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《生物能源科技动态监测快报》

  • 来源专题:中国科学院文献情报先进能源知识资源中心 |领域情报网
  • 编译者: guokm
  • 发布时间:2018-12-29

  • 决策参考

    美国能源部宣布 7800 万美元生物能源研究新项目·····································1

    美国农业部加入地球生物基因组计划······················································2

    释放生物质能产业“大能量”,推动综合能源服务新发展····························2

    清洁能源应用时代加速到来··································································5

    北欧国家发布清洁能源宣言··································································8

    科技前沿

    瑞典成功研发一种新型木质素燃料电池···················································9

    美生物能源研究聚焦微生物与成像工具·················································10

    Nature:碳捕获封存是缓解气候变化有效工具 ········································10

    青岛能源所制备出高湿强、高韧性兼具紫外屏蔽功能的纤维素纳米纸 ·········11

    产业动态

    上海:地沟油制生物柴油比 0 号柴油便宜! ··········································14

    青岛能源所开发出新型三维太阳光驱动海水淡化膜材料 ···························15

    青岛能源所与上海植生所等团队合作阐明了利福霉素生物合成新机制 ·········18

    储能是能源革命的重要技术支撑··························································19

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  • 《生物能源科技动态监测快报》
    • 来源专题:中国科学院文献情报先进能源知识资源中心 |领域情报网
    • 编译者:guokm
    • 发布时间:2018-12-29
    • 决策参考 IRENA: 2017 年全球生物能源容量增长··················································1 生物燃料乙醇前景广阔,生物质高值化利用需要重视 ································2 储能将改变未来能源格局·····································································4 印度计划 2022 年实现可再生能源容量 175GW:日本软银拟巨资介 ··············6 BP:技术决定能源未来 促进全球低碳转型 ·············································7 科技前沿 浙大“微生物转化生物质油气燃料的能质传递强化机理”研究成果突出 ········9 绿藻太阳能转化成生物氢获突破,达成高效制氢 8 小时····························9 德国:模仿蝶翼提升太阳能电池吸光率·················································10 中国科学院水生所微藻生物能源中试并显著降低生产成本 ······························11 青岛能源所建立拉曼介导靶向元基因组技术研究海洋固碳机制 ··················12 产业动态 2017 年美国玉米基燃料乙醇出口创新高,中国进口锐减···························14 哈尔滨将建 200 处 2 兆瓦秸秆沼气项目——农村可再生分布式能源的新进展 16 上海:让更多车“喝上”地沟油··························································16 雄安新区电网规划:全球首个全时段 100%清洁电能城市电网 ···················17 秸秆变天然气, 农民年增收千万··························································17 中国科学院青岛生物能源所高浓度发酵等多项技术获赞 ·································18
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  • 《生物能源科技动态监测快报》
    • 来源专题:中国科学院文献情报先进能源知识资源中心 |领域情报网
    • 编译者:guokm
    • 发布时间:2018-12-29
    • 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
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