高明
-
教授
博士生导师
硕士生导师
- 主要任职:高效储能及氢能利用山东省工程研究中心主任
- 其他任职:氢能技术科研带头人工作室负责人
- 性别:男
- 毕业院校:山东大学
- 学历:博士研究生毕业
- 学位:工学博士学位
- 在职信息:在职
- 所在单位:核科学与能源动力学院
- 入职时间: 2008-05-30
- 学科:热能工程
- 办公地点:山东省济南市历下区经十路17923号,山东大学千佛山校区东配楼
访问量:
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[241]
史月涛 , 高明 and 孙奉仲.
真空状态下不锈钢管束的凝结试验研究.
《热能动力工程》,
23,
577,
2008.
-
[242]
高明 and 孙奉仲.
Experimental research of the cross walls effect on the thermal performance of wet cooling towers und.
Applied thermal engineering,
31,
4007,
2011.
-
[243]
高明 and 校外负责人.
真空下不同换热管束换热特性的分析研究.
华北电力技术,
7,
2011.
-
[244]
高明 and 史月涛.
Experimental research of CFB ash deposition on helical finned tubes.
Applied thermal engineering,
37,
420,
2011.
-
[245]
高明 and 孙奉仲.
直接空冷系统防风措施的探讨.
《电站系统工程》,
27,
34,
2011.
-
[246]
高明 and 孙奉仲.
The fractal dimension of the fractal model of dropwise condensation and its experimental study.
International journal of nolinear sciences and numerical simulation,
8,
211,
2007.
-
[247]
孙奉仲 , 高明 and 赵元宾.
侧风对湿式冷却塔空气动力场影响的数值分析.
核动力工程,
29,
35,
2008.
-
[248]
高明 and 孙奉仲.
基于凝汽器强化传热技术的循环水系统节水研究.
《热能动力工程》,
21,
512,
2006.
-
[249]
赵元宾 , 高明 and 孙奉仲.
Three-dimensional regularities of distribution of air-inlet characteristic velocity in natural-draft.
JOURNAL OF HYDRODYNAMICS,
20,
323,
2008.
-
[250]
高明 , 孙奉仲 and 何锁盈.
Wind tunnel test on the flow resistance of U-type water collecting devices for natural draft wet coo.
Journal of Wind Engineering and Industrial Aerodynamics,
186,
234,
2019.
-
[251]
高明 , 何锁盈 , 孙奉仲 and 周扬.
Experimental study on the drag characteristic and non-uniform fillings for wet cooling towers under .
Applied thermal engineering,
140,
398,
2018.
-
[252]
高明.
Field test study on thermal and ventilation performance for natural draft wet cooling tower after st.
Applied thermal engineering,
155,
305,
2019.
-
[253]
高明.
Experimental study regarding the effects of forced ventilation on the thermal performance for super-.
Applied thermal engineering,
155,
40,
2019.
-
[254]
高明.
Numerical Simulation on Heat Transfer Performance Enhancement of Cooling Water Jacket used in Carbon.
Journal of Enhanced Heat Transfer,
26,
235,
2019.
-
[255]
高明.
Crosswind influence on cooling capacity in different zones for high level water collecting wet cooli.
Journal of Wind Engineering and Industrial Aerodynamics,
190,
134,
2019.
-
[256]
高明.
Numerical simulation of thermal performance for super large-scale wet cooling tower equipped with an.
International journal of heat and mass transfer,
135,
220,
2019.
-
[257]
高明 and 孙奉仲.
Experimental research of the cross walls effect on the thermal performance of wet cooling towers und.
Applied thermal engineering,
31,
4007,
2011.
-
[258]
高明 and He, Suoying.
Selection of wetted media for pre-cooling of air entering natural draft dry cooling towers.
Applied thermal engineering,
114,
857,
2017.
-
[259]
何锁盈 , 孙奉仲 , 高明 and 邹健.
Field test on ventilation performance for high level water collecting wet cooling tower under crossw.
Applied thermal engineering,
133,
439,
2018.
-
[260]
赵元宾 , 高明 and 孙奉仲.
Experimental research of the guiding channels effect on the thermal performance of wet cooling tower.
Applied Thermal Science,
0,
533,
2010.