{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"建立了微波辅助萃取-固相微萃取-气相色谱(MAE-SPME-GC)同时测定茶叶中六六六(α-BHC,β-BHC,γ-BHC,δ-BHC 4种异构体)、滴滴涕类(DDD,DDE,o,p′-DDT,p,p′-DDT)、氯氰菊酯(cypermethrin)和氰戊菊酯(fenvalerate)等10种农药残留的方法.采用外标法定量,除氰戊菊酯外,农药的质量浓度与其色谱峰面积在一定范围内有较好的线性关系,相关系数为0.970 5~0.998 4.10种组分的加标回收率为64%~121%,相对标准偏差为10.4%~22.9%,检测限为1~50 ng/L.应用该方法测定了市场上3种茶叶中上述农药残留的含量.","authors":[{"authorName":"袁宁","id":"c0910437-7f8d-4cd7-beea-0b312f510738","originalAuthorName":"袁宁"},{"authorName":"余彬彬","id":"b5668494-4aeb-4ff3-b820-dd0f04838495","originalAuthorName":"余彬彬"},{"authorName":"张茂升","id":"3286693f-caab-4628-b3af-9cc9ca68d0bd","originalAuthorName":"张茂升"},{"authorName":"曾景斌","id":"1cf1bef7-de9e-4da0-85d9-5f8ab9602e76","originalAuthorName":"曾景斌"},{"authorName":"陈曦","id":"8570b039-7351-4753-b03b-d286b1500ffc","originalAuthorName":"陈曦"}],"doi":"10.3321/j.issn:1000-8713.2006.06.023","fpage":"636","id":"f49d27a8-d9b6-410d-8c9b-e45c3e61a0c4","issue":"6","journal":{"abbrevTitle":"SP","coverImgSrc":"journal/img/cover/SP.jpg","id":"58","issnPpub":"1000-8713","publisherId":"SP","title":"色谱 "},"keywords":[{"id":"c63059ae-4433-4f2d-9f8e-f419cc9378f2","keyword":"微波辅助萃取","originalKeyword":"微波辅助萃取"},{"id":"d2df76af-c5dd-4509-bb90-734aa7a6d4b5","keyword":"固相微萃取","originalKeyword":"固相微萃取"},{"id":"62c8e6d2-6be1-4232-a866-c20978605055","keyword":"气相色谱","originalKeyword":"气相色谱"},{"id":"c662fd78-58a9-41db-bad2-8b1c90c2d5e8","keyword":"残留测定","originalKeyword":"残留测定"},{"id":"fe2f8f3d-0701-4496-9e06-a3aa95bc020e","keyword":"有机氯农药","originalKeyword":"有机氯农药"},{"id":"2d598a8c-dec3-4591-a4ad-191a4a7667e6","keyword":"拟除虫菊酯农药","originalKeyword":"拟除虫菊酯农药"},{"id":"cd55a499-8524-4c62-b137-68f67b29ff85","keyword":"茶叶","originalKeyword":"茶叶"}],"language":"zh","publisherId":"sp200606023","title":"微波辅助萃取-固相微萃取-气相色谱法同时测定茶叶中的有机氯和拟除虫菊酯农药残留","volume":"24","year":"2006"},{"abstractinfo":"以江西某地石煤为原料,采用直接酸浸—萃取—反萃—沉钒—煅烧的工艺进行萃余液循环利用实验,对石煤提钒萃余液循环利用过程中V浸出率、V萃取率,萃取现象,V2O5产品质量与萃余液循环次数之间的关系及杂质元素Al,K,Ca,Mg,Fe,Si在萃余液循环利用过程中的行为进行了研究.研究表明:萃余液的循环利用对V浸出率、V萃取率,萃取现象及V2O5产品质量的影响不大,在萃余液循环利用过程中,V的浸出率在92%~ 94%之间波动,V的一级萃取率在75%~78%之间波动,萃取现象正常,V2O5产品的品位始终大于98%;萃余液未循环时,浸出液中的Al,K,Ca已饱和,过饱和的Al,K以KAl(SO4)2(H2O)12的形式析出进入浸出渣中,过饱和的Ca以CaSO4的形式析出进入浸出渣中,使得萃余液循环过程中浸出液、萃原液、萃余液中Al,K,Ca的含量在第一次循环时急剧增加,随后增加趋势减缓,最终保持稳定;浸出液、萃原液、萃余液中Mg,Fe的含量随萃余液循环次数的增加逐渐累积,累积至一定程度后趋于稳定;浸出液、萃原液、萃余液中Si的含量在萃余液循环利用过程中基本不累积.","authors":[{"authorName":"张国斌","id":"0423c78e-24b7-403e-adde-ab013ebbea1a","originalAuthorName":"张国斌"},{"authorName":"张一敏","id":"6328758f-404