Sun Y, Ogden J, Delucchi M (2010) Societal lifetime cost of hydrogen fuel cell vehicles. Int J Hydrogen Energ 35: 11932-11946.Sun, Yongling, et al., 2010. Societal Lifetime Cost of Hydrogen Fuel Cell Vehicles. Research Report--UCD-ITS-RR-10-09. Institute of Transportation Studies, ...
Societal life-cycle cost is employed for evaluating hydrogen fuel cell vehicles (FCVs) as compared with conventional gasoline vehicles. This metric includes consumer direct economic costs over the vehicle lifetime and external costs resulting from air pollution, noise, oil use, and greenhouse gas emi...
摘要: The article reports that according to Shinzo Kobuki, senior managing director in charge of Toyota Motor Corp.'s battery technology, the company is planning to reduce the cost of hydrogen fuel cell technology before launching its fuel cell sedan in 2015....
The balance of plant (BoP) refers to the sum of all systems, equipment, and infrastructure required for the functioning of a hydrogen refuelling station, excluding the actual fuel production and storage components. BoP costs include the following: 1. Compressors and Dispensers:Hydrogen is usually s...
Even so, the report notes that the lifetime of a hydrogen fuel cell is typically five to ten years, depending on usage, and it is not clear whether the cost of replacing the fuel cell has been baked into CATP’s lifetime costs. ...
This work investigates life cycle costing analysis as a tool to estimate the cost of hydrogen to be used as fuel for Hydrogen Fuel Cell vehicles (HFCVs). The method of life cycle costing and economic data are considered to estimate the cost of hydrogen for centralised and decentralised producti...
The 2019 Toyota Mirai electric vehicle touts zero emissions, thanks to a fuel cell that runs on hydrogen instead of gasoline. But the Mirai has barely left California, partly because today's fuel cell electrodes are made of super expensive platinum. ...
yet they are responsible for 21% of transportation-related greenhouse gas emissions. Reducing MHDV emissions is vital to mitigating the effects of climate change and improving air quality. Zero-emission vehicles (ZEVs)—such as battery electric vehicles (EVs) and hydrogen fuel cell electric vehicles...
There are many methods for producing hydrogen—such as by reacting high-temperature steam with natural gas—but these approaches result in the production of crude hydrogen, which contains contaminant gases that are difficult to remove, decreasing the value of the resulting hydrogen. ...
“As VRES becomes more prevalent in the energy system, the number of hours when hydrogen from electricity and electrolysis is cheaper than blue hydrogen will increase,” the report said. “Consequently, grid-connected green hydrogen is expected to claim a similar market share as blue hydrogen [...