{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"研究了Beechwood焦过程中的NO释放行为,讨论了热解温度、热解气氛、二次热解对焦过程中NO释放的影响.结果显示Beechwood焦中氮含量的增加主要是由于焦对N2的吸附引起的,热解温度对Beechwood焦吸附N2的能力有较大影响.纤维素、半纤维素和木质素的试验显示纤维素具有一定的吸附N2的能力,而半纤维素对N2的吸附能力较差,几乎不吸收N2,木质素对N2的吸附能力不能确定.","authors":[{"authorName":"郑瑛","id":"5746eef2-4ad5-46c4-9720-aa057cc7e307","originalAuthorName":"郑瑛"},{"authorName":"郑楚光","id":"3e68ccab-13fd-4b91-a3b4-dbcf3fd3dd7b","originalAuthorName":"郑楚光"},{"authorName":"","id":"e64255e9-8f29-4108-b32e-499dbc101457","originalAuthorName":""},{"authorName":"","id":"00344b65-d23b-4ab2-81e8-66b72f79e37a","originalAuthorName":""}],"doi":"","fpage":"873","id":"9d813d3d-5233-4b0a-b1a8-38adb2b42f56","issue":"5","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报 "},"keywords":[{"id":"23eba443-a513-4303-b1de-84deaca87545","keyword":"NO释放","originalKeyword":"NO释放"},{"id":"e89f26b0-33ac-4bb3-80de-1b095a521524","keyword":"生物质","originalKeyword":"生物质"},{"id":"09ff794a-8047-4eb3-aebe-9cdc18f4763f","keyword":"热解","originalKeyword":"热解"},{"id":"d0e8e845-224e-44dc-81ba-6f62f65cb42c","keyword":"","originalKeyword":"燃尽"},{"id":"72c3915a-8e66-41e3-9d78-1656c0a7f5d1","keyword":"纤维素","originalKeyword":"纤维素"}],"language":"zh","publisherId":"gcrwlxb200905043","title":"生物质焦烬过程中NO释放行为的研究","volume":"30","year":"2009"},{"abstractinfo":"本文应用量子化学密度泛函理论B3PW91方法,在lanl2dz基组水平上研究了飞灰中未炭表面对汞的微观吸附机理.建立了表征未炭的饱和簇模型,讨论了该簇模型在不同的情况下对汞的吸附作用,计算得出吸附能,并做出了相关的实验解释.结果表明量子化学的理论计算是揭示汞等痕量元素的吸附机理以及筛选合适吸附剂的一种有效方法.","authors":[{"authorName":"李猛","id":"6f6e8444-1d46-4c08-9ee9-adbd608b582f","originalAuthorName":"李猛"},{"authorName":"刘晶","id":"d61fa041-bfb9-44bc-bba0-084ec00f29df","originalAuthorName":"刘晶"},{"authorName":"郑楚光","id":"fb69bf69-db57-4f85-95d9-9749b78e1bc9","originalAuthorName":"郑楚光"}],"doi":"","fpage":"882","id":"c3a825b2-b579-4e05-856f-a5e56de8622a","issue":"5","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报 "},"keywords":[{"id":"edf58a2a-df03-4580-8837-93ffda5f14ac","keyword":"汞","originalKeyword":"汞"},{"id":"1152b739-c76f-4d6b-95a2-3871b0700a1e","keyword":"未炭","originalKeyword":"未燃尽炭"},{"id":"8aa7503d-be42-465a-8685-bfdf5ce06ee0","keyword":"簇模型","originalKeyword":"簇模型"},{"id":"2f726d88-e5d9-4b38-8e8c-2aaa5a9259ec","keyword":"吸附","originalKeyword":"吸附"}],"language":"zh","publisherId":"gcrwlxb200705050","title":"未炭表面吸附汞的机理研究","volume":"28","year":"2007"},{"abstractinfo":"本文利用平面火焰携带流反应器研究了DT烟煤在富氧燃烧条件下的燃烧实验.采用灰示踪法分析煤焦的和元素释放特性,并采用等密度模型计算了基于氧化反应C+0.5O2 →CO的表观反应动力学参数.