{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"随着能源价格逐步上涨与环保压力日益加重，钢铁企业亟待采取一种高效的能源使用方式来缓解当前面临的不利局面。富氧燃烧作为一种先进的燃烧方式，其应用的规模和范围正在不断扩大。讨论了富氧燃烧技术在节能及环保方面的技术优势，针对太钢某轧钢厂加热炉的现状，分析了富氧燃烧应用的可行性与节能效果，并进行了应用实证分析。","authors":[{"authorName":"闫振武","id":"b763038b-7000-4f22-8399-b8768213c570","originalAuthorName":"闫振武"}],"doi":"10.13228/j.boyuan.issn0449-749x.20140293","fpage":"85","id":"b00bb207-ef5d-4df0-bf09-4e6d4d2633fd","issue":"2","journal":{"abbrevTitle":"GT","coverImgSrc":"journal/img/cover/GT.jpg","id":"27","issnPpub":"0449-749X","publisherId":"GT","title":"钢铁"},"keywords":[{"id":"e68109bd-0a17-464f-a9b7-1cfbee64a0b1","keyword":"富氧燃烧","originalKeyword":"富氧燃烧"},{"id":"f0cfc08b-a99d-4031-9ef5-d67e8202ac86","keyword":"节能","originalKeyword":"节能"},{"id":"d9821d69-8364-4b6c-a262-8b07861db134","keyword":"可行性分析","originalKeyword":"可行性分析"}],"language":"zh","publisherId":"gt201502017","title":"富氧燃烧在太钢加热炉的节能应用","volume":"","year":"2015"},{"abstractinfo":"太钢是中国特大型钢铁联合企业和全球产能最大、工艺技术装备最先进的不锈钢企业。自2005年以来,在不锈钢系统改造中,配套建设了相应的节能环保项目,采用国际最先进的技术,实施从矿山到轧钢的全流程工艺技术升级,实现了主体技术装备的升级换代。目前已经形成了年产1000万t钢的能力,其中不锈钢产能300万t。通过对钢铁工业整体总的节能方向分析,结合太钢近几年节能现状,从能源管理方面、节能减排工艺与技术方面,围绕各种余热余能利用、高炉渣、钢渣的综合利用和对钢厂废气的净化处理方案,实施了具体措施,取得了显著效果。2005至2010年间,吨钢综合能耗由703kg/t下降到559kg/t,降幅达20.5%,吨钢新水消耗由7.18t/t下降到1.91t/t,降幅为73.3%;最后提出了太钢今后节能减排工作的方向和措施。","authors":[{"authorName":"闫振武","id":"26580c5f-0df0-4637-84df-663daa7509cf","originalAuthorName":"闫振武"}],"doi":"","fpage":"81","id":"cbd63e83-b343-4803-ba5b-264f56295756","issue":"12","journal":{"abbrevTitle":"GT","coverImgSrc":"journal/img/cover/GT.jpg","id":"27","issnPpub":"0449-749X","publisherId":"GT","title":"钢铁"},"keywords":[{"id":"93257ba1-dfdd-4d5e-b8fb-b0301d3a42ac","keyword":"节能减排","originalKeyword":"节能减排"},{"id":"633b95b1-d51c-45a9-a69f-8d45fb5edbe4","keyword":"高炉渣利用","originalKeyword":"高炉渣利用"},{"id":"b7d62d36-6cce-432a-ab63-af0d9732479b","keyword":"钢渣利用","originalKeyword":"钢渣利用"},{"id":"af91e395-d2de-4f00-895b-90c56998693a","keyword":"废气净化","originalKeyword":"废气净化"}],"language":"zh","publisherId":"gt201212017","title":"太钢节能减排的进展探讨","volume":"47","year":"2012"},{"abstractinfo":"采用GPS卫星同步断电法对忠武管道进行了断电电位测量,对结果进行了分析,评价了忠武管道阴极保护系统的有效性,并提出了改进建议.结果表明,三层PE管道相比于环氧粉末涂层管道更容易出现过保护现象,而且还容易受到干扰;电位是反应管道所处状态的主要指标,阴极保护系统的通电电位呈规律分布,但断电电位影响因素复杂,无明显规律.","authors":[{"authorName":"罗鹏","id":"18512348-d250-458d-bf3e-c0e9710d5a5c","originalAuthorName":"罗鹏"},{"authorName":"金鑫","id":"b3f412f6-6973-42ba-9881-3e553616f798","originalAuthorName":"金鑫"},{"authorName":"徐承伟","id":"784ec7f1-f012-452a-ba06-7609c0b10b0f","originalAuthorName":"徐承伟"},{"authorName":"薛致远","id":"48838684-38dc-4b1e-96e1-c13bc71f5694","