基本介紹
- 中文名:
- 畢業院校:
- 學位/學歷:
- 職業:
- 專業方向:
- 任職院校:
個人經歷,研究方向,主講課程,學術成果,榮譽獎項,
先後承擔過國家自然科學基金、浙江省自然科學基金、國家重點研發計畫子課題、教育部博士點基金、教育部高等學校能源動力類新工科研究與實踐項目重點項目等科研項目。共發表SCI論文38篇,EI或核心期刊論文10篇。曾受邀在第九屆全國製冷與暖通空調學科教學與學術會議、第十三屆以及十四屆全國電冰櫃(櫃)、空調器及壓縮機學術交流大會、2017國際汽車熱管理產業大會、2018整車熱管理技術年會上做大會報告。獲評為中國製冷學會優秀青年科技工作者、浙江大學求是青年學者、優秀青年教師以及浙江省海外高層次留學回國人才。
專利
ZL 200810005126.2 直膨式空調及其系統和控制方法
201410038997X基於權重規則表的PID型模糊邏輯控制方法
2015103155761 一種動態自適應空調控制系統
2015105407324 一種能源回收自清潔的垃圾輸送系統
201510460237.2 反射式輻射供冷系統
201820869491.7 一種無水垢蒸汽發生器 (實用新型)
201820868610.7 一種基於大面積傳熱的高效蒸汽發生器(實用新型)
201820869047.7—種基於管內擾動的高效蒸汽發生器(實用新型)
ZL2017100564807一種精餾型自復疊低溫冷凝的油氣分離系統
ZL2017100564830 一種帶冷量回收的精餾型自復疊低溫冷凝油氣分離系統
ZL201410131446.8 一種用於汽車空調的環保型製冷劑及其製備方法
ZL201610889811.0 一種輻射供冷廚房空調和集成廚具
科研項目
國家級:
項目負責人,國家自然科學基金項目(51306160):直膨式多空間降溫除濕的雙重耦合作用機理研究, 25萬, 2014.01-2016.12
子課題負責人,國家重點研發計畫課題(2016YFB0901404):多能源驅動的溶液直接吸收熱泵與製冷,2016.08-2020.12
項目負責人,國家自然科學基金項目(51976181): 電動汽車一體式熱泵熱管理系統穩定控制機理研究, 63萬, 2020.01-2023.12
省部級:
項目負責人,教育部博士點新教師基金 (20130101120144): 新型微尺度肋片表面排水性能以及對空調除濕能力影響的研究, 4萬, 2014.01-2016.12
項目負責人,浙江省自然科學基金 (LY17E060002): 直膨式空調溫濕度軟解耦及自尋優變頻調控機理研究, 8萬, 2017.01-2019.12
項目負責人,教育部高等學校能源動力類新工科研究與實踐項目重點項目,基於STEAM理念的新工科交叉課程改革研究,5萬,2018.01-2019.12
校級:
項目負責人,浙江大學優秀青年教師資助計畫(紫金計畫),15萬, 2013.01-2014.12,已結題
項目負責人,浙江大學自主科研計畫,17.75萬,2015.01-2016.12
項目共同負責人,浙江大學學科交叉預研專項,促進深度學習的STEAM課堂,6萬,2016.07-2018.12
項目負責人,浙江大學研究生素養與能力培養型課程建設項目,動力工程專業設計與實踐,15萬,2017.06-2020.06
企業合作橫向課題:
項目負責人,區域定製化空調第一階段項目
項目負責人,區域定製化空調第二階段項目
項目負責人,基於新型氣候分區的熱泵控制最佳化項目
項目負責人,兩相流仿真關鍵技術開發項目
項目負責人,新能源汽車綜合熱管理系統集成關鍵技術開發項目
項目負責人,溫濕度軟解偶控制系統開發項目
項目負責人,浙江大學紫金港校區分動力中心節能改造技術諮詢,2016.07-2017.08
項目負責人,低碳製冷劑重要物性研究, 95萬 2013.01-2014.01,已結題
項目參與,環保新製冷劑高效節能變頻一拖多空調器的研究 已結題
論文
1.XG Xu, CW Leung, MY Chan and SM Deng* (2007). Condensate retention on a Louver-Fin-and-Tube air cooling coil. International Journal of Refrigeration, 30(3): 409-417.
