基本信息
淮秀兰  女  博导  中国科学院工程热物理研究所
电子邮件: hxl@iet.cn
通信地址: 北京市海淀区北四环西路11号
邮政编码: 100190

招生信息

   
招生专业
080701-工程热物理
招生方向
微尺度传热传质
多尺度反应传递耦合协同
基于高效传热传质理论的先进节能技术与应用

教育背景

1994-03--1997-06   北京科技大学   博士
1990-09--1993-03   北京科技大学   硕士
1981-09--1985-07   太原理工大学   学士
学历
北京科技大学 19940316--19970612 研究生毕业
学位
北京科技大学 19940316--19970612 工学博士学位

工作经历

   
工作简历
2002-06~2003-05,日本九州大学, 访问学者
1999-12~现在, 中国科学院工程热物理研究所, 研究员,实验室主任
1998-01~1999-12,中国科学院工程热物理研究所, 博士后
1985-07~1994-03,太原理工大学, 讲师

专利与奖励

   
奖励信息
(1) 国务院政府特殊津贴, 国家级, 2015
(2) 中科院京区巾帼建功先进个人, 部委级, 2014
(3) 黑龙江省自然科学一等奖, 一等奖, 省级, 2010
(4) 北京市金桥工程项目一等奖, 一等奖, 市地级, 2006
专利成果
[1] 仝仓, 许闽, 陈简一, 淮秀兰. 一种用于热化学储能的交错挡板式移动床反应器. CN: CN116651337A, 2023-08-29.

[2] 李勋锋, 陈俊霖, 许闽, 淮秀兰, 周敬之, 刘斌. 一种热热障涂层的隔热性能测量装置及方法. 2023110911645, 2023-08-28.

[3] 陈海家, 周敬之, 淮秀兰, 陆政德. 一种基于毛细作用力的强化沸腾传热实验装置及实验方法. CN: CN116482172A, 2023-07-25.

[4] 张凯, 成克用, 淮秀兰. 一种三维变截面翼型翅片换热板及芯体结构. CN: CN116412713A, 2023-07-11.

[5] 张凯, 周敬之, 淮秀兰. 冷凝段可调节储热式重力热管热泵耦合冷暖双供系统. CN: CN218442592U, 2023-02-03.

[6] 周敬之, 周国辉, 淮秀兰, 刘斌, 贾潇, 陈俊霖. 一种能耗低的超算/数据中心被动式散热系统. CN: CN218450982U, 2023-02-03.

[7] 黄彩凤, 许闽, 李勋锋, 淮秀兰. 蛋壳制备多孔钙基材料的方法及其在热化学储能中的应用. CN: CN113512409B, 2023-02-03.

[8] 李勋锋, 叶志鹏, 许闽, 淮秀兰, 刘斌. 辐射测温探头结构. CN: CN115638880A, 2023-01-24.

[9] 黄彩凤, 许闽, 李勋锋, 淮秀兰. 一种硝酸盐改性钙基热化学储能材料及其制备方法. CN: CN115558470A, 2023-01-03.

[10] 陈俊霖, 郭江峰, 李勋锋, 淮秀兰, 成克用, 韩增孝. 一种带有轴向变截面流线肋型结构的换热板. CN: CN217979978U, 2022-12-06.

[11] 张凯, 周敬之, 淮秀兰. 冷凝段可调节储热式重力热管热泵耦合冷暖双供系统. CN: CN115419967A, 2022-12-02.

[12] 许闽, 刘章丽, 李勋锋, 淮秀兰, 黄彩凤. 一种AIPO-SFO型磷酸铝分子筛合成方法. 202211467477.1, 2022-11-22.

[13] 李勋锋, 陈俊霖, 成克用, 刘斌, 淮秀兰, 周敬之. 多光谱测温装置及方法. CN: CN115371816A, 2022-11-22.

[14] 徐翠, 淮秀兰, 贾潇, 杜军, 邓亚民. 一种高强度绝缘导热双组份聚氨酯结构胶及其制备方法. CN: CN115260971A, 2022-11-01.

[15] 黄彩凤, 许闽, 李勋锋, 淮秀兰. 一种硝酸盐改性钙基热化学储能材料及其制备方法. 202211327498.3, 2022-10-27.

[16] 李勋锋, 叶志鹏, 许闽, 淮秀兰, 刘斌. 辐射测温探头结构. 202211314719.3, 2022-10-25.

[17] 徐翠, 杜军, 淮秀兰, 贾潇, 刘斌, 邓亚民. 一种高强高韧聚氨酯导热结构胶及其制备方法. CN: CN115141596A, 2022-10-04.

[18] 李勋锋, 陈俊霖, 成克用, 刘斌, 淮秀兰, 周敬之. 多光谱测温装置及方法. 202211210523.X, 2022-09-30.

[19] 周峰, 周国辉, 周敬之, 淮秀兰, 姜雅文. 超薄均热板及电子设备. CN: CN217486819U, 2022-09-23.

[20] 周敬之, 周国辉, 淮秀兰, 刘斌, 贾潇. 一种高功率IGBT元件组的风冷散热器. CN: CN217426723U, 2022-09-13.

[21] 周敬之, 周国辉, 淮秀兰, 刘斌, 贾潇. 一种快速均匀精准升控温的电热毯. CN: CN217428382U, 2022-09-13.

