决策参考
生物质能源产业的比较优势··································································1
生物柴油发展须机制创新“给力” ·························································4
国务院常务会议确定生物燃料乙醇产业总体布局(附典型案例) ·················7
国际能源署(IEA)评估清洁能源技术部署进展 ·····································10
农业农村部对秸秆综合利用非常重视····················································13
科技前沿
红藻中发现可增加生物燃料产量的酶····················································16
耐受型酵母、大数据算法对生物燃料作物的基因干预降低生物质的顽固性 ···16
高分子材料内部结构影响太阳能电池效率 ·············································18
萜烯化合物生物合成效率提升突破难题·················································19
青岛能源所基于“基因互补”和差异转录组学策略
发现新的蓝细菌胁迫耐受关键因子·······················································21
青岛能源所开发出新型二维柔性电极材料 ·············································23
产业动态
新能源消纳正逐步打破“省间壁垒” ····················································25
乙醇汽油再获加码,“烷基化油”(异辛烷)发展前景看好 ························27
我国城市生活垃圾焚烧发电形势分析及展望 ··········································30
“地沟油”变柴油要过三道坎·····························································36
五分钟看懂日本储能市场···································································37
青岛能源所开发出电还原 CO2 反应新型催化剂 ······································40
