由于可以在一个相对较大的容器中不间断生产氢气,因此在这样一些些应用过程中,氢气的产生率可以低于车载系统的产生率。
In such applications, the hydrogen production rate can be lower than it is aboard a vehicle, as the hydrogen can be produced around the clock in relatively large tanks.
从长远来看,在电力需求低于峰值的时期,偏远地区的大型风力发电场的电力可能会被用于电解水,以产生氢气。
In the long run, electricity from large wind farms in remote areas might be used to make hydrogen gas from water during periods when there is less than peak demand for electricity.
结合上其他从水中产生氢气的催化剂如铂,这个系统就能复制在光合作用中所发生的水分解反应。
Combined with another catalyst, such as platinum, that can produce hydrogen gas from water, the system can duplicate the water splitting reaction that occurs during photosynthesis.
应用推荐