複製鏈接
請複製以下鏈接發送給好友
https://baike.baidu.hk/item/肖蘭/23712227
複製
複製成功

肖蘭

(重慶大學能源與動力工程學院副教授)

鎖定
肖蘭,女,博士,重慶大學能源與動力工程學院副教授,碩士生導師。主要從事傳熱傳質、太陽能熱電轉換與利用等方面的教學和科研工作,主講《工程傳質》、《太陽能利用原理與技術》等課程。主持國家自然科學基金青年科學基金項目、中央高校基本科研業務費科研專項自然科學類面上項目、低品位能源利用技術及系統教育部重點實驗室固定人員科研基金項目各1項;參與國家自然科學基金面上項目、科技部國家基礎研究規劃項目(“973”計劃)、教育部留學回國人員科研啓動基金項目和重慶市自然科學基金項目各1項。曾獲“黃尚廉院士青年創新獎”等多項獎勵。近年來,針對太陽能利用領域(包括太陽能腔式吸熱器、光伏發電、光伏電-熱(PV-T)系統、太陽能光化學利用)以及太陽能與熱電直接轉換裝置(包括鹼金屬熱電轉換器和温差發電器)聯合系統等涉及的熱物理問題,以第一或第二作者在《Solar Energy》、《Renewable Energy》、《Applied Energy》、《Applied Thermal Engineering》、《International Journal of Thermal Sciences》、《Energy Conversion and Management》等重要SCI期刊雜誌上發表論文20餘篇,他引200多次;獲授權發明專利5項,授權實用新型專利3項。
中文名
肖蘭
國    籍
中國
學位/學歷
博士
職    業
教師
職    務
重慶大學能源與動力工程學院碩士生導師

目錄

  1. 1 研究方向
  2. 2 學術成果
  3. 期刊論文
  4. 會議論文
  5. 專利

肖蘭研究方向

(1)太陽能發電和熱利用中的熱物理問題;
(2)能源高效轉換與節能技術;
(3)傳熱傳質及其工程應用;
(4)熱力學及其應用。 [1] 

肖蘭學術成果

肖蘭期刊論文

[1]Lan Xiao, Shuang-Ying Wu, Shi-Ling Yang. Parametric study on the thermoelectric conversion performance of a concentrated solar driven thermionic-thermoelectric hybrid generator.International Journal of Energy Research, 2018, 42(2): 656-672.
[2]Lan Xiao, Shuang-Ying Wu, Yang Shang. Theoretical analysis of sodium vapor condensation on a plate imbedded in a porous medium under zero gravity condition.Heat Transfer Research, 2017, 48(15): 1359-1378.
[3]Lan Xiao, Hai-Yan Wu, Shuang-Ying Wu. Flow and heat transfer characteristics of alkali metal liquid in a pipe with inscribed regular polygon porous media.Journal of Mechanical Science and Technology, 2017, 31(4): 1987-1994.
[4]Lan Xiao, Shuang-Ying Wu,Chun Li, The critical external heat source conditions for subcritical ORC system based on thermo-economics,Journal of Mechanical Science and Technology, 2016, 30(8): 3853-3860.
[5]Lan Xiao, Shuang-Ying Wu, Tian-Tian Yi, Chao Liu, You-Rong Li, Multi-objective optimization of evaporation and condensation temperatures for subcritical organic Rankine cycle,Energy, 2015, 83: 723-733.
[6]Lan Xiao, Shuang-Ying Wu, You-Rong Li, Numerical study on combined free-forced convection heat loss of solar cavity receiver under wind environments,International Journal of Thermal Sciences, 2012, 60: 182-194.
[7]Lan Xiao, Shuang-Ying Wu, You-Rong Li, Natural convection heat loss estimation of solar cavity receiver by incorporating a modified aperture ratio,IET Renewable Power Generation, 2012, 6(2): 122-128.
[8]Lan Xiao, Yi-Ding Cao, Recent advances in pulsating heat pipes and its derivatives,Journal of Enhanced Heat Transfer, 2012, 19(3): 213-231.
[9]Lan Xiao, Shuang-Ying Wu, Qiao-Ling Zhang, You-Rong Li, Theoretical investigation on thermal performance of heat pipe flat plate solar collector with cross flow heat exchanger,Heat and Mass Transfer, 2012, 48(7): 1167-1176.
[10]Lan Xiao, Shuang-Ying Wu, You-Rong Li, Advances in solar hydrogen production via two-step water-splitting thermochemical cycles based on metal redox reactions,Renewable Energy, 2012, 41: 1-12.
[11]Shuang-Ying Wu,Lan Xiao, Si-Min Chen, Jin-Liang Xu, You-Rong Li, Exergo-economic criteria for performance evaluation of enhanced heat transfer duct with constant wall temperature,Applied Thermal Engineering, 2012, 36: 393-402.
[12]Shuang-Ying Wu,Lan Xiao, You-Rong Li, Effect of aperture position and size on natural convection heat loss of a solar heat-pipe receiver,Applied Thermal Engineering, 2011, 31(14-15): 2787-2796.
[13]Shuang-Ying Wu,Lan Xiao, Comparative study of the effect of fouling on heat exchangers performance based on the first and second laws of thermodynamics,International Journal of Exergy, 2011, 9(1): 1-20.
[14]Shuang-Ying Wu,Lan Xiao, Yiding Cao, You-Rong Li. A parabolic dish/AMTEC solar thermal power system and its performance evaluation.Applied Energy, 2010, 87: 452-462.
[15]Shuang-Ying Wu,Lan Xiao, Yiding Cao, You-Rong Li, Convection heat loss from cavity receiver in parabolic dish solar thermal power system- A review,Solar Energy, 2010, 84(8): 1342-1355.
[16]Shuang-Ying Wu,Lan Xiao, Yi-Ding Cao, You-Rong Li. A review on advances in alkali metal thermal to electric converters (AMTECs).International Journal of Energy Research, 2009, 33: 868-892.
[17]肖蘭,吳雙應,陳思敏,底面加熱一側全開圓柱形腔體對環境風的耦合熱損失特性數值模擬,中國電機工程學報,2014,34(20):3324-3331.
[18]肖蘭,吳雙應,申祖國,關靖宇,李德磊,風向角對圓柱形腔體熱損失特性影響的實驗研究,工程熱物理學報,2014,35(7):1378-1381.
[19]肖蘭,吳雙應,李友榮,有風環境下太陽能吸熱器混合對流熱損失特性,工程熱物理學報,2012,33(9):1593-1596. [1] 