[22] 马永乐, 成克用, 淮秀兰, 李勋锋. 一种冷却装置及包括该冷却装置的透平叶片. CN: CN217421287U, 2022-09-13.

[23] 许闽, 黄彩凤, 李勋锋, 淮秀兰. 蓄热式电暖器. CN: CN217154319U, 2022-08-09.

[24] 周峰, 周敬之, 周国辉, 淮秀兰. 超薄均热板及其制备方法、电子设备. CN: CN114857967A, 2022-08-05.

[25] 成克用, 廖海燕, 淮秀兰, 张忠梅, 李勋锋, 苏国萍. 换热板及换热器. CN: CN114777536A, 2022-07-22.

[26] 周敬之, 周国辉, 淮秀兰, 刘斌, 贾潇. 气氛炉. CN: CN217005300U, 2022-07-19.

[27] 周敬之, 李勋锋, 淮秀兰, 陈俊霖. 加热器及可调节电热式热流体发生装置. CN: CN216953568U, 2022-07-12.

[28] 周敬之, 周国辉, 淮秀兰, 刘斌, 贾潇, 陈俊霖. 一种能耗低的超算/数据中心被动式散热系统. CN: CN114727566A, 2022-07-08.

[29] 周峰, 周国辉, 周敬之, 淮秀兰, 姜雅文. 超薄均热板及其制备方法、电子设备. CN: CN114501946A, 2022-05-13.

[30] 周峰, 周国辉, 周敬之, 淮秀兰, 姜雅文. 超薄均热板及其制备方法、电子设备. CN: CN114501946A, 2022-05-13.

[31] 周峰, 周国辉, 周敬之, 淮秀兰, 姜雅文. 超薄均热板及其制备方法、电子设备. CN: CN114501946A, 2022-05-13.

[32] 许闽, 黄彩凤, 李勋锋, 淮秀兰. 蓄热式电暖器. CN: CN114440291A, 2022-05-06.

[33] 许闽, 黄彩凤, 李勋锋, 淮秀兰. 蓄热式电暖器. CN: CN114440291A, 2022-05-06.

[34] 王士军, 刘斌, 淮秀兰, 贾潇. 一种铝粉插层膨胀石墨复合定形相变材料及其制备方法. CN: CN114250062A, 2022-03-29.

[35] 成克用, 淮秀兰, 李勋锋, 刘斌. 翼型结构、换热板、换热器及换热方法. CN: CN114234704A, 2022-03-25.

[36] 王士军, 刘斌, 淮秀兰, 贾潇. 一种柔性高导热复合相变薄膜及其制备方法. CN: CN114181670A, 2022-03-15.

[37] 周国辉, 周敬之, 周峰, 淮秀兰, 贾潇. 一种具有梯度吸液芯结构的均热板及其制备方法. CN: CN114025562A, 2022-02-08.

[38] 李石琨, 贾潇, 刘斌, 淮秀兰, 周敬之, 张云鹏. 一种用于导热聚合物定向垂直排布的真空抽滤装置. CN: CN215387906U, 2022-01-04.

[39] 李石琨, 刘斌, 贾潇, 淮秀兰, 杜军, 邓亚民. 一种取向排布的氮化硼高导热复合材料及制备方法. CN: CN113831685A, 2021-12-24.

[40] 李石琨, 刘斌, 淮秀兰, 贾潇, 邓亚民, 杜军, 徐翠. 一种细菌纤维素/氮化硼复合高导热柔性薄膜材料及制备方法. CN: CN113801379A, 2021-12-17.

[41] 贾潇, 李石琨, 刘斌, 淮秀兰, 周国辉, 周敬之. 一种液态金属无硅热界面材料及其制备方法. CN: CN113789159A, 2021-12-14.

[42] 李勋锋, 淮秀兰, 成克用, 许闽, 刘斌. 空化供热装置. 202110853746.7, 2021-10-22.

[43] 黄彩凤, 许闽, 李勋锋, 淮秀兰. 蛋壳制备多孔钙基材料的方法及其在热化学储能中的应用. CN: CN113512409A, 2021-10-19.

[44] 贾潇, 刘斌, 淮秀兰, 李石琨, 周敬之, 胡玄烨. 一种液态金属固液耦合式多层热界面材料及其制备方法. CN: CN112538336B, 2021-10-12.

[45] 淮秀兰, 李勋锋, 成克用. 一种换热板结构、换热器以及换热系统. 发明专利. 202111036030.4, 2021-09-03.

[46] 李勋锋, 淮秀兰, 席文宣, 刘斌, 成克用, 周敬之. 一种基于压电技术强化传热的重力热管. CN: CN111578755B, 2021-09-03.

[47] 李勋锋, 淮秀兰, 成克用. 一种冷却结构及电子器件. 202110369707.X, 2021-06-25.

[48] 贾潇, 李石琨, 刘斌, 淮秀兰, 周敬之, 周国辉. 一种即时固化的液态金属复合热界面材料及制备方法. CN: CN112898929A, 2021-06-04.

[49] 许闽, 刘章丽, 淮秀兰, 李勋锋. EMM-8磷酸铝分子筛制备方法及其用途. CN: CN112850735A, 2021-05-28.

[50] 贾潇, 刘斌, 淮秀兰, 李石琨, 周敬之, 胡玄烨. 一种固液耦合式多层热界面材料及其制备方法. CN: CN112538336A, 2021-03-23.