originalAuthorName":"薛致远"},{"authorName":"高强","id":"aa4f9f94-5b47-40f2-a60b-5c90d1f80e89","originalAuthorName":"高强"},{"authorName":"张永盛","id":"dcf5fb27-5c7a-4933-98b7-981aca29f748","originalAuthorName":"张永盛"}],"doi":"","fpage":"224","id":"670a796f-6251-4fb3-8541-c3fb55741e13","issue":"3","journal":{"abbrevTitle":"FSYFH","coverImgSrc":"journal/img/cover/FSYFH.jpg","id":"25","issnPpub":"1005-748X","publisherId":"FSYFH","title":"腐蚀与防护"},"keywords":[{"id":"3ed78c05-3e52-49dd-a17f-0e442c522d84","keyword":"阴极保护","originalKeyword":"阴极保护"},{"id":"75cb2ded-b721-47f2-93b6-852438d3e430","keyword":"通电电位","originalKeyword":"通电电位"},{"id":"bbbc7c8f-15ec-440e-8d5b-7e5162d1c5e7","keyword":"断电电位","originalKeyword":"断电电位"}],"language":"zh","publisherId":"fsyfh201103016","title":"忠武管道阴极保护断电电位测量结果分析","volume":"32","year":"2011"},{"abstractinfo":"对轧机振动性质、致振机理进行了研究,通过对连轧机组中发生振动的F2、F3轧机进行的现场测试和分析发现,轧机振动以水平方向为主,轧辊和轧件上的振纹频率和振动频率相同,并且将最终振纹折算到轧制界面上后其长度与接触弧长相等.这说明振纹与接触弧有直接的联系.提出了CSP轧机的辊面振纹扩展致振机理,即轧机振纹是工作辊初始振纹在轧制过程中逐渐在辊面扩展形成,轧辊表面振纹引起并加剧了轧机的非正常振动.该理论对同类轧机振动抑制具有重要理论和应用价值.","authors":[{"authorName":"王永涛","id":"c2acc36e-ab8c-414a-b8b4-7e044156e6d6","originalAuthorName":"王永涛"},{"authorName":"臧勇","id":"0ccf347b-fc78-4df0-9dee-2d182f084d13","originalAuthorName":"臧勇"},{"authorName":"吴迪平","id":"1c7ae104-da0c-4795-a0e0-7a8f10c2af2a","originalAuthorName":"吴迪平"},{"authorName":"秦勤","id":"d89a483b-6ba0-4e6f-b026-3ae3ecf43b01","originalAuthorName":"秦勤"}],"doi":"","fpage":"68","id":"4b4bd076-2650-4766-b716-83da72e1a604","issue":"2","journal":{"abbrevTitle":"GT","coverImgSrc":"journal/img/cover/GT.jpg","id":"27","issnPpub":"0449-749X","publisherId":"GT","title":"钢铁"},"keywords":[{"id":"16a99d1b-fc6e-492b-9fc0-ea7939a0ed5b","keyword":"CSP轧机","originalKeyword":"CSP轧机"},{"id":"590728ea-861b-45c5-bd25-b4e6b5e68b9a","keyword":"振动","originalKeyword":"振动"},{"id":"d5107307-8b94-44d6-a06e-40cefeb91a1a","keyword":"振纹","originalKeyword":"振纹"},{"id":"d0e7105f-6127-4bc3-bce3-e9e3e32b9786","keyword":"轧制界面","originalKeyword":"轧制界面"}],"language":"zh","publisherId":"gt200802014","title":"CSP轧机振纹振动致振机理研究","volume":"43","year":"2008"},{"abstractinfo":"对轧机振动性质、致振机理进行了研究，通过对连轧机组中发生振动的F2、F3轧机进行的现场测试和分析发现，轧机振动以水平方向为主；轧辊和轧件上的振纹频率和振动频率相同，并且将最终振纹折算到轧制界面上后其长度与接触弧长相等。这说明振纹与接触弧有直接的联系。提出了CSP轧机的辊面振纹扩展致振机理，即轧机振纹是工作辊初始振纹在轧制过程中逐渐在辊面扩展形成，轧辊表面振纹引起并加剧了轧机的非正常振动。