c-4941-8feb-89fc4451b600","originalAuthorName":"张一敏"},{"authorName":"黄晶","id":"baeb8147-1a07-4ec1-b114-c3e65ca5576d","originalAuthorName":"黄晶"},{"authorName":"刘涛","id":"b8001140-7815-4a85-921a-b2c244a1d93e","originalAuthorName":"刘涛"},{"authorName":"王非","id":"d53edb30-4b0d-4d77-badf-c8912afa2682","originalAuthorName":"王非"},{"authorName":"王一","id":"b946399b-305d-4e7e-9f0d-d40e16895434","originalAuthorName":"王一"}],"doi":"10.3969/j.issn.0258-7076.2013.06.016","fpage":"952","id":"329215fd-f46f-4a0e-a9e5-92c05ea5bc0f","issue":"6","journal":{"abbrevTitle":"XYJS","coverImgSrc":"journal/img/cover/XYJS.jpg","id":"67","issnPpub":"0258-7076","publisherId":"XYJS","title":"稀有金属"},"keywords":[{"id":"dd55a88f-fa04-40d1-9273-ab6782d6f25c","keyword":"石煤","originalKeyword":"石煤"},{"id":"c3c8e1d8-d396-491b-b252-e9edba0ddb54","keyword":"萃余液","originalKeyword":"萃余液"},{"id":"4212342e-f2e9-4d9e-ac82-267010cdec17","keyword":"萃取","originalKeyword":"萃取"},{"id":"4950e31f-76b4-4609-bda4-29a54a5790b4","keyword":"循环利用","originalKeyword":"循环利用"}],"language":"zh","publisherId":"xyjs201306016","title":"石煤提钒萃余液的循环利用研究","volume":"37","year":"2013"},{"abstractinfo":"为了合理利用返回的连铸铸余渣,对铸余渣组分进行分析,得到其碱度平均值为4.09,w(TFe+ MnO)平均值为1.64%,属于高碱度还原性炉渣.对4种铸余渣返回利用方式进行了对比分析,结果表明:返回利用效果优劣次序依次为出钢前、出钢后、LF精炼开始前和LF精炼造渣期.在转炉出钢前进行返回利用效果最佳,适宜的铸余渣返回量为5.0~12.0 kg/t,吨钢综合冶炼成本可节约5.94元.","authors":[{"authorName":"宋素格","id":"f1115a70-3bc2-4da2-a5a3-d500b061e038","originalAuthorName":"宋素格"},{"authorName":"王三忠","id":"c40b451d-8bd6-4cfe-88bc-9c9b03e1a3b7","originalAuthorName":"王三忠"},{"authorName":"张振申","id":"6a83cdb4-e587-4d77-9f08-c43de9cc5153","originalAuthorName":"张振申"},{"authorName":"王新志","id":"f198f3da-36e3-40f0-b4aa-9d8d97a7c3d3","originalAuthorName":"王新志"},{"authorName":"孙玉强","id":"e4e98525-eff0-480f-ad52-e2963e0182c0","originalAuthorName":"孙玉强"}],"doi":"","fpage":"54","id":"b00571eb-a873-4519-8b4b-37f78c49fe6a","issue":"6","journal":{"abbrevTitle":"GTYJ","coverImgSrc":"journal/img/cover/GTYJ.jpg","id":"29","issnPpub":"1001-1447","publisherId":"GTYJ","title":"钢铁研究"},"keywords":[{"id":"1d34faeb-eeb2-430e-907b-6649464d26c9","keyword":"铸余渣","originalKeyword":"铸余渣"},{"id":"823b6512-85bf-4150-887c-8becddbcb291","keyword":"返回利用","originalKeyword":"返回利用"},{"id":"e031e132-e2ed-44e4-9970-1d04c8d82c11","keyword":"冶炼成本","originalKeyword":"冶炼成本"}],"language":"zh","publisherId":"gtyj201306015","title":"连铸铸余渣的返回利用","volume":"41","year":"2013"},{"abstractinfo":"介绍了一种铝制内椭球面反射镜闪烁薄膜探测器, 对其探测效率、光收集效率和时间性能的测试.