[51] 成克用, 淮秀兰. 一种电子器件冷却装置. CN: CN112512285A, 2021-03-16.

[52] 郭江峰, 崔欣莹, 淮秀兰, 成克用, 张海燕, 相梦如. 强化换热的方法. CN: CN110779378B, 2021-02-19.

[53] 席文宣, 淮秀兰, 刘斌, 李勋锋, 周敬之, 刘晓凯. 一种用于CPU散热的热管散热器. CN: CN212256234U, 2020-12-29.

[54] 周敬之, 刘斌, 席文宣, 淮秀兰, 李石琨. 一种热界面材料的涂抹装置. CN: CN211412579U, 2020-09-04.

[55] 成克用, 淮秀兰. 一种电子器件冷却装置. CN: CN111613592A, 2020-09-01.

[56] 周敬之, 李勋锋, 淮秀兰, 陈俊霖. 可调节电热式热气流发生装置. CN: CN110160262A, 2019-08-23.

[57] 刘斌, 淮秀兰, 李勋锋, 胡玄烨, 周敬之. 一种石墨烯材料定向排布及与硅胶垫复合成型方法及制品. CN: CN110157196A, 2019-08-23.

[58] 刘斌, 淮秀兰, 周敬之, 李勋锋, 胡玄烨. 一种高强度导热硅胶垫片及其制备方法. CN: CN110157389A, 2019-08-23.

[59] 刘斌, 淮秀兰, 周敬之, 李勋锋, 胡玄烨. 一种高热导率导热硅胶垫片及其制备方法. CN: CN110128830A, 2019-08-16.

[60] 周敬之, 李勋锋, 淮秀兰, 陈俊霖. 一种用于颗粒床的可调式排料装置. CN: CN109911653A, 2019-06-21.

[61] 许闽, 淮秀兰, 郭江峰, 李勋锋. 基于热化学储能的电蓄热锅炉、供能系统及方法. CN: CN109855306A, 2019-06-07.

[62] 李勋锋, 王永伟, 淮秀兰, 成克用. 双面交错印刷电路板式换热板和换热器. CN: CN109443056A, 2019-03-08.

[63] 高殷, 张航, 淮秀兰, 李涛, 刘斌, 陈哲, 杨明. 低辐射涂料及其制备方法. CN: CN109181455A, 2019-01-11.

[64] 李勋锋, 淮秀兰, 王永伟, 陈俊霖, 周敬之. 粉尘发生控制装置. CN: CN108918385A, 2018-11-30.

[65] 郭江峰, 崔欣莹, 淮秀兰, 成克用, 张海燕, 相梦如. 一种印刷电路板换热器入口分流处结构. CN: CN108180779A, 2018-06-19.

[66] 刘斌, 张航, 淮秀兰, 蔡军, 陈哲, 杨明. 一种低油离度的导热硅脂组合物及其制备方法. CN: CN107892816A, 2018-04-10.

[67] 刘斌, 淮秀兰, 张航, 蔡军, 陈哲, 杨明, 孙方远. 一种高热导率绝缘导热硅脂组合物及其制备方法. CN: CN107815119A, 2018-03-20.

[68] 李勋锋, 淮秀兰, 许闽, 成克用, 陈俊霖. 颗粒床除尘与换热一体化的装置. CN: CN107694236A, 2018-02-16.

[69] 郭江峰, 崔掀莹, 淮秀兰, 成克用, 相梦如. 带有流线形肋结构的换热板及包含其的印刷电路板换热器. CN: CN107687780A, 2018-02-13.

[70] 许闽, 淮秀兰, 蔡军, 李勋锋. 一种用于低温余热深度回收的化学热泵系统. CN: CN107621096A, 2018-01-23.

[71] 刘斌, 张航, 淮秀兰, 蔡军, 陈哲, 孙方远, 杨明. 一种高热导率低粘度的导热硅脂组合物及其制备方法. CN: CN107603224A, 2018-01-19.

[72] 许闽, 淮秀兰, 蔡军, 李勋锋. 热泵与超临界二氧化碳布雷顿循环耦合的冷热电联供系统. CN: CN107514837A, 2017-12-26.

[73] 成克用, 淮秀兰, 郭江峰. 一种测量超临界CO 2 回热器和冷却器性能的装置和方法. CN: CN107314567A, 2017-11-03.

[74] 成克用, 淮秀兰, 郭江峰. 一种测量超临界CO 2 回热器和冷却器性能的装置和方法. 中国: CN107314567A, 2017-11-03.

[75] 陈俊霖, 李勋锋, 淮秀兰, 许闽, 成克用. 颗粒床过滤除尘装置. CN: CN107297119A, 2017-10-27.

[76] 成克用, 淮秀兰, 李勋锋, 周小明. 一种测量高温高压混合气体辐射特性的装置和方法. CN: CN107271049A, 2017-10-20.

[77] 蔡军, 陶跃群, 刘斌, 淮秀兰. 一种高压对冲淹没射流空化反应器. CN: CN107175061A, 2017-09-19.

[78] 李勋锋, 王永伟, 淮秀兰, 成克用, 周小明. 颗粒床除尘与换热一体化的装置及方法. CN: CN107138001A, 2017-09-08.

[79] 郭江峰, 崔欣莹, 淮秀兰, 相梦如, 成克用. 用于印刷电路板换热器的换热板. CN: CN107024134A, 2017-08-08.