Discipline: Mechanical engineering. Impact Factor: 2.779
2.XG Xu, SM Deng* and MY Chan (2008). A new control algorithm for direct expansion air conditioning systems for improved indoor humidity control and energy efficiency. Energy Conversion and Management, 49(4): 578-586.
Discipline: Energy and fuels. Impact Factor: 5.589
3.XG Xu, L Xia, MY Chan and SM Deng* (2008). A modified McQuiston model for evaluating efficiency of wet fin considering effect of condensate film moving on fin surface. Energy Conversion and Management, 49(8): 2403-2408.
Discipline: Energy and fuels. Impact Factor: 5.589
4. YM Chen, SM Deng*,XG Xu, and MY Chan (2008). A study on the operational stability of a refrigeration system having a variable speed compressor. International Journal of Refrigeration, 31(8): 1368-1374.
Discipline: Mechanical engineering. Impact Factor: 2.779
5. L Xia, MY Chan, SM Deng* andXG Xu(2009). A modified logarithmic mean enthalpy difference (LMED) method for evaluating the total heat transfer rate of a wet cooling coil under both unit and non-unit Lewis Factors. International Journal of Thermal Sciences, 48(11): 2159-2164.
Discipline: Mechanical engineering. Impact Factor: 3.615
6. MY Chan*, SM Deng andXG Xu(2009). Residential indoor humidity control in tropics and sub-tropics. Building Services Engineering Research and Technology, 30(2): 169-173.
Discipline: Construction & Building Technology. Impact Factor: 0.67
7. L Xia, MY Chan, SM Deng* andXG Xu(2009). Dehumidification effects in the superheated region (SPR) of a direct expansion (DX) air cooling coil. Energy Conversion and Management, 50(12): 3063-3070.
Discipline: Energy and fuels. Impact Factor: 5.589
8.XG Xu, KY Sit, SM Deng and MY Chan* (2010). Thermal comfort in an office with intermittent air-conditioning operation. Building Services Engineering Research and Technology, 31(1): 91-99.
Discipline: Construction & Building Technology. Impact Factor: 0.67
9. L Xia, MY Chan, SM Deng* andXG Xu(2010). Analytical solutions for evaluating the thermal performances of wet air cooling coils under both unit and non-unit Lewis Factors. Energy Conversion and Management, 51(10): 2079-2086.
Discipline: Energy and fuels. Impact Factor: 5.589
10. Q Qi, SM Deng*,XG Xuand MY Chan (2010). Improving degree of superheat control in a direct expansion air conditioning system having a variable speed compressor and a variable speed supply fan. International Journal of Refrigeration, 33(1): 125-134.
Discipline: Mechanical engineering. Impact Factor: 2.779
11.XG Xu, L Xia, MY Chan and SM Deng* (2010). Inherent correlation between the total output cooling capacity and equipment sensible heat ratio of a direct expansion air conditioning system under variable-speed operation. Applied Thermal Engineering, 30(13): 1601-1607.