结果分析表明采用1 μm厚的BC498闪烁薄膜探测器测量实验中超重反冲余核, 探测效率接近100%, 时间分辨好于200 ps, 其性能满足超重反冲余核时间测量的要求.","authors":[{"authorName":"徐华根","id":"d8c83940-6c77-4047-a135-beea23a02149","originalAuthorName":"徐华根"},{"authorName":"徐瑚珊","id":"b4b8b50e-d7cd-4b98-b4b8-30d4338fc256","originalAuthorName":"徐瑚珊"},{"authorName":"李文飞","id":"c52b5362-db27-4cfd-9ede-4ec3d5cb94f8","originalAuthorName":"李文飞"},{"authorName":"贾飞","id":"ef9984e5-cc7c-46c0-9664-7009cc5b1f51","originalAuthorName":"贾飞"},{"authorName":"陈若富","id":"e411637e-e3aa-4cc2-a1c8-beca04bf12ba","originalAuthorName":"陈若富"},{"authorName":"张雪荧","id":"28e4144f-1a72-4ee6-92bb-6f3fd9059142","originalAuthorName":"张雪荧"},{"authorName":"马越","id":"e16e435f-f8b8-44f6-abdf-2b58a77a1fc2","originalAuthorName":"马越"},{"authorName":"李松林","id":"5f5ce334-2229-4bcf-aa2a-2de1bc72516d","originalAuthorName":"李松林"},{"authorName":"段利敏","id":"bc1199f1-051b-413e-a6a4-bb85b0390dcb","originalAuthorName":"段利敏"},{"authorName":"孙志宇","id":"6ec6f094-c7af-4bf7-9802-fbaedc797ac1","originalAuthorName":"孙志宇"},{"authorName":"肖国青","id":"a531f181-8d01-4567-9b3d-005a5f6fab75","originalAuthorName":"肖国青"},{"authorName":"郭忠言","id":"75e3171c-e19f-489f-9d0e-9e418795d57b","originalAuthorName":"郭忠言"},{"authorName":"詹文龙","id":"0bb587c5-2145-45eb-8363-a31911776e79","originalAuthorName":"詹文龙"}],"doi":"10.3969/j.issn.1007-4627.2005.01.030","fpage":"97","id":"6970bd0f-c705-4333-b4a2-f629af7be53f","issue":"1","journal":{"abbrevTitle":"YZHWLPL","coverImgSrc":"journal/img/cover/YZHWLPL.jpg","id":"78","issnPpub":"1007-4627","publisherId":"YZHWLPL","title":"原子核物理评论 "},"keywords":[{"id":"292488cc-2ded-456a-a608-4dc5557f3bd5","keyword":"闪烁薄膜探测器","originalKeyword":"闪烁薄膜探测器"},{"id":"706f025c-9fae-47d0-b483-ba784654dbed","keyword":"光收集效率","originalKeyword":"光收集效率"},{"id":"9d63bb2c-3b49-44d8-b6a0-c764c839555d","keyword":"探测效率","originalKeyword":"探测效率"},{"id":"356539f0-4016-4a74-8f6e-a65f7cbe95c7","keyword":"时间分辨","originalKeyword":"时间分辨"}],"language":"zh","publisherId":"yzhwlpl200501030","title":"超重反冲余核时间探测器性能测试","volume":"22","year":"2005"},{"abstractinfo":"余热余能发电可有效回收利用冶金生产过程中的二次能源,降低企业外购电力,提高企业经济效益.为落实钢铁产业发展政策,提高自发电比例,邯钢对余热余能发电进行了积极的探索.