XLS《Sheet1》

"附件1", "《国家重点节能技术推广目录》(1-6批)技术更新情况表" "序号","技术名称","适用范围","主要技术内容","典型项目",,

,,

,"目前推广比例(%)","预计节能减碳潜力",,

, ,,

,,

"适用的技术条件","建设规模","投资额(万元)","节能量(tce/a)","二氧化碳减排量(tCO2/a)",,

"该技术在行业内的推广潜力(%)","预计总投入(万元)","预计节能能力(万tce/a)","预计二氧化碳减排能力(万tCO2/a)" "1","煤矿低浓度瓦斯发电技术","煤炭行业矿井抽采瓦斯发电","以矿井抽采的低浓度瓦斯为燃料,通过低浓度瓦斯发电机组进行过氧燃烧发电.

","单机500-2500kW","1MW-20MW","500-10000","典型项目按5MW计算10000t标煤/10台年","典型项目按5MW计算10万tCO2/a","0.300000152587891","0.800000610351563","1000000","400","4000" "2","矸石电厂低真空供热技术","煤炭行业矿山民用及办公建筑采暖","将汽轮发电机正常凝汽温度由40℃提高至80℃,通过热交换形成55-60℃的循环水,从而实现低真空供热.","3MW汽轮发电机组","2*3MW机组","1170","4226t标煤/120天采暖期","11157tCO2/120天采暖期","0.200000152587891","0.700000610351562","585000","24","63" "3","储运扬尘防治成套技术及装备","煤炭、粉料的运输及露天堆放","本技术使用自行开发研制的抑尘剂通过设备被喷洒到煤炭或粉状物料表面后,使物料形成固化层,以达到防治扬尘、降低损耗的目的.","年运量在100万吨以上的煤炭装车点.","铁路煤炭运输,年运量8000万吨","300","54000","142560","0.75","0.850000610351562","35000","500","1320" "4","矿井乏风和排水热能综合利用技术","煤炭行业-煤矿中央并列式通风系统","选用水源热泵机组取代传统燃煤锅炉以充分利用地热.冬季,利用水处理设施提供的20℃左右的矿井排水和乏风作为热能介质,通过热泵机组提取矿井水中蕴含的热量,提供45~55℃的高温水为井口供暖.夏季,利用同样水源通过水源热泵机组制冷,通过整体降低进风流的温度来解决矿井高温热害问题.","煤炭矿井排水和乏风的平均温度≥15℃.","4000kW矿井乏风热能系统","926","1855.10125","4897.464","0.100000076293945","0.300000152587891","400000","55","145.2" "5","新型高效煤粉锅炉系统技术","煤炭行业供暖或生产用蒸汽、民用供暖","新型高效煤粉锅炉房系统采用煤粉集中制备、精密供粉、空气分级燃烧、炉内脱硫、锅壳(或水管)式锅炉换热、高效布袋除尘、烟气脱硫和全过程自动控制等先进技术,实现了燃煤锅炉的高效运行和洁净排放.","区域锅炉房供暖改造、工业锅炉改造","供热面积160万m2的煤粉锅炉房系统改造","4549","12350","32604","0.0500000381469727","0.150000076293945","2000000","0.800000610351563","2.112" "6","综采工作面高效机械化矸石充填技术","煤炭行业井工综采开采的矿井","采用自压式矸石充填机,以矸石充填巷道或采空区,替换出"三下"压煤,从而提高煤炭资源回采率和煤矸石的综合利用率,实现节能.","拥有煤矸石充填巷道、采空区及"三下压煤"等区域","年产150万吨的生产矿井单位建立多工作面矸石运输系统,优化矸石辅助运输系统","4076","128000","337920","0.0500000381469727","0.300000152587891","128000","420","1108.8" "7","煤矿矿井水超磁分离井下处理技术","煤炭行业煤矿矿井水资源化利用","对富含煤质悬浮物的矿井水在井下直接作净化处理,由此获得含一定热值的煤泥饼,并减小矿井水的密度,节省提升能耗.","应用于井下矿井水的处理","12000m3/d","600","2279.7","6018.408","80℃,烟气温度>200℃","SEPG500-1000/2400-1.65-S1套螺杆膨胀动力发电机组","900","2520","6652.8","0.0500000381469727","0.800000610351563","1000000","67","176.88" "43","电炉余热和加热炉余热联合发电技术","钢铁行业炼钢电炉、轧钢加热炉余热回收利用","采用余热锅炉技术最大限度回收烟气余热生产蒸汽.加热炉采用汽化冷却技术产出蒸汽.两种蒸汽混合后利用加热炉排烟余热进行过热,然后进入汽轮机做功发电.","50t以上的电炉","100t电炉和加热炉余热发电系统","5000","8769.605","23151.74","0.400000305175781","0.900000610351563","250000","43.8500390625","115.760078125" "44","矿热炉烟气余热利用技术","钢铁行业铁合金及化工行业电石","结合矿热炉生产运行情况,进行合理的矿热炉烟气封闭导出工艺改造,使矿热炉整体烟气无组织排放现状进一步改善;