Discipline: Mechanical engineering. Impact Factor: 3.356
12. DM Pan, MY Chan, SM Deng*, L Xia andXG Xu(2011). Numerical study on the micro-climate around a sleeping person and the related thermal neutrality issues. Ergonomics, 54(11):1088-1100
Discipline: Ergonomics。 Impact Factor: 1.818
13. L Xia*, MY Chan, ML Qu,XG Xuand SM Deng (2011). A fundamental study on the optimal/near optimal shape of a network for energy distribution. Energy, 36(11): 6471-6478
Discipline: Energy and fuels. Impact Factor: 4.520
14. Y. Pan,X.G. Xu, L. Xia and S.M. Deng* (2012), A modeling study on the effects of refrigerant pipe length on the operational performance of a dual−evaporator air conditioning system. Applied Thermal Engineering, 39 (2012):15-25
Discipline: Mechanical engineering. Impact Factor: 3.356
15. N Li, L Xia*, SM Deng,XG Xuand MY Chan (2012). Steady-state operating performance modeling and prediction for a direct expansion air conditioning system using artificial neural network. Building Services Engineering Research and Technology, 33 (3):281-292
Discipline: Construction & Building Technology. Impact Factor: 0.67
16. N Li, L Xia, SM Deng*,XG Xuand MY Chan (2012). Dynamic modeling and control of a direct expansion air conditioning system using artificial neural network. Applied Energy, 91(1): 290-300
Discipline: Energy and fuels. Impact Factor: 7.182
17. DM Pan, MY Chan, L Xia,XG Xuand SM Deng* (2012). Performance evaluation of a novel bed-based task/ambient conditioning (TAC) system. Energy and Buildings, 44(1): 54-62
Discipline: Energy and fuels. Impact Factor: 4.067
18.X.G. Xu*, Y. Pan, S.M. Deng, L. Xia and M.Y. Chan (2013), Experimental study of a novel capacity control algorithm for a multi-evaporator air conditioning system, Applied Thermal Engineering, 50(1):975-984
Discipline: Mechanical engineering. Impact Factor: 3.356
19.X.G. Xu*,S. Chao, S.M. Deng (2013), Using two parallel connected compressors to implement a novel control algorithm for improved indoor humidity at a low cost, Building Services Engineering Research and Technology, 34(August):349-354
Discipline: Construction & Building Technology. Impact Factor: 0.67
20. Ning Li, Liang Xia, Deng Shiming*,Xiangguo Xuand Ming-Yin Chan (2013), On-line adaptive control of a direct expansion air conditioning system using artificial neural network, Applied Thermal Engineering, 53(1):96-107
Discipline: Mechanical engineering. Impact Factor: 3.356
21. X. Han, N. Li, K. Wu, Z. Wang, L. Tang, G. Chen,X. Xu*(2013), The influence of working gas characteristics on energy seperation of vortex tube, Applied Thermal Engineering, November, 61(2): 171-177
Discipline: Mechanical engineering. Impact Factor: 3.356
22.X.G. Xu,S.M. Deng, X.H. Han, X.J. Zhang* (2014), A novel hybrid steady-state model based controller for simultaneous indoor air temperature and humidity control, Energy and Buildings, 68:593-602
Discipline: Energy & Fuels. Impact Factor: 4.067
23.X.G. Xu, S.M. Deng, X.H. Han, X.J. Zhang* (2014), A control oriented semi-physical model for a direct expansion air conditioning system, Building Services Engineering Research and Technology, 35(6): 585-599
Discipline: Construction & Building Technology. Impact Factor: 0.67
24. Z. Li,X.G. Xu*, S.M. Deng, D.M. Dong (2014), Further Study on the Inherent Operating Characteristics of a Variable Speed Direct Expansion Air Conditioning System, Applied Thermal Engineering, 66:206-215
Discipline: Mechanical engineering. Impact Factor: 3.356
25. X.H. Han, X.R. Yuan, Z.Z. Xu, X.H. Wang, G.M. Chen,X.G. Xu*(2014), Research on Compatibility between Ethyl Fluoride with/without Lubricant Oils, and Plastics and Elastomers, Industrial & Engineering Chemistry Research, 2014, 53 (38):14650–14658
Discipline: ENGINEERING, CHEMICAL . Impact Factor: 2.843
26. J.H. Zhu, Q.M. Yang*,X.G. Xu, J.G. Lu (2014), A LPV Model-based Chilled Water Temperature Controller for HVAC Systems, Building Services Engineering Research and Technology, 36(3):368-385
Discipline: Construction & Building Technology. Impact Factor: 0.67
27. Q. Wang, B. Ren, Z.Y. Zhen, W. He, Y.Q. Liu,X.G. Xu*, G.M. Chen (2015), Development of a novel indirect-expansion solar-assisted multifunctional heat pump with four heat exchangers, Building Services Engineering Research and Technology,36(4):469-481
Discipline: Construction & Building Technology. Impact Factor: 0.67
28. Z. Li,X.G. Xu*, S.M. Deng, D.M. Pan (2015), A novel neural network aided fuzzy logic controller for a variable speed (VS) direct expansion (DX) air conditioning (A/C) system, Applied Thermal Engineering, 78:9-23
Discipline: Mechanical engineering. Impact Factor: 3.356
29. B.C. Ye, J. Liu,X.G. Xu, G.M. Chen*,J. Zhen (2015), A new open absorption heat pump for latent heat recovery from moist gas, Energy Conversion and Management, 94:438-446.