[80] 郭江峰, 淮秀兰, 成克用, 崔欣莹, 相梦如. 一种换热板和气体‑液体换热器. CN: CN106931821A, 2017-07-07.

[81] 许闽, 淮秀兰, 蔡军, 李勋锋. 一种用于液体有机氢化物脱氢的装置. CN: CN106698339A, 2017-05-24.

[82] 成克用, 淮秀兰, 李勋锋, 蔡军, 王永伟. 带冷却结构的涡轮叶片及应用其的燃气轮机. CN: CN106014489A, 2016-10-12.

[83] 王永伟, 李勋锋, 蔡军, 淮秀兰, 成克用, 郭江峰. 一种高温液态金属两级冷却设备和方法. CN: CN105825900A, 2016-08-03.

[84] 郭江峰, 淮秀兰, 许闽, 周小明, 成克用. 一种用于太阳能直接蒸发系统的相变蓄热装置. CN: CN105157251A, 2015-12-16.

[85] 郭江峰, 淮秀兰, 孙杰, 许闽, 李勋锋, 周小明. 一种太阳能直接蒸汽发生系统的模拟装置及方法. CN: CN105136506A, 2015-12-09.

[86] 许闽, 淮秀兰, 蔡军, 李勋锋, 辛芳, 段彦军. 一种中低温太阳能互补驱动的化学热泵装置. CN: CN105020938A, 2015-11-04.

[87] 郭江峰, 淮秀兰, 李勋锋. 一种正反旋向交替的间断内插式螺旋翅片强化换热管. CN: CN104864760A, 2015-08-26.

[88] 许闽, 淮秀兰, 蔡军, 李勋锋, 辛芳, 段彦军. 一种含反应精馏和串联放热反应器的化学热泵装置. CN: CN104857903A, 2015-08-26.

[89] 成克用, 淮秀兰. 一种换热器及采用其的节能燃气热水器. CN: CN104848517A, 2015-08-19.

[90] 蔡军, 陶跃群, 淮秀兰, 刘斌. 一种可形成大范围空化的多层嵌套式空化器. CN: CN104828884A, 2015-08-12.

[91] 成克用, 淮秀兰. 具有内部冷却功能的涡轮叶片装置及应用其的燃气轮机. CN: CN104832219A, 2015-08-12.

[92] 周小明, 淮秀兰, 李勋锋, 成克用. 一种基于液态金属强化换热控制坩埚热应力的方法. CN: CN104805506A, 2015-07-29.

[93] 周小明, 淮秀兰, 李勋锋, 成克用. 一种全角度发射率/反射率测试平台. CN: CN104749204A, 2015-07-01.

[94] 周小明, 淮秀兰, 李勋锋, 成克用. 基于主动温度梯度法控制表面张力驱动对流的方法. CN: CN104635792A, 2015-05-20.

[95] 李勋锋, 蔡军, 淮秀兰, 王永伟, 郭江峰. 一种液态金属与高压气体流动换热装置及方法. CN: CN104599727A, 2015-05-06.

[96] 王永伟, 李勋锋, 成克用, 淮秀兰, 蔡军, 席文宣. 一种用于液态铅铋合金管道的在线加热及温控系统. CN: CN104493146A, 2015-04-08.

[97] 王永伟, 成克用, 李勋锋, 席文宣, 淮秀兰, 蔡军. 控制含有内热源的移动球床通道出口温度的方法. CN: CN104460760A, 2015-03-25.

[98] 成克用, 淮秀兰, 李勋锋, 周小明. 一种提高燃机高温部件冷却效率的气膜孔结构. CN: CN104033251A, 2014-09-10.

[99] 李勋锋, 淮秀兰, 周小明, 成克用, 蔡军. 用于涡轮叶片表面温度分布测量的光纤装置与测量方法. CN: CN104006899A, 2014-08-27.

[100] 许闽, 淮秀兰, 蔡军, 李勋锋, 辛芳. 一种超声波辐射辅助的化学热泵装置. CN: CN103994603A, 2014-08-20.

[101] 蔡军, 淮秀兰, 刘斌. 一种强化微通道换热的低阻水力空化结构. CN: CN103954162A, 2014-07-30.

[102] 成克用, 淮秀兰. 一种带条缝出口的涡轮叶片圆孔气膜冷却结构. CN: CN103696811A, 2014-04-02.

[103] 蔡军, 淮秀兰. 结合空化氧化法与活性污泥法的联合污水处理系统和方法. CN: CN103663868A, 2014-03-26.

[104] 李勋锋, 淮秀兰, 成克用, 周小明, 蔡军. 一种叶尖间隙光纤测量方法及装置. CN: CN103438814A, 2013-12-11.

[105] 李勋锋, 黄一宪, 蔡军, 淮秀兰, 陶毓伽. 一种液体空化加热设备输出热效率测试方法及装置. CN: CN103091119A, 2013-05-08.

[106] 成克用, 淮秀兰, 梁世强, 蔡军. 一种测量含化学热沉气膜冷却效率的方法和装置. CN: CN103076362A, 2013-05-01.

[107] 李勋锋, 淮秀兰, 蔡军, 陶毓伽. 一种旋转叶片表面温度非接触式测量定位方法及装置. CN: CN102967377A, 2013-03-13.

[108] 李勋锋, 蔡军, 淮秀兰, 郭江峰, 陶毓伽. 一种液态金属压力测量方法及装置. CN: CN102928151A, 2013-02-13.