研究结果表明:煤粉在富氧燃烧条件下的慢于空气燃烧;富氧燃烧条件下,煤焦与CO2的气化反应会导致煤焦表面对O的化学吸附,进而导致氧元素释放速率减慢;高氧浓度条件下,高浓度CO2对煤焦的抑制作用大于CO2气化反应对煤焦的促进作用,降低环境氧浓度可以逐步提高CO2气化反应对煤焦的贡献.","authors":[{"authorName":"黄晓宏","id":"809d7578-27d8-484a-972a-446ab04e1896","originalAuthorName":"黄晓宏"},{"authorName":"皮理刚","id":"9129e73e-12b0-436d-8be3-d6d446fdb186","originalAuthorName":"皮理刚"},{"authorName":"柳朝晖","id":"38e1b983-c7d8-4aee-8de3-f476cecdc718","originalAuthorName":"柳朝晖"},{"authorName":"张泰","id":"01525841-a099-4e0f-a0f8-981fb5976a51","originalAuthorName":"张泰"},{"authorName":"卢兴","id":"b392cc6c-aac5-40ef-9380-1e3b10ee6a5f","originalAuthorName":"卢兴"},{"authorName":"郭军军","id":"fdeb58bc-e149-419b-9f81-2534e09c5758","originalAuthorName":"郭军军"},{"authorName":"郑楚光","id":"15bb4a26-351d-490f-9930-25d41415b918","originalAuthorName":"郑楚光"}],"doi":"","fpage":"441","id":"35f688a6-8767-4ef3-9517-c3b9fa2e2c77","issue":"2","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报 "},"keywords":[{"id":"810c0ec5-64ce-4ccd-af5b-77df029d9957","keyword":"富氧燃烧","originalKeyword":"富氧燃烧"},{"id":"b6dd997f-c4e4-44b2-8e21-85c19ed46fea","keyword":"特性","originalKeyword":"燃尽特性"},{"id":"2fcbd563-bd53-41f9-adc6-123da9f3fc9c","keyword":"元素释放","originalKeyword":"元素释放"},{"id":"21dd5874-296e-4070-87a3-d2fa7cc30273","keyword":"表观反应动力学","originalKeyword":"表观反应动力学"}],"language":"zh","publisherId":"gcrwlxb201502047","title":"富氧燃烧条件下煤焦的特性","volume":"36","year":"2015"},{"abstractinfo":"本文应用量子化学密度泛函理论B3PW91方法,研究了NO对飞灰中未炭吸附汞的影响机理.建立了含有NO的未炭固体表面簇模型,计算得到了单质汞在含有NO的未炭表面的不同吸附位、吸附构型和吸附能.不同吸附方式中,NO平行吸附在未炭表面时最稳定.NO对单质汞在飞灰未炭表面的吸附的影响机理比较复杂,与烟气中NO的含量有关.研究结果表明量子化学的理论计算是揭示汞等痕量元素的吸附机理的一种有效方法.","authors":[{"authorName":"屈文麒","id":"e7d85307-6845-4346-86d0-bb1eef39bf21","originalAuthorName":"屈文麒"},{"authorName":"刘晶","id":"05f247b7-7f77-4521-b0aa-29b64fd54864","originalAuthorName":"刘晶"},{"authorName":"袁锦洲","id":"94042f54-7a94-4354-ac2e-d64a724ae4f4","originalAuthorName":"袁锦洲"},{"authorName":"刘洋","id":"659176af-e233-48ff-8e42-19ae34d3b290","originalAuthorName":"刘洋"},{"authorName":"郑楚光","id":"2dc3f6b6-eda1-4797-a2dc-60dc7dd1ead1","originalAuthorName":"郑楚光"}],"doi":"","fpage":"523","id":"c98a76f9-a83c-4f57-b173-241cbf0ccfbb","issue":"3","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报 "},"keywords":[{"id":"b5a6dad7-2577-4fef-a6a4-2802a96c0bfa","keyword":"汞","originalKeyword":"汞"},{"id":"65500d9a-eca0-4801-81df-8893fdcb637e","keyword":"一氧化氮","originalKeyword":"一氧化氮"},{"id":"56bb0019-623f-4add-9c9a-9a83dfff2da0","keyword":"未炭","originalKeyword":"未燃尽炭"},{"id":"191a4bec-a50b-4f87-bc5c-9f477c382312","keyword":"吸附","originalKeyword":"吸附"},{"id":"9b1f20b4-5fd9-4a26-8444-066b52be2a61","keyword":"飞灰","originalKeyword":"飞灰"}],"language":"zh","publisherId":"gcrwlxb201003042","title":"NO对未炭吸附汞影响的机理研究","volume":"31","year":"2010"},{"abstractinfo":"为了降低410t/h电站煤粉锅炉的NOx排放,在实炉上进行了热态试验,在最上层二次风喷口的上方装设了分离式风(SOFA)喷口.