这两项技术突破的环保意义在于,热化学合成的生物燃料具有突出的减排与克霾功能。
These two technologies breakthrough significance of environmental protection, thermal chemical synthesis of biofuels has prominent reduction and grams haze function.
这些计划将用实验论证热化学转化过程,即将稻科植物类、干草、农作物不可食用部分以及其它材料转化为生物燃料的过程。
These projects will demonstrate the thermochemical conversion process of turning grasses, stover, the non-edible portion of crops and other materials into biofuel.
研究结果可供大型海藻生物质热化学转换能源利用及其相应的数值模拟参考使用。
The results can be a reference for the thermal chemical conversion energy utilization and numerical simulation of seaweed biomass.
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