[109] 蔡军, 李勋锋, 陶毓伽, 淮秀兰, 郭江峰. 一种高温液态金属流量在线标定装置. CN: CN102721452A, 2012-10-10.

[110] 蔡军, 李勋锋, 淮秀兰, 郭江峰, 陶毓伽. 一种应用于液态铅铋合金实验回路的预热器. CN: CN102635933A, 2012-08-15.

[111] 陶毓伽, 侯燕, 淮秀兰. 一种可固定多喷嘴的喷雾腔体装置. CN: CN102632009A, 2012-08-15.

[112] 蔡军, 淮秀兰, 李勋锋, 陶毓伽, 郭江峰. 一种微通道热沉及微通道热沉性能测试装置. CN: CN102620590A, 2012-08-01.

[113] 陶毓伽, 侯燕, 淮秀兰. 一种测量固体壁面波动液膜层平均厚度的方法. CN: CN102607436A, 2012-07-25.

[114] 梁世强, 赵 杰, 淮秀兰. 一种单效吸收式制冷机. CN: CN101737994B, 2011-09-14.

[115] 淮秀兰, 梁世强, 蔡军, 陶毓伽. 一种利用水力空化防除垢效果的测试装置. CN: CN101520373B, 2010-11-03.

[116] 梁世强, 淮秀兰. 一种制备铜基超疏水表面的方法. CN: CN101864571A, 2010-10-20.

[117] 梁世强, 雷兢, 淮秀兰. 一种航空发动机涡轮叶片气膜冷却方法. CN: CN101832154A, 2010-09-15.

[118] 淮秀兰, 蔡军, 陶毓伽, 梁世强. 超临界流体的流动、传热及吸热反应综合测量装置. CN: CN101413933B, 2010-06-23.

[119] 梁世强, 赵杰, 淮秀兰. 一种单效吸收式制冷机. CN: CN101737994A, 2010-06-16.

[120] 淮秀兰, 蔡军, 李勋锋. 一种声空化强化传热与防除垢测量装置及测量方法. CN: CN101685065A, 2010-03-31.

[121] 梁世强, 陈 亮, 淮秀兰. 一种蒸汽滴状冷凝换热表面的制备方法. CN: CN101676675A, 2010-03-24.

[122] 淮秀兰, 李志刚, 陶毓伽, 蔡军, 梁世强. 一种微通道热沉与测量装置. CN: CN101588708A, 2009-11-25.

[123] 梁世强, 陈亮, 淮秀兰. 一种利用微孔疏水膜强化换热的换热器. CN: CN101576356A, 2009-11-11.

[124] 梁世强, 淮秀兰, 陶毓伽, 蔡军, 李志刚. 应用三甲基叠氮硅烷为发电机定子蒸发冷却介质的方法. CN: CN101515737A, 2009-08-26.

[125] 梁世强, 淮秀兰, 蔡军, 陶毓伽, 李志刚. 一种在铜质换热器表面固载离子液体的方法. CN: CN101492819A, 2009-07-29.

[126] 淮秀兰, 梁世强, 李虹霞. 一种利用超声空化防除垢及其效果的测试方法和装置. CN: CN101451921A, 2009-06-10.

[127] 淮秀兰, 陶毓伽, 梁世强, 蔡军, 顾维藻. 涡轮叶片冷却过程可视化观测与瞬态测量方法和装置. CN: CN101393071A, 2009-03-25.

[128] 淮秀兰, 陶毓伽, 蔡军, 王磊. 多相体系微射流相变能质传递过程观测与测量系统. CN: CN101324533A, 2008-12-17.

[129] 淮秀兰, 陶毓伽, 李志刚, 尹铁男. 微尺度爆发沸腾过程的可视化观测与瞬态测量系统. CN: CN1995985A, 2007-07-11.

[130] 淮秀兰, 金仁喜, 董兆一, 王唯威, 刘登瀛. 一种微纳米颗粒的激光清洗装置. CN: CN2783534Y, 2006-05-24.

[131] 淮秀兰, 王唯威, 董兆一. 一种去除挥发性有机物的方法和装置. CN: CN1772341A, 2006-05-17.

[132] 淮秀兰, 姜任秋, 孙宝芝, 刘登瀛. 声空化强化传热系统. CN: CN2769827Y, 2006-04-05.

[133] 刘登瀛, 淮秀兰, 金仁喜, 董兆一, 张正芳. 超急速沸腾状态下汽泡生长过程的瞬态观测系统及方法. CN: CN1248046C, 2006-03-29.

[134] 淮秀兰, 王唯威, 董兆一. 一种去除挥发性有机物的装置. CN: CN2759576Y, 2006-02-22.

[135] 淮秀兰, 姜任秋, 孙宝芝, 刘登瀛. 一种声空化强化传热装置. CN: CN1737488A, 2006-02-22.

[136] 淮秀兰, 姜任秋, 刘登瀛, 孙宝芝. 一种超声波强化渗透脱水方法与装置. CN: CN1641300A, 2005-07-20.

[137] 淮秀兰, 董兆一, 刘登瀛, 金仁喜, 张秀丽. 低温液体工质瞬变温度测量与汽泡生长过程观测系统. CN: CN1609572A, 2005-04-27.

[138] 刘登瀛, 淮秀兰. 垂直与半环对撞流组合干燥机. CN: CN2419558Y, 2001-02-14.