根据矿热炉现有除尘条件,使烟气余热在有效导出利用的同时,保证铁合金生产主工艺的正常进行;

解决了矿热炉烟气中粉尘附着余热锅炉热交换器管壁的清除问题,提高余热利用效率.","硅铁类铁合金矿热炉余热利用","16台14000KVA矿热炉配套安装8台13t余热锅炉及24MW余热发电机组及配套设施","17100","67200","177408","0.400000305175781","0.800000610351563","1100000","105","277.2" "45","非稳态余热回收及饱和蒸汽发电技术","钢铁、有色金属、石化、建材、化工、轻纺等行业生产过程中产生的不稳定余热资源回收","非稳态余热经过高温除尘,通过余热锅炉将热量传递给循环工质,循环工质吸收热量后变为蒸汽进入储热器.储热器的作用是将非稳态的工况转化为稳态.稳态蒸汽进入机内除湿再热汽轮机做功,乏汽进入凝汽器,在其内凝结为水,经除氧后返回余热锅炉开始下一个循环,从而将非稳态余热资源转化为电能高效利用.","适用对于电炉或转炉等尾部烟气的流量和温度周期性变化的余热资源的回收","环保搬迁工程18MW余热电站","13617","37030","97759.2","0.0500000381469727","0.200000152587891","75000","30","79.2" "46","加热炉黑体技术强化辐射节能技术","钢铁行业各种加热炉","将一定数量高辐射系数(0.95以上)的黑体元件,安装在轧钢加热炉内炉顶和侧墙,增加辐射面积,增加有效辐射,提高加热质量,降低燃料消耗.","炉膛温800℃以上的加热炉窑","115万吨/年热带钢轧钢加热炉","320","6650","16625","0.150000076293945","0.400000305175781","120000","220","580.8" "47","棒材多线切分与控轧控冷节能技术","钢铁行业小规格螺纹钢轧制","1.多线切分轧制:减少加热炉待坯时间及轧制道次,提高轧制效率;

2.控轧控冷轧制:从轧前加热到轧后冷却整个过程实现最佳控制,提高螺纹钢强度,改善钢材塑性.","全连轧棒材生产线","80万吨棒材生产线","1200","102","269.28","0.100000076293945","0.400000305175781","17000","11","29.04" "48","钢水真空循环脱气工艺干式(机械)真空系统应用技术","钢铁行业炼钢真空精炼技术领域的RH工艺、VD及VOD工艺.","罗茨泵与干式螺杆泵相结合的机械真空泵系统.利用罗茨泵的超高抽气能力,对RH工艺废气"增压"来满足高抽气量的要求,利用干式螺杆泵的高压缩比将工艺废气压缩至大气压以上后排至大气,满足RH工艺真空度高、废气量大、快速抽真空的要求.","RH、VD及VOD工艺所必需的动力源真空系统","与210tRH配套、在67PaA条件下抽气能力为800kg/h(20℃干空气)的干式机械真空系统.","1750(与传统的蒸汽喷射式真空系统相比增加的投资额)","20539","54222.96","