drive vehicles, JARI executes basic performance tests on EVs including the tests on the fuel economy of EVs, HEVs, PHEVs and FCVs. At our anti-explosion fire testing compartment of Hy-SEF, we also test the safety of vehicles against fire.

Chassis dynamometer for four-wheel drive vehicles
Chassis dynamometer for four-wheel drive vehicles

2) Battery performance assessment

Key performances of batteries, such as charge-discharge and deterioration-durability performances, are tested using our charge-discharge equipment. Various equipment to test resistance to weather, heat, impact, perforation and crush is put to use at Hy-SEF in order to assess the safety performances of batteries.

Battery perforation and crush testing equipment
Battery perforation and crush testing equipment

3) Fuel cell performance assessment

Using single-cell assessment equipment, JARI fabricates and assesses membrane electrode assemblies, and conducts experiments to determine the effect of impurities contained in hydrogen fuel. The various testing equipment at Hy-SEF, such as anti-explosion fire testing, compressed hydrogen testing and liquid pressure destruction testing equipment, is mobilized to examine the performances of high-pressure hydrogen tanks and fuel cell vehicles.

Anti-explosion fire testing equipment
Anti-explosion fire testing equipment

Water pressure testing pit
Water pressure testing pit

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