本文对邯钢目前的发电资源进行了分析,回顾了邯钢余热余能发电的历史,介绍了正在实施的燃气-蒸汽联合循环发电技术以及未来发展规划.","authors":[{"authorName":"王竹民","id":"b87e1e98-24fe-42ad-8dd5-0882285d4689","originalAuthorName":"王竹民"},{"authorName":"张怀东","id":"604ae6a1-b17a-4242-8926-40612df23f09","originalAuthorName":"张怀东"},{"authorName":"马连昌","id":"9d44e5f4-0143-4f4f-83fd-f7d5043125a4","originalAuthorName":"马连昌"}],"doi":"10.3969/j.issn.1000-6826.2006.05.008","fpage":"20","id":"15cf281d-343b-404e-b128-b00bd4c2beb1","issue":"5","journal":{"abbrevTitle":"JSSJ","coverImgSrc":"journal/img/cover/3abe017a-2574-4821-8152-4ae974ef0471.jpg","id":"47","issnPpub":"1000-6826","publisherId":"JSSJ","title":"金属世界"},"keywords":[{"id":"43020a34-38b6-43a8-807a-dc813107e2ea","keyword":"余热余能","originalKeyword":"余热余能"},{"id":"096c1b70-2ce5-4298-a076-3821350ab9d0","keyword":"发电","originalKeyword":"发电"},{"id":"ed334ac6-5c3f-41f5-96ae-10f3410f70d7","keyword":"现状","originalKeyword":"现状"},{"id":"7392c3d5-e7d4-4ab5-8422-dfefcf7f41e4","keyword":"规划","originalKeyword":"规划"}],"language":"zh","publisherId":"jssj200605008","title":"邯钢余热余能发电实践及发展规划","volume":"","year":"2006"},{"abstractinfo":"采用硫化沉淀工艺对铜萃余液中的铜、锌等有价金属进行了回收试验研究,考察了硫化沉淀pH值、硫化钠加入量和硫化反应时间等因素以及铜、锌共沉淀和分步沉淀对铜、锌回收率和精矿品位的影响.试验结果表明,铜、锌分步沉淀时,萃余液pH =2.5,加入1.2倍硫化钠用量,反应20 min,沉铜效果最好,铜回收率98.33%,精矿铜品位38.88%;pH =3.5,加入1.4倍硫化钠用量,反应20 min,沉锌效果最好,锌回收率为98.36%,精矿锌品位33.17%.该工艺可有效回收萃余液中的铜、锌等有价金属.","authors":[{"authorName":"俎小凤","id":"b62ccc92-224b-4f16-a5e2-5aeaffda9005","originalAuthorName":"俎小凤"},{"authorName":"王夏","id":"bbdea846-acf6-4e84-9156-cb297213ef92","originalAuthorName":"王夏"}],"doi":"10.11792/hj20130213","fpage":"50","id":"6202df96-e9ed-40b3-884e-79c3e76fe2af","issue":"2","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"5fcb5aa9-0362-49a5-a1de-dc30e59c0289","keyword":"萃余液","originalKeyword":"萃余液"},{"id":"7b752216-e232-43f9-9032-01aab505a385","keyword":"硫化沉淀","originalKeyword":"硫化沉淀"},{"id":"0caed3b3-3cdf-4738-a2e8-2756079c59bf","keyword":"铜","originalKeyword":"铜"},{"id":"7cf8bd78-5aae-416e-92c1-b19044629f0e","keyword":"锌","originalKeyword":"锌"}],"language":"zh","publisherId":"huangj201302013","title":"铜萃余液综合回收铜、锌试验研究","volume":"34","year":"2013"},{"abstractinfo":"介绍了武钢CSP钢包铸余渣的热态循环回收利用工艺,该工艺在LF炉对连铸钢包液态铸余渣进行了热态在线循环利用,深入分析了铸余渣循环利用过程中LF炉精炼终渣变化及其对钢水质量的影响.结果表明:通过热态渣的在线循环,LF炉造渣料及脱氧剂消耗大幅降低,其中石灰降低1.01 kg/t,精炼渣降低0.21 kg/t,脱氧剂铝合金降低0.20 kg/t,电耗降低3.66 kWh/t,回收了浇铸残余钢水,金属料消耗降低3.0 kg/t.","authors":[{"authorName":"何金平","id":"db49418f-b272-47ff-8c1d-2d9b092dba85","originalAuthorName":"何金平"},{"authorName":"刘先同","id":"a0480bdb-394f-44cd-8910-7283ad8babae","originalAuthorName":"刘先同"},{"authorName":"王春锋","id":"8689540d-6fbd-4bf7-9bf9-55ed8c8dd33a","originalAuthorName":"王春锋"},{"authorName":"钱龙","id":"4fc92bde-ceee-479e-bd7b-7cf97c708361","originalAuthorName":"钱龙"},{"authorName":"金奎","id":"6b4bf159-4b03-44c7-9aea-de34089d9f45","originalAuthorName":"金奎"}],"doi":"","fpage":"55","id":"ff2efae0-e443-496a-9ae5-ca778b36f4e2","issue":"2","journal":{"abbrevTitle":"GT","coverImgSrc":"journal/img/cover/GT.jpg","id":"27","issnPpub":"0449-749X","publisherId":"GT","title":"钢铁"},"keywords":[{"id":"74245ef1-103b-4e89-9540-fc7d25a23a01","keyword":"铸余渣","originalKeyword":"铸余渣"},{"id":"e94a3cdb-2d9a-44ae-b42f-16087f6273a9","keyword":"热态循环利用","originalKeyword":"热态循环利用"},{"id":"3ab80028-04d6-4cca-b050-d20283afb598","keyword":"残余钢水","originalKeyword":"残余钢水"}],"language":"zh","publisherId":"gtyj201402015","title":"钢包铸余渣的热循环利用","volume":"42","year":"2014"},{"abstractinfo":"结构极限分析是塑性力学的一个分支,在结构及机械设计中有广泛的应用.由于工程应用中受各种因素的影响,使得结构存在各种各样的缺陷.对该类结构进行极限分析研究,能反映结构的实际安全程度,而且能充分利用材料塑性性能的潜力.本文利用权余法中的配点法和子域法,结合塑性极限分析理论对含缺陷板和含缺陷圆柱壳结构进行了承载能力分析,得到了一些有意义的结果.","authors":[{"authorName":"张宏涛","id":"ff3a9b4a-afb2-4faa-a413-109eccff5392","originalAuthorName":"张宏涛"},{"authorName":"朱建明","id":"4d8da756-5aa7-4e4e-b1db-caf6b55f04ea","originalAuthorName":"朱建明"},{"authorName":"徐秉业","id":"51ee4f4e-4da6-4765-93fa-827f3deed29a","originalAuthorName":"徐秉业"}],"doi":"10.3969/j.issn.1000-6826.2009.z1.002","fpage":"4","id":"c1a63a64-61b3-4188-bb80-55c9167a2cf3","issue":"z1","journal":{"abbrevTitle":"JSSJ","coverImgSrc":"journal/img/cover/3abe017a-2574-4821-8152-4ae974ef0471.jpg","id":"47","issnPpub":"1000-6826","publisherId":"JSSJ","title":"金属世界"},"keywords":[{"id":"406f0f7d-0ab4-4398-89fb-802be73322e8","keyword":"极限分析","originalKeyword":"极限分析"},{"id":"edd58f12-3f2b-4d65-81ba-7fe0b2043584","keyword":"权余法","originalKeyword":"权余法"},{"id":"aeffd5f4-4564-458e-96a5-82fa3e1f7efe","keyword":"缺陷结构","originalKeyword":"缺陷结构"},{"id":"4b57c47c-54b6-4f41-a8e8-e311afb11185","keyword":"配点法","originalKeyword":"配点法"},{"id":"95053e10-837b-4001-854f-a7a0dc993cc7","keyword":"子域法","originalKeyword":"子域法"}],"language":"zh","publisherId":"jssj2009z1002","title":"含缺陷结构极限分析的权余法研究","volume":"","year":"2009"},{"abstractinfo":"以湖北某地区的石煤钙化焙烧熟料为原料,进行了焙烧熟料酸浸一浸出液净化除杂一净化液离子交换一交换余液补充硫酸酸浸一浸出液净化除杂的循环试验.考察了浸出液中SiO2、P、Cl-、SO2-4、Na+浓度和钒浸出率随余液循环次数增加的变化情况.研究结果表明,余液的循环使用对钒浸出率不产生明显影响;浸出液中的SiO2没有富集;P、SO2-4和Na+有一定的富集,其中P、SO2-4可以通过石灰中和的方式沉淀除去;Na+富集到一定程度后,在溶液中达到动态平衡,不影响溶液的循环.","authors":[{"authorName":"付自碧","id":"61c9d200-9f91-4360-b0d5-efb28b851207","originalAuthorName":"付自碧"},{"authorName":"张林","id":"3f764c2c-683b-4059-94d6-5c7ad4ce1f74","originalAuthorName":"张林"},{"authorName":"张涛","id":"cfce102a-670c-4a6b-a22b-8a3021b46798","originalAuthorName":"张涛"}],"doi":"","fpage":"21","id