王为术

建筑环境与能源应用工程系
博士

基本信息

姓名:王为术 性别:男 出生年月:1972.04 籍贯:重庆开县

学历:博士研究生 学位:工学博士 职称/职务:教授/实验管理中心主任

专业领域:建筑环境与能源应用工程 研究方向:储能系统安全管理、工业耦合深度节能、多相流体热质传递

教育经历

1992-1996年于华北水利水电学院学习,1996年获工学学士学位

2000-2002年于北京工业大学学习,2002年获工学硕士学位

2003-2006年于西安交通大学学习,2006年获工学博士学位

2009-2012年于西安交通大学核科学与技术博士后流动站,博士后

2016-2017年于大连理工大学,高访学者

工作经历

2012-至今 华北水利水电大学

教学任务

研究生:《高等传热学》、《数值传热学》

本科生:《冷热源工程》、《锅炉原理》

科研项目

国家重点研发计划子课题:《流程工业系统优化与节能技术》

国家自然基金:《近壁边界层对超临界流体拟临界温度附近传热特性影响机理》

国家自然基金:《定位格架影响下堆芯通道超临界流体流动与传热机理研究》

国家自然基金:《微细通道换热器强化传热机理及多目标优化》

中原科技领军人才:《钢铁烧结矿炉冷发电高效换热关键理论与技术》

河南省高校科技创新团队项目:《燃煤能源高效转化与超净排放》

河南省科技创新杰出青年基金:《有机工质低温余热发电工艺系统及蒸发换热关键技术》

河南省高校创新人才项目:《超临界水冷反应堆棒束通道传热特性研究》

中国博士后基金项目:《压力突降过程中超临界流体的非平衡热力学传热机理研究》

论文论著

(1)Wang Weishu, Niu Jingzun, Li Yun-Ze, Ren Kunpeng. Numerical study on heat transfer enhancement by spray-sublimation cooling with dry ice particles[J]. Applied Thermal Engineering,2022,214.(SCI检索)

(2)Wang Weishu, Tian Shujian, Long Jisheng, Liu Jun, Ma Qinhui, Xu Kai, Zhang Zhen. Investigation and Evaluation of Flue Gas Pollutants Emission in Waste-to-Energy Plant with Flue Gas Recirculation[J]. Atmosphere,2022,13(7).(SCI检索)

(3)Wang Weishu, Yao Zikun, Li Yun-Ze, Yuan Man, Ning Xian-Wen. Experimental and numerical study on the heat transfer performance inside integrated sublimator driven coldplate for aerospace applications[J]. International Communications in Heat and Mass Transfer,2021,128.(SCI检索)

(4)Wang Weishu, Luo Xiaoyu, Li Quangong, Xu Kai, Liu Jun. Operation optimization and costs analysis of the wet desulfurization system in an ultra‐supercritical coal‐fired power plants[J]. Environmental Progress & Sustainable Energy,2020,40(2).(SCI检索)

(5)Wang Weishu, Shang Mengyuan, Li Yun-ze, Yao Zikun, Niu Jingzun, Zhen Juan. Thermal performance analysis of jet cooling method in a high-power permanent magnet synchronous motor[J]. J. Thermal Sci. Eng. Appl,2022.(SCI检索)

(6)Wang Weishu, Zhen Juan, Xu Weihui, Guo Jiawei, Zhai Yuxin. Numerical Study of Flow Field Optimization for Forebay and Suction Chamber to Solve the Vibration of Pumps in a Parallel Circulation Pumping Station[J]. Machines,2022,10(8).(SCI检索)

(7)Wang Weishu, Zheng X, Xu W, et al. Structural Effect of a Staggered-Blade-type Grid Spacer on the Flow and Heat Transfer Characteristics of Supercritical Water in a Triangular Core Channel[J]. ACS omega, 2022, 7(26): 22714-22724.(SCI检索)

(8)Wang Weishu, Chen C, Xu W, et al. Experimental research on heat transfer characteristics and temperature rise law of in situ thermal remediation of soil[J]. Journal of Thermal Analysis and Calorimetry, 2022, 147(4): 3365-3378.(SCI检索)