肖蘭會議論文

[1]Lan Xiao, Hai-Yan Wu, Shuang-Ying Wu, Quan-Wei Chu, Parametric analysis of condensation heat transfer characteristics of AMTEC wick condenser.Energy Procedia, 105: 4698-4705, 2017,8th International Conference on Applied Energy –ICAE2016, Beijing, China, Oct.8-11, 2016.
[2]Lan Xiao, Shuang-Ying Wu, Shi-Ling Yang, Preliminary Analysis of a Concentrated Solar Driven Thermionic-Thermoelectric Hybrid Generator,International Conference on Energy for Environmental and Economic Sustainability, Lahore, Pakistan,Oct.20-23, 2016.
[3]Lan Xiao, Shuang-Ying Wu*, A comparative study on the convection heat loss characteristics of solar cavity receiver based on the Boussinesq approximation and the ideal gas law,Proceedings of the 26th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems (ECOS2013), Paper No. B010, Guilin, China, July 16-19, 2013.
[4]Lan Xiao, Shuang-Ying Wu,You-Rong Li, Thermal-electric conversion efficiency of the dish/AMTEC solar thermal power system in wind condition,2012 Third International Conference on Digital Manufacturing and Automation, pp.972-974, Guilin, China, July 31 - August 2, 2012.
[5]Shuang-Ying Wu,Lan Xiao,You-Rong Li. Impact of cavity aspect ratio on natural convection heat loss of a solar receiver for high-temperature dish system.Advanced Materials Research,2011, 268-270: 214-218.
[6]Shuang-Ying Wu,Lan Xiao,Si-Min Chen, Feng-Hua Guo. Exergo-economic performance evaluation of enhanced tube under equivalent pump power consumption.Advanced Materials Research,2011, 354-355: 310-314.
[7]Lan Xiao,Shuang-Ying Wu, You-Rong Li. Effect of cavity wall temperature and opening ratio on the natural convection heat loss characteristics of a solar cavity receiver.2011 International Conference on Computer Distributed Control and Intelligent Environmental Monitoring, Changsha, China, 2010. [1] 

肖蘭專利

[1]肖蘭,楚權威,吳雙應,一種以工業廢氣為熱源的鹼金屬熱電直接轉換裝置,發明專利,專利號:ZL 201410740335.7.
[2]肖蘭,吳雙應*,李友榮,劉朝,基於熱管技術的有機朗肯循環低温餘熱發電系統,發明專利,專利號:ZL 201210336010.3.
[3]吳雙應,肖蘭,李友榮.基於鹼金屬熱電轉換的發電與制氫聯合循環系統.發明專利,專利號:ZL 201010042047.6.
[4]吳雙應,肖蘭,李友榮.一種光熱混合發電及熱利用一體化的太陽能綜合利用系統.發明專利,專利號:ZL 201010214752.X.
[5]吳雙應,肖蘭.一種碟式太陽能熱電直接轉換系統.發明專利,專利號:ZL 201110050837.3.
[6]吳雙應,肖蘭.兩側加肋片的太陽能光伏電熱一體化裝置.實用新型專利,專利號:ZL 201220478635.9.
[7]吳雙應,肖蘭,李友榮.基於平板型熱管冷卻的太陽能光伏電-熱轉換裝置.實用新型專利,專利號:ZL 200920126772.4.
[8]吳雙應,肖蘭,李友榮.一種圓柱形太陽能高温腔式吸熱器.實用新型專利,專利號:ZL 201020160953.1. [1] 
參考資料