1)low-carbon energy低碳能源
1.It is an important part of Low-Carbon Energy in China.在过去30年中,我国在节能方面取得了巨大成就,可以概括为具有中国特色的能源使用管理,它是低碳能源的重要组成部分。
英文短句/例句
1.From High-Carbon Energy to Low-Carbon Energy--Prospects of Clean Coal Conversion;从高碳能源到低碳能源——煤炭清洁转化的前景
2.The UK Low Carbon Transition Plan and Some Revelations to China英国低碳能源战略白皮书及对我国的启示
3.The EU Issues a Strategy Energy Technology Plan,Aiming to be the World's Leader of Low Carbon Technology欧盟发布战略能源技术计划 欲抢占低碳能源技术制高点
4.Low CO2-Emitting Energy Supply System二氧化碳低排放能源供应系统
5.Research on Phosphorus and Nitrogen Removal by Modified A~2/O Process with Low-carbon and Low-energy Consumption;低碳源、低能耗型改良A~2/O工艺脱氮除磷研究
6.Study on the Pattern of China Low-Carbon Economy中国特色的低碳经济、能源、电力之路初探
7.From Creating a Low Carbon Economy to Meeting the Energy Challenge--Interpreting the Development and Characteristics of the UK Energy Policy从创建低碳经济到应对能源挑战——解读英国能源政策的变化与特点
8.Study on Estimation Method of Carbon Emission to Energy Carbon Sources in China;我国能源类碳源排碳量估算办法研究
9.phosphorous Removal with Oxidation Ditch Process under Situation of Low Carbon低碳源情况下氧化沟工艺除磷的方式
10.Research on Simultaneous Nitrogen and Phosphorus Removal at Low Oxygen Concentration from Low-carbon Municipal Sewage低碳源城市污水的低氧同步脱氮除磷研究
11.cold-rolled carbon steel冷轧碳钢, 低碳钢
12.Effect of Nb and Cr on microstructure and properties of low C and low Si cold-rolled high strength dual-phase steelsNb和Cr对冷轧低碳低硅双相钢组织性能的影响
13.Effect of Manganese Content on Structures and Properties of Low Carbon White Cast Iron锰对低碳白口铸铁组织与性能的影响
14.An Investigation on Structure and Properties of Cr-Ni-Mn-Mo Low Carbon High Alloy Steel;铬镍锰钼低碳高合金钢组织性能研究
15.Study on the Microstructure and Properties of Low Carbon Bainitic Steel Q460E;Q460E低碳贝氏体钢的组织与性能研究
16.Study on Low-energy Light Absorption of SWNTs;单壁碳纳米管低能区光吸收性质研究
17.Study on Microstructure and Performance of CSP-Low Carbon Cold-rolled Sheet;CSP-低碳冷轧薄板组织与性能的研究
18.Effect of α-Al_2O_3 Micro-powder on Properties of Low Carbon MgO-C Refractoriesα-Al_2O_3微粉对低碳MgO-C材料性能的影响
相关短句/例句
low-carbon generation低碳电源
3)low carbon source低碳源
1.The composite process of contact oxidation and enhanced coagulation treating municipal sewage was investigated on the condition of low carbon source.在低碳源条件下,研究了接触氧化-强化混凝组合工艺处理城镇污水的运行结果。
2.The enhanced nitrogen and phosphorus removal from municipal wastewater with low carbon source was studied.在活性污泥释磷规律研究的基础上进行中试,对常规A2/O工艺进行改进,提出适用于低碳源城市污水的强化脱氮除磷工艺。
4)carbonaceous energy含碳能源
1.In order to determine the effects of different absorbent regeneration modes on the process of hydrogen production, and based on the idea of directly-producing hydrogen from carbonaceous energy, two modes are suggested in this paper.为了确定CO2吸收剂的不同再生方式对整个制氢过程的影响,根据含碳能源直接制氢的基本思路,构建了2种不同的制氢系统:碳部分转化(PCC)再生供热和化学链(氧化镍NO)反应供热。
2.On the base of thermodynamic analysis of the system of direct hydrogen production from carbonaceous energy, this paper build up a constant volume experimental apparatus, and carried out experimental studies with different parameters.本文在对构建的含碳能源直接制氢体系进行热力学分析的基础上,建造了含碳能源直接制氢近零排放定容实验系统,并进行了不同参数下的实验研究。
5)Carbon sources能源碳
6)high-carbon energy高碳能源
延伸阅读
发电能源在一次能源消费中的比重发电能源在一次能源消费中的比重the share of energy for electricity generation in total primary energy fad旧n nengyuan za一y一ei nengyuan x.oofe一zhong由b lzhong发电能源在一次能派消费中的比,(theshare of energy for eleetrieity罗neratinn in totalprimary energy)是表征一个国家国民经济电气化程度的一个指标。在一次能源总消费中,发电用能源的比例越大,电力在能源系统中的地位越重要,国民经济电气化的程度就越高。由于使用电力比直接使用石油、天然气和煤炭等一次能源的效率高,且电力用途广泛,使用灵活方便,不污染环境,可靠性高,因此.世界各国的电力生产和消费以高于能源的速度增长,发电用能源在一次能源总消费t中的比例日益增大。下表列出了一些国家发电用能源占一次能源总消费的比例变化情况。一些日家发电能一占一次能派总消.一的比,(%)┌──┬───┬───┬──┬───┬──┬───┬───┐│年份│美国 │日本 │德国│加章大│法国│英国 │中国 │├──┼───┼───┼──┼───┼──┼───┼───┤│1970│28.4 │31。1 │ │43.3 │23.8│ │ │├──┼───┼───┼──┼───┼──┼───┼───┤│1980│37。65│44.9 │30.7│57.1 │36.1│39.7 │20.60 │├──┼───┼───┼──┼───┼──┼───┼───┤│1990│41.79 │50.30 │33.7│58.9 │46.0│37。6 │24.68 │├──┼───┼───┼──┼───┼──┼───┼───┤│1995│40.50 │51.50 │35.8│63.7 │57.0│36.7 │29.58 │├──┼───┼───┼──┼───┼──┼───┼───┤│1996│41。0 │50.7 │34.9│64。3 │54.2│35.4 │30.76 │└──┴───┴───┴──┴───┴──┴───┴───┘ 注:1.资料来浑日本海外电力调查会《海外电气事业统 计》和《中国电力统计资料》. 2.说明:(l)电力消费t系按电厂的发电t或净发电 t计算;(2)美国、日本、法国、英国系按供电热 效率计算煤耗,铭国、加幸大系按发电热效率计算 煤耗,中国则立接按发电煤耗计算;(3)发电能浑 消费(含火电、水电、核电等)均用上述计算的煤 耗乘以各自的总发电t。