Discipline: Energy and fuels. Impact Factor: 5.589
30. Z Li,XG Xu*,SM Deng and DM Pan (2015). A novel Proportional-Derivative (PD) controller based on fuzzy logic principles for simultaneously controlling indoor temperature and humidity using a direct expansion (DX) air conditioning (A/C) system. International Journal of Refrigeration, 57:239-256
Discipline: Mechanical engineering. Impact Factor: 2.779
31. Q.M. Yang, J.H. Zhu,X.G.Xu*, J.G.Lu (2016), Simultaneous control of indoor air temperature and humidity for a chilled water based air conditioning system using neural networks. Energy and Buildings, 110:159-169
Discipline: Energy & Fuels. Impact Factor: 4.067
32. X.H. Han, W.H. Wang, H.C. Zhen,X.G.Xu*, G.M. Chen (2016), Review of the Development of Pulsating Heat Pipe for heat dissipation. Renewable & Sustainable Energy Reviews, 2016, 59:692-709
Discipline: Energy & Fuels. Impact Factor: 8.050
33.X.G. Xu*, Y.S. Li, S.Y. Yang, G.M. Chen (2017), A review of fishing vessel refrigeration systems driven by exhaust heat from engines. Applied Energy, 2017, 203:657-676
Discipline: Energy and fuels. Impact Factor: 7.182
34. M.J. Song,X.G. Xu, N. Mao*, S.M. Deng, Y.J. Xu (2017), Energy transfer procession in an air source heat pump unit during defrosting. Applied Energy, 2017, 204:679-689
Discipline: Energy and fuels. Impact Factor: 7.182
35.X.G. Xu*,Z.Y. Huang, X.F. Wang, Z.W. Zhong, X.B. Zhang (2017), A Control-oriented hybrid model for a direct expansion air conditioning system. Energy and Buildings, 2017, 155:76-87
Discipline: Energy & Fuels. Impact Factor: 4.067
36.H.X. Yan, Y.D. Xia,X.G. Xu*,S.M. Deng (2017), Inherent operational characteristics aided fuzzy logic controller for a variable speed direct expansion air conditioning system for simultaneous indoor air temperature and humidity control, Energy and Buildings, 2018, 158:558-568
Discipline: Energy & Fuels. Impact Factor: 4.067
37.X.G.Xu, Z.W. Zhong, S.M. Deng, X.B. Zhang (2018), A review on temperature and humidity control methods focusing on air-conditioning equipment and control algorithms applied in small-to-medium-sized buildings, Energy and Buildings, 2018, 162:163-176
Discipline: Energy & Fuels. Impact Factor: 4.067
38.X.G. Xu*,Z.H. Huang, X.B. Zhang, Z. Li (2018), A novel humidity measuring method based on dry-bulb temperatures using artificial neural network, Building and Environment, 2018, 139: 181-188
Discipline: Construction & Building Technology. Impact Factor: 4.053
39. S.K. Wang, Y.L. Liu, Y. CHen, Q. Wang,X.G. Xu*, G.M. Chen, S.M. Deng, Experimental investigations on the temperature lift performance of a novel diffusion absorption heat transformer, Energy, 2019, 170: 906-914