试验结果表明,投入分离式风SOFA后,炉内形成了良好的空气分级燃烧工况,显著降低了NOx的排放浓度,最高降低了43.4%.二次风缩腰型配风方式相较于宝塔型配风方式,更有利于降低NOx排放浓度.另外,投入风后,经过燃烧调整主蒸汽温度的变化可控制在3℃以内,锅炉排烟温度变化不明显,因此,风对机组运行影响不大,可充分保持锅炉机组原有的其它性能的稳定性.实炉尺度的热态试验数据为同类型的低NOx燃烧技术提供了重要的工程实践依据.","authors":[{"authorName":"王涌","id":"9e48fb42-0841-4004-9d9c-38947fda4c01","originalAuthorName":"王涌"},{"authorName":"周屈兰","id":"7b9d3f9f-d2b2-43d5-87a3-0409a3600e08","originalAuthorName":"周屈兰"},{"authorName":"刘国庆","id":"21964b7c-2014-40c4-8c6b-37a8eaa6d3a5","originalAuthorName":"刘国庆"},{"authorName":"景雪晖","id":"4c00fb67-159b-4920-9c97-6a1a6406499f","originalAuthorName":"景雪晖"},{"authorName":"刘入维","id":"0f387e77-3afb-40d9-bd0c-63059c92df77","originalAuthorName":"刘入维"}],"doi":"","fpage":"243","id":"348398bc-30d2-4dbd-b8ee-c0fc9582a1bf","issue":"2","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报 "},"keywords":[{"id":"e1dab302-62fc-48dd-bc23-55166dd6dd99","keyword":"风","originalKeyword":"燃尽风"},{"id":"d26f3bd8-5cf1-4fe0-86cd-d2eb8c5f24ae","keyword":"氮氧化物","originalKeyword":"氮氧化物"},{"id":"6e0b481a-7310-417d-a29b-0bcd60522f2e","keyword":"空气分级燃烧","originalKeyword":"空气分级燃烧"},{"id":"59e666aa-9858-4ac7-bb9f-38638a83fbaf","keyword":"电站锅炉","originalKeyword":"电站锅炉"}],"language":"zh","publisherId":"gcrwlxb201102016","title":"分离式风降低锅炉NOx排放的试验研究","volume":"32","year":"2011"},{"abstractinfo":"研究煤焦颗粒在过程中的结构和辐射特性变化,常采用等直径变密度和等密度缩核这两种极限结构模型.本文基于以上两种结构模型,并根据部分实验数据,对这两种模型分别进行了一定程度的更符合实际情况的改进;并以焦作煤为例,采用有效介质理论和Mie理论,以及基于Mie理论的包覆层球理论来初步计算焦作煤煤粉颗粒在不同率下的辐射特性.改进后的模型对实际燃烧过程中煤粉燃烧辐射传热的精确计算更具有参考意义.","authors":[{"authorName":"万大阳","id":"c8f1fc6d-4e7a-401d-b5a9-31705ea15818","originalAuthorName":"万大阳"},{"authorName":"程强","id":"f64211c0-dfff-4d25-8ae5-feeefae4e765","originalAuthorName":"程强"},{"authorName":"周怀春","id":"4d5b1654-d917-4813-9522-c663416bc8f4","originalAuthorName":"周怀春"}],"doi":"","fpage":"1184","id":"47dafebc-6a2b-4100-8f8a-7155de34a311","issue":"6","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报 "},"keywords":[{"id":"c0efa569-073b-4e19-a083-883a2f175b1f","keyword":"率","originalKeyword":"燃尽率"},{"id":"e3a0e659-d761-4aa8-a193-9503377fa6c2","keyword":"燃烧结构","originalKeyword":"燃烧结构"},{"id":"88fb0152-2a99-4e01-a4bb-50873fe85dab","keyword":"光学常数","originalKeyword":"光学常数"},{"id":"2a60486d-5836-4f0c-ac27-16a8fba471d8","keyword":"辐射特性","originalKeyword":"辐射特性"}],"language":"zh","publisherId":"gcrwlxb201306043","title":"煤颗粒辐射特性随率变化的计算研究","volume":"34","year":"2013"},{"abstractinfo":"以包含两种低挥发份贫煤在内的四种煤作为主燃料,在一维炉和一台93 kW卧式单角炉上对气体燃料再燃过程及煤粉和再燃燃料的特性进行了详细实验研究,同时对炉膛内NO_x浓度分布等进行了测量和分析.实验发现,再燃过程除了要采用合适再燃区停留时间外,气体再燃燃料还应选择在炉膛内NO_x浓度较大区域内喷入,以提高再燃脱硝效率.