出版信息

   
发表论文
[1] Han, Zengxiao, Guo, Jiangfeng, Huai, Xiulan. Theoretical analysis of a novel PCHE with enhanced rib structures for high-power supercritical CO2 Brayton cycle system based on solar energy. ENERGY[J]. 2023, 270: http://dx.doi.org/10.1016/j.energy.2023.126928.
[2] 黄彩风, 许闽, 淮秀兰. First-principle study of CaO/Ca(OH)2 thermochemical energy storage system by bimetal elements doping. The 1st International Conference on Carbon Neutralitynull. 2023, [3] Ziyang Cheng, Xunfeng Li, Xiulan Huai, Fei Dong. Boiling heat transfer characteristics of pin-finned surface in distributed jet array impingement. INTERNATIONAL JOURNAL OF THERMAL SCIENCES[J]. 2023, 184: http://dx.doi.org/10.1016/j.ijthermalsci.2022.107956.
[4] Junlin Chen, Keyong Cheng, Xunfeng Li, Xiulan Huai, Hongsheng Dong. Thermodynamic evaluation and optimization of supercritical CO2 Brayton cycle considering recuperator types and designs. JOURNAL OF CLEANER PRODUCTION[J]. 2023, 414: http://dx.doi.org/10.1016/j.jclepro.2023.137615.
[5] 谭震宇, 李勋锋, 陈俊霖, 成克用, 淮秀兰. CFD-VOF-DPM numerical simulation of enhanced boiling heat transfer characteristics of microencapsulated phase change material slurry. NUMERICAL HEAT TRANSFER PART A-APPLICATIONS[J]. 2023, [6] 黄彩凤, 许闽, 李勋锋, 淮秀兰. Remarkable low-temperature dehydration kinetics of rare-earth-ion-doped Ca(OH)2 for thermochemical energy storage. Chemical Engineering Journal[J]. 2023, [7] Zhou, Feng, Zhou, Jingzhi, Huai, Xiulan. Advancements and challenges in ultra-thin vapor chambers for high-efficiency electronic thermal management: A comprehensive review. INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER[J]. 2023, 214: http://dx.doi.org/10.1016/j.ijheatmasstransfer.2023.124453.
[8] 王士军, 贾萧, 刘斌, 李勋锋, 许闽, 周敬之, Yu Yadong, 淮秀兰. Flexible and Form-Stable Phase Change Composites Enabled by Pinecone-like Structure for Efficient Thermal Management. ACS applied polymer material[J]. 2023, [9] 叶志鹏, 李勋锋, 陈俊霖, 淮秀兰, 成克用. Protection Performance Investigation of an Infrared Temperature Measurement Probe for Gas Turbine. Heat Transfer Engineering[J]. 2023, [10] 叶志鹏, 赵树男, 李勋锋, 淮秀兰. 完全氧化DZ125的双向反射特性实验研究. 光谱学与光谱分析[J]. 2023, 43(1): 230-238, http://lib.cqvip.com/Qikan/Article/Detail?id=7108736181.
[11] Feng Zhou, Guohui Zhou, Jingzhi Zhou, Xiulan Huai, Yawen Jiang. A novel ultra-thin vapor chamber with radial-gradient hierarchical wick for high-power electronics cooling. INTERNATIONAL JOURNAL OF THERMAL SCIENCES[J]. 2023, 183: http://dx.doi.org/10.1016/j.ijthermalsci.2022.107896.
[12] Yang, Jingshan, Cheng, Keyong, Zhang, Kai, Huang, Caifeng, Huai, Xiulan. Numerical study on thermal and hydraulic performances of a hybrid manifold microchannel with bifurcations for electronics cooling. APPLIED THERMAL ENGINEERING[J]. 2023, 232: http://dx.doi.org/10.1016/j.applthermaleng.2023.121099.
[13] TAN Zhenyu, LI Xunfeng, HUAI Xiulan, CHENG Keyong, CHEN Junlin. Experimental Study on Flow Boiling Heat Transfer Characteristics of Microencapsulated Phase Change Material Suspension. 热科学学报:英文版[J]. 2023, 32(4): 1547-1557, http://lib.cqvip.com/Qikan/Article/Detail?id=7110143131.
[14] 周峰, 周敬之, 李勋锋, 陈启涵, 淮秀兰. Enhanced capillary-driven thin film boiling on cost-effective gradient wire meshes for high-heat-flux application. Experimental Thermal and Fluid Science[J]. 2023, [15] Guo, Jiangfeng, Huai, Xiulan. Maximizing Electric Power through Spectral-Splitting Photovoltaic-Thermoelectric Hybrid System Integrated with Radiative Cooling. ADVANCED SCIENCE[J]. 2023, 10(10): https://www.doi.org/10.1002/advs.202206575.
[16] 刘晓凯, 郭江峰, 韩增孝, 张海燕, 淮秀兰. 超临界压力CO2在非均匀加热竖直管内的换热特性研究. 工程热物理学报[J]. 2022, 43(7): 1951-1957, http://lib.cqvip.com/Qikan/Article/Detail?id=7107714109.
[17] Zhou, Feng, Zhou, Guohui, Zhou, Jingzhi, Huai, Xiulan, Jiang, Yawen, Huang, Qiang. Thermal performance evaluation of a novel ultra-thin vapor chamber with Laval-like nozzle composite wick under different air cooling conditions. CASE STUDIES IN THERMAL ENGINEERING[J]. 2022, 31: http://dx.doi.org/10.1016/j.csite.2022.101845.
[18] Yawen Jiang, Guohui Zhou, Jingzhi Zhou, Feng Zhou, Xiulan Huai. Saturated pool boiling heat transfer of HFE-7100 on sintered copper powder and wire mesh microporous surfaces: A comparison study. APPLIED THERMAL ENGINEERING. 2022, 216: http://dx.doi.org/10.1016/j.applthermaleng.2022.119067.
[19] Yongle Ma, Xuejun Fan, 淮秀兰, Keyong Cheng. Numerical investigation on multi-stage swirl cooling at mid-chord region of gas turbine blades. APPLIED THERMAL ENGINEERING[J]. 2022, 216: http://dx.doi.org/10.1016/j.applthermaleng.2022.119003.
[20] Han, Zengxiao, Guo, Jiangfeng, Liao, Haiyan, Zhang, Zhongmei, Huai, Xiulan. Numerical investigation on the thermal-hydraulic performance of supercritical CO2 in a modified airfoil fins heat exchanger. JOURNAL OF SUPERCRITICAL FLUIDS[J]. 2022, 187: 105643-105643, http://dx.doi.org/10.1016/j.supflu.2022.105643.