Discipline: Energy & Fuels. Impact Factor: 4.968
40. Han Xiaohong, Wang Yanzhi, Yang Zhangzhang, Fang Yibo, Huang Jiongliang,Xu Xiangguo,Chen Guangm ing, Investigation on Vapor Liquid Equilibrium of (Argon plus Methane) at the Temperature Range of (95 to 135) K,JOURNAL OF CHEMICAL AND ENGINEERING DATA, 2018, 63(9):3382-3390
Discipline: Engineering, Chemical. Impact Factor: 2.196
41. S.K. Wang, Z.K. Guo, X.H. Han,X.G. Xu, Q. Wang, S.M. Deng, G.M. Chen, Experimental evaluation on low GWP HFO-1336mzz-Z as an alternative to HCFC-123 and HFC-245fa, Journal of Thermal Science and Engineering Applications, 2019, 11(3):031009
42. Zhang Shaozhi, Niu Xiao, Huang Gengsheng, Chen Guangming,Xu Xiangguo*,Vapor pressure above glassy trehalose solution and the effects of ageing, CryoLetters, 2019, 40 (4): 247-256
43. Shaozhi ZHANG, Xiao NIU, Yang LI, Guangming CHEN,Xiangguo XU*,Numerical simulation and experimental research on heat transfer and flow resistance characteristics of asymmetric plate heat exchangers, Front. Energy, 2019, In press
中文期刊
1. 楊申音,王勤,唐黎明,徐象國*,陳光明,姚玉平,王飛,常規空調熱泵系統的R32替代研究述評,製冷學報,2013,第34卷,第6期,59-68 (核心期刊)
2. 林瑋,楊申音,陳光明,王勤,徐象國*,船舶搖擺振動對傳熱和製冷系統的影響研究述評,製冷學報,2014,第35卷,第3期,8-15 (核心期刊)
3. 王勤,何巍,王世寬,郝楠,徐象國*,陳光明,徐璐,陳達,R134a-DMF溶液氣泡泵輸送性能實驗研究,工程熱物理學報,2014,第6期,1053-1057 (EI,核心期刊)
4. 王勤,任彬,王輝,宋琦,徐象國*,陳光明,精餾型自復疊小型天然氣液化系統配比最佳化,化工學報,2014,第65卷,第S2期,169-174(EI,核心期刊)
5. 袁曉蓉,高贊軍,王學會,徐象國,陳光明,韓曉紅, 一種適用於低沸點混合製冷劑粘度測量裝置的研製, 製冷學報,2014, 第35卷,第5期 ,1-6 (核心期刊)
6. 韓曉紅*,管文潔,高贊軍,崔曉龍,徐象國,陳光明,汽液相平衡計算混合法則中協體積項b的改進,化工學報,2015,第66卷,第2期,489-496(EI,核心期刊)
7. 王勤,王世寬,賀偉,劉玉遷,徐象國,韓曉紅*,陳光明,新型四換熱器流程太陽能輔助多功能熱泵實驗研究,工程熱物理學報,2015,第36卷,第1期,26-31 (EI,核心期刊)
8.徐象國*,王曉非,鐘子文,張曉波,梁灝彬,濕工況下肋片效率計算方法分析、總結與改進,暖通空調,第46卷,第11期,47-56 (核心期刊)
9. 宋琦,樂生健,呂東傑,王輝,徐象國,王勤*,郭智愷,-60℃溫區精餾型自復疊製冷系統R41替代 R23的理論與實驗,化工學報,2016,第67卷,第S2期,304-310 (EI,核心期刊)
10.徐象國*,詹思成,梁灝彬,王曉非,鐘子文,空調換熱器表面排水性能計算模型、整體影響及改進方法綜述,機械工程學報,2017,第53卷,第4期,122-133 (EI,核心期刊)
11.徐象國,能源之“道”——能源與環境系統工程概論課程改革嘗試,第九屆全國高等院校製冷與暖通空調學科發展及教學研討會論文集,198-201
12.徐象國*,詹思成,梁灝彬,新型微小尺度肋片的表面排水性能研究,中國科技論文,2017,12(23),2641-2650 (核心期刊)
13.潘冬梅,徐象國*,王怡琳,王立民,邵俊強,高大空間氣流組織模擬——文獻綜述,暖通空調,2018,48(1),131- 138 (核心期刊)
14. 張曉波,徐象國*,多目標約束下半導體製冷片幾何結構參數的最佳化設計研究,製冷學報,2018,39(3),22-30(核心期刊)
15. 王曼伊,王立民,王志強,王怡琳,徐象國*,面向建築能耗模擬的高校圖書館人員作息研究,暖通空調,2018,49(1),52-56 (核心期刊)
16. 李逸姝,魏健健,徐象國*,張曉波,新型輻射供冷末端裝置的開發與數值模擬研究,製冷技術,2018,37(6),55-61 (核心遴選期刊)
17. 徐芸青,王志強,王立民,徐象國*,王曼伊,濕度對建築空調系統設計及運行影響探討,暖通空調,2018,已收錄 (核心期刊)
18. 夏宇棟,鐘子文,紀曉聲*,徐象國,多功能直膨空調系統控制實驗平台開發與套用,實驗技術與管理,2018,35(7),95-103
19. 張荔喆,張學軍,徐象國*,趙陽,范譽斌,余萌,張小斌,基於TRNSYS17的表冷器水側入口參數尋優研究, 製冷與空調, 2018, 18(12):29-36