实验结果表明,即使采用低挥发份煤作为主燃料,当再燃区停留时间达到约0.7~0.9 s,气体再燃燃料比例达到10%~15%时,气体燃料再燃过程就能在保证煤粉颗粒率不明显降低前提下,获得50%以上的再燃脱硝效率.","authors":[{"authorName":"苏胜","id":"b4beba3d-fe17-4a4f-a5a4-5d50f415bdb7","originalAuthorName":"苏胜"},{"authorName":"向军","id":"0a9d8d5c-97b5-4248-928f-bc0beca1f7b7","originalAuthorName":"向军"},{"authorName":"孙路石","id":"2607b9e9-f51d-48e9-b51b-e33687e52337","originalAuthorName":"孙路石"},{"authorName":"胡松","id":"f84636be-7d64-4c9b-91f9-9de2a8a45a72","originalAuthorName":"胡松"},{"authorName":"邱建荣","id":"4a76785b-3acb-4192-a299-708cea8e1f64","originalAuthorName":"邱建荣"},{"authorName":"汪一","id":"f21e4c69-da28-47f6-903b-f57807745de7","originalAuthorName":"汪一"}],"doi":"","fpage":"1767","id":"0ee58665-20bc-4dfa-adf9-cbf2db9809bb","issue":"10","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报 "},"keywords":[{"id":"2a952c03-aff4-4aa7-84eb-864852416053","keyword":"一维炉","originalKeyword":"一维炉"},{"id":"8ae2f140-acd9-4c2a-a56e-f8585f390312","keyword":"单角炉","originalKeyword":"单角炉"},{"id":"4bc62d93-12b1-448c-9769-b919a5a0415a","keyword":"再燃","originalKeyword":"再燃"},{"id":"79c81f4f-926e-4b5d-a796-9865721e1d4f","keyword":"氮氧化物","originalKeyword":"氮氧化物"}],"language":"zh","publisherId":"gcrwlxb200910042","title":"再燃降低NO_x排放及煤粉特性研究","volume":"30","year":"2009"},{"abstractinfo":"根据对象锅炉结构特性和煤质特性提出了三种风布置方式,并对风风率对不同布置方式下炉内燃烧和NOx排放的过程进行了数值模拟分析.研究表明,风率为30%左右时,三种布置方式下锅炉各参数都表现出合理的水平,并且能够满足NOx排放要求.两段送风的深度空气分级方式在煤粉的燃烧和,降低NOx的排放量方面效果较好,更为适合四角切圆锅炉的低氮燃烧改造.","authors":[{"authorName":"刘帅","id":"4285584b-4d9f-4222-8d36-c580ba09e3a0","originalAuthorName":"刘帅"},{"authorName":"孙路石","id":"208cd62e-d9b3-4e4d-afa3-da38f2ec2743","originalAuthorName":"孙路石"},{"authorName":"李楠","id":"909bb9d9-0369-4908-bff3-854bc464b2a4","originalAuthorName":"李楠"},{"authorName":"曲庆功","id":"75c0a0be-1c76-49e9-b8d2-6dddf5b92c00","originalAuthorName":"曲庆功"},{"authorName":"赵鹏","id":"5ca6840c-b1e7-48e0-ab27-97b8446f1e73","originalAuthorName":"赵鹏"},{"authorName":"向军","id":"d324505b-e022-4c4d-8b39-86c4cf349a0f","originalAuthorName":"向军"},{"authorName":"胡松","id":"74bc64c6-df09-4e8b-91f9-cbe080162110","originalAuthorName":"胡松"},{"authorName":"苏胜","id":"ae195efd-6206-4f18-bf6d-f63f2bf13ebd","originalAuthorName":"苏胜"}],"doi":"","fpage":"2293","id":"a45f2980-2130-41b3-830a-7bdccb9027c8","issue":"10","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报 "},"keywords":[{"id":"cabd6309-e8b5-4835-8a63-b0ddd4f82d52","keyword":"NOx排放","originalKeyword":"NOx排放"},{"id":"ab658869-7415-4f3a-9adb-43608e651cc3","keyword":"四角切圆锅炉","originalKeyword":"四角切圆锅炉"},{"id":"37363e92-a21b-4002-ae0f-49ada886ff69","keyword":"数值模拟","originalKeyword":"数值模拟"},{"id":"e7563868-1e80-4e2c-8990-21636b41f511","keyword":"分离式风","originalKeyword":"分离式燃尽风"}],"language":"zh","publisherId":"gcrwlxb201510045","title":"300 MW四角切圆锅炉风布置方式对低氮燃烧特性的影响","volume":"36","year":"2015"},{"abstractinfo":"利用热重分析研究了O2/CO2气氛下污泥与煤混特性,基于热重(TG)和微商热重(DTG)分析曲线,分析了泥煤比、升温速率和气氛对污泥与煤混特性的影响.