[21] Zhangli Liu, Min Xu, Caifeng Huang, Xiulan Huai. Performance evaluation of silicoaluminophosphate with SFO topology for water-sorption-driven heating and cooling systems. APPLIED THERMAL ENGINEERING. 2022, 216: http://dx.doi.org/10.1016/j.applthermaleng.2022.119100.
[22] Huang, Caifeng, Xu, Min, Huai, Xiulan, Liu, Zhangli. Hierarchically porous calcium-based composites synthesized by eggshell membrane templating for thermochemical energy storage of concentrated solar power. JOURNAL OF ENERGY STORAGE[J]. 2022, 52: http://dx.doi.org/10.1016/j.est.2022.104769.
[23] Liu, Zhangli, Xu, Jiaxing, Xu, Min, Huang, Caifeng, Wang, Ruzhu, Li, Tingxian, Huai, Xiulan. Ultralow-temperature-driven water-based sorption refrigeration enabled by low-cost zeolite-like porous aluminophosphate. NATURE COMMUNICATIONS[J]. 2022, 13(1): http://dx.doi.org/10.1038/s41467-021-27883-4.
[24] Chen, Junlin, Zhou, Jingzhi, Li, Xunfeng, Huai, Xiulan. Study of the heat transfer characteristics and waste heat recovery of hot gas with coagulative particles flowing through a moving granular bed filter (MGBF). APPLIED THERMAL ENGINEERING[J]. 2022, 211: http://dx.doi.org/10.1016/j.applthermaleng.2022.118444.
[25] Liu, Shang, Wu, Ping, Zhang, Shiping, Fu, Guodong, Yan, Dan, Han, Xiaoli, Huai, Xiulan, Xu, Min. Probing the Water Vapor Adsorption Properties of MIL-101 Doped with Manganese. ZEITSCHRIFT FUR ANORGANISCHE UND ALLGEMEINE CHEMIE[J]. 2022, 648(9): http://dx.doi.org/10.1002/zaac.202100208.
[26] Zhou, Guohui, Zhou, Jingzhi, Huai, Xiulan, Zhou, Feng, Jiang, Yawen. A two-phase liquid immersion cooling strategy utilizing vapor chamber heat spreader for data center servers. APPLIED THERMAL ENGINEERING[J]. 2022, 210: http://dx.doi.org/10.1016/j.applthermaleng.2022.118289.
[27] Junlin Chen, Jiang Guo, Xunfeng Li, Xiulan Huai, Keyong Cheng. Thermal-hydraulic performance of mist/compressed humid air two-phase flow in an airfoil channel recuperator. Applied Thermal Engineering[J]. 2022, 201: [28] 张云鹏, 刘斌, 贾潇, 周敬之, 淮秀兰, 李石琨. 纳米流体在超亲水微槽道热管中的润湿特性研究. 工程热物理学报[J]. 2022, 43(6): 1572-1579, http://lib.cqvip.com/Qikan/Article/Detail?id=7107453353.
[29] Caifeng Huang, Min Xu, Xiulan Huai, Zhangli Liu. Hierarchically porous calcium-based composites synthesized by eggshell membrane templating for thermochemical energy storage of concentrated solar power. JOURNAL OF ENERGY STORAGE. 2022, 52: http://dx.doi.org/10.1016/j.est.2022.104769.
[30] 李石琨, 刘斌, 贾潇, 许闽, 刘章丽, 淮秀兰. Dopamine-Mediated Bacterial Cellulose/Hexagonal Boron Nitride Composite Films with Enhanced Thermal and Mechanical Performance. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH[J]. 2022, 13(61): 4601-4611, [31] Xiaokai Liu, 郭江峰, 韩增孝, 成克用, 淮秀兰. Studies on heat transfer and flow features of supercritical CO2 flows in a vertical tube with non-uniform heat flux. Renewable Energy[J]. 2022, 201: 291-04, https://doi.org/10.1016/j.renene.2022.10.112.
[32] Huang, Caifeng, Xu, Min, Huai, Xiulan, Liu, Zhangli. Hierarchically porous calcium-based composites synthesized by eggshell membrane templating for thermochemical energy storage of concentrated solar power. JOURNAL OF ENERGY STORAGE[J]. 2022, 52: http://dx.doi.org/10.1016/j.est.2022.104769.
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[264] 赵杰, 梁世强, 王立, 淮秀兰. bmimCl-CH_3OH作为吸收式制冷工质对的潜能分析. 化工学报[J]. 2009, 2957-2962, http://lib.cqvip.com/Qikan/Article/Detail?id=32321764.
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[267] Li Zhigang, Huai Xiulan, Wang Li, Tao Yujia, ASME. AN ANALYTICAL SOLUTION TO THE THERMAL STRESS AND THERMAL STRAIN IN A CYLINDRICAL LASER ROD WITH LONGITUDINAL TEMPERATURE RISE. IMECE 2008: HEAT TRANSFER, FLUID FLOWS, AND THERMAL SYSTEMS, VOL 10, PTS A-Cnull. 2009, 843-850, http://apps.webofknowledge.com/CitedFullRecord.do?product=UA&colName=WOS&SID=5CCFccWmJJRAuMzNPjj&search_mode=CitedFullRecord&isickref=WOS:000265085300103.
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[269] Huang, Xiaopeng, Huai, Xiulan, Liang, Shiqiang, Wang, Xinwei. Thermal transport in Si/Ge nanocomposites. JOURNAL OF PHYSICS D-APPLIED PHYSICS[J]. 2009, 42(9): http://dx.doi.org/10.1088/0022-3727/42/9/095416.
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[274] 王磊, 陶毓伽, 淮秀兰, 王立. 添加表面活性剂的喷雾冷却实验研究. 激光与光电子学进展[J]. 2009, 92-95, http://lib.cqvip.com/Qikan/Article/Detail?id=31895880.
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[277] Lv, Yonggang, Huai, Xiulan. Feasibility study on strengthening heating effect of high power short pulse laser on biological tissue by micro/nano metal particles. HEATANDMASSTRANSFER[J]. 2008, 44(12): 1455-1464, http://ir.etp.ac.cn/handle/311046/106340.
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[334] 刘登瀛, 姜任秋, 淮秀兰, 孟群. 快速瞬态热传导与质扩散的类比关系. 北京科技大学学报[J]. 2001, 23(3): 220-, http://lib.cqvip.com/Qikan/Article/Detail?id=5252289.
[335] 淮秀兰, 刘登瀛, 崔晓鸣, 孟群. 高热流密度激光作用下含湿多孔材料的传热传质分析. 工程热物理学报[J]. 2001, 22(3): 320-323, http://lib.cqvip.com/Qikan/Article/Detail?id=5330845.
[336] 刘登瀛, 孟群, 淮秀兰. 快速瞬态质量传递规律的数值模拟分析. 应用科学学报[J]. 2001, 19(4): 345-, http://lib.cqvip.com/Qikan/Article/Detail?id=5900036.
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科研活动