":"29c90b15-0f81-4da7-86d0-5729a5a0e651","issue":"3","journal":{"abbrevTitle":"GTFT","coverImgSrc":"journal/img/cover/gtft1.jpg","id":"28","issnPpub":"1004-7638","publisherId":"GTFT","title":"钢铁钒钛"},"keywords":[{"id":"8a9cdf4d-5a1c-4662-b80b-46f056c96a99","keyword":"石煤","originalKeyword":"石煤"},{"id":"bacb2a28-4549-4142-a34a-93eead9d5abd","keyword":"提钒","originalKeyword":"提钒"},{"id":"e8382adc-5c01-41dd-9779-6853c8dba286","keyword":"酸浸","originalKeyword":"酸浸"},{"id":"addd66fe-c41b-476b-8c15-bf6278483603","keyword":"离子交换","originalKeyword":"离子交换"},{"id":"3c4a036e-01cb-4075-a065-7fc3de57a78b","keyword":"余液","originalKeyword":"余液"},{"id":"537d8b04-517c-4092-8e70-70bb4b03ff47","keyword":"循环","originalKeyword":"循环"}],"language":"zh","publisherId":"gtft200903004","title":"含钒浸出液离子交换余液循环试验","volume":"30","year":"2009"},{"abstractinfo":"为探索高炉余能余热利用的新模式,并从热力学的角度寻求提高余能余热利用效率的方法,建立了高炉余能余热驱动的闭式回热布雷顿循环热电冷联产装置模型,应用有限时间热力学理论和方法对装置的(火用)输出率和(火用)效率进行了研究.通过数值计算讨论了回热器热导率和热电比的选择,优化了循环压比,分析了煤气放散率、压气机和涡轮机效率、制冷和供热温度、热风炉烟气侧热导率等设计参数对装置最优(火用)性能的影响,发现存在最佳的供热温度使(火用)输出率和(火用)效率分别获得最大值.","authors":[{"authorName":"陈林根","id":"8cca95c3-9110-4d9b-8f90-3866b17d1229","originalAuthorName":"陈林根"},{"authorName":"杨博","id":"aa71086a-b414-4486-8749-5d302963c4dc","originalAuthorName":"杨博"},{"authorName":"谢志辉","id":"015a370a-7fc8-4894-903e-77526c3a57db","originalAuthorName":"谢志辉"},{"authorName":"孟凡凯","id":"97a05777-5a1f-4bc5-a135-5de6f241de49","originalAuthorName":"孟凡凯"},{"authorName":"戈延林","id":"a9ae98b9-0baf-435d-86ed-7acea75d68fc","originalAuthorName":"戈延林"},{"authorName":"孙丰瑞","id":"2303347c-79cd-4aeb-94b2-5b5742f7a3b2","originalAuthorName":"孙丰瑞"}],"doi":"","fpage":"9","id":"e98be93d-e2f6-4d23-92ef-ef1fc8599760","issue":"5","journal":{"abbrevTitle":"GTYJ","coverImgSrc":"journal/img/cover/GTYJ.jpg","id":"29","issnPpub":"1001-1447","publisherId":"GTYJ","title":"钢铁研究"},"keywords":[{"id":"1551a1c3-82ab-4ec2-9e65-5510945f9e29","keyword":"高炉余能余热","originalKeyword":"高炉余能余热"},{"id":"90cde9a2-4067-43b6-93fe-380fb3b008f9","keyword":"闭式回热布雷顿循环","originalKeyword":"闭式回热布雷顿循环"},{"id":"7b2a1bfc-36bb-4b6e-a734-e735536b3d9c","keyword":"热电冷联产","originalKeyword":"热电冷联产"},{"id":"94ce5ed5-9838-47b5-a15b-2f46240fca6a","keyword":"(火用)输出率","originalKeyword":"(火用)输出率"},{"id":"ac98c046-0d6d-461c-bfc0-9bea50daadf1","keyword":"(火用)效率","originalKeyword":"(火用)效率"}],"language":"zh","publisherId":"gtyj201305003","title":"高炉余能余热驱动回热布雷顿CCHP装置(火用)分析","volume":"41","year":"2013"}],"totalpage":25,"totalrecord":250}