20. 包康麗,楊澤科,方一波,喬曉剛,韓曉紅,徐象國*,陳光明, 傾斜角對金屬泡沫脈動熱管傳熱性能研究,工程熱物理學報,2019, 40(8):1724-1728
21.方誌強,王志強,魏晉,鈴木秀明,小川貴生,徐象國*,基於實際運行數據的不同氣候區冬季 空氣源熱泵結霜特徵分析,製冷學報,2020, in press
22.黃志遠,徐象國*,邵俊強,家用空調節能控制算法綜述,家電科技,2019,05:58-61
Conference Paper
1.XG Xu, MY Chan and SM Deng (2009). A new viewpoint to studying the condensate retention and drainage process on air cooling coil. Proceedings of HT2009, 2009 ASME Summer Heat Transfer Conference, July 19-23, 2009, San Francisco, California USA. 1:657-665(EI)
2.XG Xu, SM Deng, and MY Chan (2009). Using High-low capacity compressor to execute a simple novel control algorithm for direct expansion (DX) air conditioning (A/C) system. Proceedings of XIII European Conference of Latest Technologies in Refrigeration and Air Conditioning, June, 2009, Milan, Italy.
3.XG Xu, SM Deng, CF Tang and MY Chan (2011). Pre-conditioning ventilation air using indirect evaporative cooling based on heat pipe technology. Proceedings of The 23rd IIR International Congress of Refrigeration, August, 2011, Prague, Czech Republic. 23:106-113
4.XG Xuand SM Deng (2012). A novel rule set establishment method for a PID-type fuzzy logic controller in HVAC system. Accepted by 2nd Asian-US-European Thermophysics Conference, January, 2012, Hong Kong
5. N Li, L Xia, SM Deng,XG Xuand MY Chan (2012). Development Of an On-line Adaptive ANN-based Controller for a Direct Expansion Air Conditioning System. 14th International Refrigeration and Air Conditioning Conference, July, 2012, West Lafayette, Indiana, USA
6. M.J. Song,X.G. Xuand S.M. Deng (2014). An experimental study on defrosting performance during reverse cycle defrosting of an air source heat pump with a horizontal three-circuit outdoor coil. the 6th International Conference on Applied Energy, May 30-June 2, 2014, Taiwan ( Energy Procedia 61 92-95)
7.Z Li,XG Xu, SM Deng and DM Pan (2014). A PD Law Based Fuzzy Logic Control Strategy for Simultaneous Control of Indoor Temperature and Humidity Using A Variable Speed Direct Expansion Air Conditioner, 15th International Refrigeration and Air Conditioning Conference at Purdue, July 14-17, 2014
8.X.F. Wang,X.G. Xu(2015), A CONTROL-ORIENTED HYBRID MODEL FOR A DIRECT EXPANSION AIR CONDITIONING SYSTEM, The 24th IIR International Congress of Refrigeration, August 16-22, 2015, Yokohama, Japan
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10. 王志強,徐象國 (2018),針對空調系統設計的氣候區域性特徵研究,第十四屆全國電冰櫃(櫃)、空調器及壓縮機學術年會,2018年8月9-11日,青島,會議優秀論文三等獎
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榮譽獎項
2017能源工程學院青年教師教學競賽優勝獎
2017浙江大學青年教師教學競賽二等獎
2017年浙江大學獎教金
2018第十四屆全國電冰櫃(櫃)、空調器及壓縮機學術年會優秀論文三等獎
2017-2018年度《製冷技術》(開利杯)優秀論文二等獎