   
科研项目
( 1 ) 低温余热品位提升及能量储存, 主持, 国家级, 2011-01--2015-12
( 2 ) XXX新技术研究, 主持, 研究所(学校), 2014-01--2016-12
( 3 ) 高速旋转叶片表面瞬态温度/热流分布测试系统, 主持, 部委级, 2013-01--2016-12
( 4 ) 先进二回路预研, 主持, 部委级, 2011-01--2016-12
( 5 ) 催化反应与热质传递的多尺度耦合与协同研究, 主持, 国家级, 2015-01--2018-12
( 6 ) 印刷电路板式换热器技术研发, 主持, 院级, 2017-09--2022-08
参与会议
(1)工程科学学位委员会   工程科学学位评定委员会   2017-12-23
(2)动力工程及工程热物理学科点合格评估   动力工程及工程热物理学科点合格评估   2017-12-20
(3)工程科学学位委员会   工程科学学位委员会   2017-06-27

指导学生

已指导学生

尹铁男  硕士研究生  080702-热能工程  

李志刚  博士研究生  080701-工程热物理  

王唯威  博士研究生  080701-工程热物理  

邹玉  博士研究生  080701-工程热物理  

陶毓伽  博士研究生  080701-工程热物理  

王磊  硕士研究生  080702-热能工程  

游良平  硕士研究生  080701-工程热物理  

李虹霞  硕士研究生  080702-热能工程  

王焕光  博士研究生  080701-工程热物理  

成克用  博士研究生  080701-工程热物理  

郭子义  硕士研究生  080701-工程热物理  

陈飞  博士研究生  080701-工程热物理  

刘斌  博士研究生  080701-工程热物理  

段彦军  博士研究生  080701-工程热物理  

辛芳  博士研究生  080701-工程热物理  

侯燕  博士研究生  080701-工程热物理  

孟瑞雪  硕士研究生  080701-工程热物理  

赵树男  博士研究生  080701-工程热物理  

席文宣  博士研究生  080701-工程热物理  

彭文平  博士研究生  080701-工程热物理  

陶跃群  博士研究生  080701-工程热物理  

相梦如  硕士研究生  080701-工程热物理  

现指导学生

崔欣莹  博士研究生  080701-工程热物理  

张海燕  博士研究生  080701-工程热物理  

陈俊霖  博士研究生  080701-工程热物理  

黄彩凤  博士研究生  080701-工程热物理  

史旭升  博士研究生  080701-工程热物理