该理论对同类轧机振动抑制具有重要理论和应用价值。","authors":[{"authorName":"王永涛","id":"bb892a27-fce2-41fd-9c80-f33a59e67e82","originalAuthorName":"王永涛"},{"authorName":"臧勇","id":"55596acf-af07-4417-8aa0-00f16bdfd079","originalAuthorName":"臧勇"},{"authorName":"吴迪平","id":"e2cbdc17-cd70-4947-86f3-bf4f9b285e85","originalAuthorName":"吴迪平"},{"authorName":"秦勤","id":"c1035892-b603-47b9-bf51-fe559296d570","originalAuthorName":"秦勤"}],"categoryName":"|","doi":"","fpage":"68","id":"c6c72d00-11aa-43b8-ba68-8940a39bb83e","issue":"2","journal":{"abbrevTitle":"GT","coverImgSrc":"journal/img/cover/GT.jpg","id":"27","issnPpub":"0449-749X","publisherId":"GT","title":"钢铁"},"keywords":[{"id":"195c6818-da1c-4659-8e51-6888eb062926","keyword":"CSP轧机;振动;振纹;轧制界面","originalKeyword":"CSP轧机;振动;振纹;轧制界面"}],"language":"zh","publisherId":"0449-749X_2008_2_10","title":"CSP轧机振纹振动致振机理研究","volume":"43","year":"2008"},{"abstractinfo":"对振筛式电镀机的结构、工作原理和特点进行了详细的阐述,并作了应用举例.表明:小零件电镀采用振镀的方式具有沉积速度快,镀层厚度均匀,槽电压低等优点,因而提高了生产效率和产品的质量,并适用于片状、易损和高精度等零件的电镀.","authors":[{"authorName":"侯庆军","id":"808cee8b-a616-4d19-a05f-7aa55fd82228","originalAuthorName":"侯庆军"},{"authorName":"侯德舜","id":"d5810618-252a-4f53-aea3-c6830fe3bd8d","originalAuthorName":"侯德舜"}],"doi":"10.3969/j.issn.1001-3849.2001.03.009","fpage":"27","id":"eb38cf44-ef00-4ce0-9064-50cd22d866be","issue":"3","journal":{"abbrevTitle":"DDYJS","coverImgSrc":"journal/img/cover/DDYJS.jpg","id":"20","issnPpub":"1001-3849","publisherId":"DDYJS","title":"电镀与精饰 "},"keywords":[{"id":"dc2e24d6-b01e-4e40-a429-0363d52eb40c","keyword":"振镀机","originalKeyword":"振镀机"},{"id":"63daace9-bc4f-46a0-bf6f-3b0f031cd414","keyword":"沉积速度","originalKeyword":"沉积速度"},{"id":"c57627b0-e1ac-4a53-bbbc-3c52b9b651da","keyword":"厚度","originalKeyword":"厚度"}],"language":"zh","publisherId":"ddjs200103009","title":"振筛式电镀机","volume":"23","year":"2001"},{"abstractinfo":"本文综述了阻尼减振合金的研究现状.包括几种典型的阻尼减振合金的成分和特点,以及使用过程中应注意的问题,还简要的说明了它们的阻尼机制.最后展望了阻尼减振合金的发展和应用前景.","authors":[{"authorName":"李长龙","id":"4a68057e-c38a-4a44-b302-01db67735812","originalAuthorName":"李长龙"},{"authorName":"李国彬","id":"4760395f-b3d4-4014-bf95-fbcefb28cf81","originalAuthorName":"李国彬"},{"authorName":"吴玉会","id":"d333bc08-813f-4e0f-bf23-e848b6cbad5f","originalAuthorName":"吴玉会"}],"doi":"10.3969/j.issn.1005-8192.2003.04.009","fpage":"32","id":"774071ac-a87e-4300-a62c-910751398d57","issue":"4","journal":{"abbrevTitle":"JSGNCL","coverImgSrc":"journal/img/cover/JSGNCL.jpg","id":"46","issnPpub":"1005-8192","publisherId":"JSGNCL","title":"金属功能材料"},"keywords":[{"id":"30a236f0-3217-46eb-8812-cba71fa84e13","keyword":"阻尼合金","originalKeyword":"阻尼合金"},{"id":"e2c9380a-a169-42ca-9f1b-55dd72baf4dd","keyword":"减振合金","originalKeyword":"减振合金"},{"id":"b0096b29-d94c-40fd-9a58-4b63fce7df4b","keyword":"阻尼机制","originalKeyword":"阻尼机制"}],"language":"zh","publisherId":"jsgncl200304009","title":"阻尼减振合金的研究现状","volume":"10","year":"2003"},{"abstractinfo":"本文叙述了扭振频率温度系数","authors":[{"authorName":"谭延昌","