结果表明:在21%O2/79%CO2气氛下,污泥与煤混合物的着火温度随泥煤比的上升而显著降低,最大失重速率随着升温速率的提高而提高.随着氧浓度由21%提高到50%,温度从708.3℃降低至599.8℃,污泥与煤混合物的时间也明显缩短.21%O2/79%N2气氛下污泥与煤混合物的燃烧特性介于21%O2/79%CO2和30%O2/70%CO2气氛之间.","authors":[{"authorName":"戴昕","id":"b6151919-bd21-4a6f-a943-1488d837afb4","originalAuthorName":"戴昕"},{"authorName":"卢平","id":"0886a907-8e3c-4e54-b509-409d9ddee082","originalAuthorName":"卢平"},{"authorName":"祝秀明","id":"c6b14ffe-6944-444b-b9ef-227b22d25bd8","originalAuthorName":"祝秀明"},{"authorName":"李珂","id":"fddb3741-cce7-4320-a165-b5b61332cad7","originalAuthorName":"李珂"},{"authorName":"王若琳","id":"310713d9-3ae8-443d-84f8-0a8ea4be88c6","originalAuthorName":"王若琳"},{"authorName":"布雨薇","id":"c62d017c-87d6-433f-9881-a71543609743","originalAuthorName":"布雨薇"}],"doi":"","fpage":"1376","id":"1bd2c005-e387-4ff8-9bb8-03f2eaf6c992","issue":"6","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报 "},"keywords":[{"id":"947b6114-f6aa-4b46-8ca5-35f318d66f8c","keyword":"污泥","originalKeyword":"污泥"},{"id":"f55d1a45-6cf2-4861-9027-b2e869b157c9","keyword":"混","originalKeyword":"混燃"},{"id":"d6279905-f6b1-4011-ac61-3c759a2493fc","keyword":"O2/CO2气氛","originalKeyword":"O2/CO2气氛"},{"id":"979548f7-21bd-4488-bed6-dc47b11797ff","keyword":"热重分析","originalKeyword":"热重分析"}],"language":"zh","publisherId":"gcrwlxb201506044","title":"O2/CO2气氛下污泥与煤混特性研究","volume":"36","year":"2015"},{"abstractinfo":"为了分析池内的燃烧过程、设计制造了水平和竖直的纤维质燃料阴实验台,进行三阴过程气体成分的实验分析,实验结果给出了在不同的阴阶段CH4、H2、CO和CO2等气体的生成规律,以及含水量、空气量和阴传播方向等对生成气体的影响,为深入研究阴的机理,提高池的用能水平提供了必要的依据.","authors":[{"authorName":"孙文策","id":"dd92ab23-3ec9-4ab0-bb1e-f41536987d8a","originalAuthorName":"孙文策"},{"authorName":"解茂昭","id":"c47764a6-c02e-4a84-86c0-50516d6ef6d2","originalAuthorName":"解茂昭"},{"authorName":"郭晓平","id":"cf47b170-2bc9-4b64-b8bd-02bff05fa556","originalAuthorName":"郭晓平"},{"authorName":"郑艺华","id":"5030b12a-9ab1-423b-a456-2391d2a54a44","originalAuthorName":"郑艺华"}],"doi":"","fpage":"393","id":"e01d586a-d292-434d-9c66-99dbbbcdb131","issue":"3","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报 "},"keywords":[{"id":"3515aa03-7488-414f-bb6a-2747c2e0560c","keyword":"池","originalKeyword":"燃池"},{"id":"1c15bbd4-44d9-4811-a27b-bae883e378e6","keyword":"阴","originalKeyword":"阴燃"},{"id":"e42a266d-7f2a-4b6f-b4c4-b638f03b5ec9","keyword":"实验","originalKeyword":"实验"}],"language":"zh","publisherId":"gcrwlxb200003031","title":"池内的阴过程的实验分析研究","volume":"21","year":"2000"}],"totalpage":61,"totalrecord":603}