id":"04dc7b6d-7b5b-4c07-b560-09319e668c06","originalAuthorName":"谭延昌"},{"authorName":"何斌","id":"fe38a13e-1dce-401c-b183-3ac28d212185","originalAuthorName":"何斌"},{"authorName":"赵玉华","id":"3078ef86-dd85-48bb-be78-073a231a7aae","originalAuthorName":"赵玉华"}],"categoryName":"|","doi":"","fpage":"74","id":"e4ef98f4-dfda-4b1a-b030-e8aa1389ba13","issue":"1","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"ef609955-a448-49f5-a675-f0efd3fa48a8"}],"language":"zh","publisherId":"0412-1961_1986_1_5","title":"低扭振频率温度系数恒弹性合金","volume":"22","year":"1986"},{"abstractinfo":"针对热声发动机中复杂的起振、消振行为,在自行研制的\"驻波型热声发动机试验平台\"上,开展了工质类型、加热功率、充气压力等参数对热声发动机起振、消振行为的影响规律研究.试验结果表明:当采用纯氦气和90%氦气+10%氩气的混合气体时,系统存在一最佳的充气压力值,使起振温度和消振温度达到最低;而其余工质,其起振温度与消振温度均随着充气压力增加而逐渐提高;与此同时,由于加热功率对板叠热端温度影响较小,故采用板叠热端温度作为行为特性参数更为合理.","authors":[{"authorName":"刘迎文","id":"68e29ba9-0766-441a-800f-06617f234f57","originalAuthorName":"刘迎文"},{"authorName":"何雅玲","id":"8b6f0de4-2601-49ae-a4fc-e5790d052f93","originalAuthorName":"何雅玲"}],"doi":"","fpage":"9","id":"33fcfd4a-4ec6-44ad-ab06-b3178468c278","issue":"1","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":"884f959f-5971-4a63-bc81-7f61cd0c8cbc","keyword":"热声发动机","originalKeyword":"热声发动机"},{"id":"6d42beba-0e35-40eb-8be5-ec268c8467bb","keyword":"起振过程","originalKeyword":"起振过程"},{"id":"aa317043-dae4-44ed-8dd0-2a7450dd43fb","keyword":"消振过程","originalKeyword":"消振过程"},{"id":"71dc3de0-e19f-4c23-a535-717f622a01cd","keyword":"特性参数","originalKeyword":"特性参数"}],"language":"zh","publisherId":"gcrwlxb200901003","title":"热声发动机起振、消振过程的动态行为","volume":"30","year":"2009"},{"abstractinfo":"对道床隔振垫进行了在静态状态下锤击试验和在车辆正常运行条件下的轨道动态变形及振动测试,结果表明,道床隔振垫实际应用时的隔振频率在10-15 Hz之间.在静态条件下,相对于单趾弹簧扣件系统在20-200 Hz频率范围内,平均减振量为16.3 dB;在车辆运行条件下,隧道壁的垂向振动降低了17.3 dB.在静态和动态条件下,相对于单趾弹簧扣件系统,道床隔振垫减振效果基本一致.","authors":[{"authorName":"何况","id":"f9269f09-fa7c-4e0c-b070-864ec749ea17","originalAuthorName":"何况"}],"doi":"","fpage":"27","id":"80be1ba0-ce20-4985-a4cf-e6e5faf2c335","issue":"6","journal":{"abbrevTitle":"CLKFYYY","coverImgSrc":"journal/img/cover/CLKFYYY.jpg","id":"10","issnPpub":"1003-1545","publisherId":"CLKFYYY","title":"材料开发与应用"},"keywords":[{"id":"6ba114c6-dc7b-43b5-8ab5-4360d964acb1","keyword":"道床减振垫","originalKeyword":"道床减振垫"},{"id":"857c0a56-631d-43ed-92f7-b3639cb7b770","keyword":"振动","originalKeyword":"振动"},{"id":"c5982874-5685-4b06-86fd-7fa6b16a8ea4","keyword":"衰减","originalKeyword":"衰减"},{"id":"bb5cfa0e-8bbc-4bcd-99eb-33cdd946eaee","keyword":"单趾弹簧","originalKeyword":"单趾弹簧"}],"language":"zh","publisherId":"clkfyyy201406005","title":"道床隔振垫的阻尼减振性能分析及应用研究","volume":"29","year":"2014"}],"totalpage":78,"totalrecord":775}