(9) Zhao S,Wang Weishu*, Ge Z. Thermodynamic, operational, and techno-economic analysis of the cascade heating system with a double-unit[J]. Energy Conversion and Management, 2020, 226: 113558.(SCI检索)

(10)Wang Weishu, Sun Y, Huang Z, et al. Numerical Simulation of NO x Emission Characteristics of a Cyclone Boiler with Slag-Tap Furnace[J]. ACS omega, 2020, 5(46): 29978-29987.(SCI检索)

(11)Wang Weishu, Luo X, Li Q, et al. Operation optimization and costs analysis of the wet desulfurization system in an ultra‐supercritical coal‐fired power plants[J]. Environmental Progress & Sustainable Energy, 2021, 40(2): 13527.(SCI检索)

(12) Zhao S,Wang Weishu*, Ge Z. Energy and exergy evaluations of a combined heat and power system with a high back-pressure turbine under full operating conditions[J]. Energies, 2020, 13(17): 4484.(SCI检索)

(12)Weishu Wang, Yihan Liao, Youzhi Yan, Bingchao Zhao, Tao Wang, Shanshan Shangguan. Numerical study on falling film flowing characteristics of R113 inside vertical tube under different structural conditions[J]. Chinese Journal of Chemical Engineering, 2020, 28(1): 23-32.(SCI检索)

(13)Wang Weishu, Yuan M, Li Y Z, et al. Numerical investigation on the heat transfer performance inside sublimator driven coldplate for aerospace applications[J]. Journal of Thermal Analysis and Calorimetry, 2021, 143(1):559-571.(SCI检索)

(14)Wang Weishu, Li C, Li Y Z, et al. Numerical Analysis of Heat Transfer Performance of In Situ Thermal Remediation of Large Polluted Soil Areas[J]. Energies, 2019, 12.(SCI检索)

(15)Wang Weishu, Ge X, Zhao S, et al. A Novel Approach for Water Conservation and Plume Abatement in Mechanical Draft Cooling Towers[J]. Atmosphere, 2019, 10(12):734. (SCI检索)

(16)Wang Weishu, Li C, Li Y Z, et al. A novel on-top inverse sunspace conception and the passive heating effects on a typical northern China rural house[J]. Indoor and built environment, 2019, 28(10):1406-1421.(SCI检索)

(17)Wang Weishu, Liao Y, Liu J, et al. Numerical simulation and optimization of staged combustion and NOx release characteristics in precalciner[J]. Journal of Thermal Science, 2019, 28(5): 1024-1034.(SCI检索)

(18)Wang Weishu, Yuan M, Li Y Z, et al. Numerical investigation on the impact of an on-top sunspace passive heating approach for typical rural buildings in northern China[J]. Solar Energy, 2019, 186:300-310.(SCI检索)

(19) Wang, Weishu, et al. Experimental investigation on frictional multiplier of steam-water two-phase flow in internally ribbed enhanced tubes[J]. Advances in Mechanical Engineering. 9.8 (2017): 1687814017714980.(SCI检索)

(20) Zhu X, Wang Weishu, Mu L, et al. Theoretical analysis on response characteristics of mass flow in supercritical pressure circulating fluidized bed boiler[J]. Applied Thermal Engineering, 2015, 87: 286-296.(SCI检索)

获奖情况

(1)低温余热高效回收双工质发电系统关键技术及装备,河南省科技进步奖,二等奖,2021年

(2)基于金砖国家网络大学计划的能源领域人才培养机制研究,河南省高等教育教学成果奖,二等奖,2020年

(3)煤电机组智能燃烧实时控制关键技术研发及应用,中国电力科技进步奖,一等奖,2019年

(4)620℃双切双级减温百万超超临界锅炉汽温提升关键技术及应用,中国能源创新奖,二等奖,2019年

(5)超(超)临界锅炉水动力及水冷壁传热安全评价方法及应用,河南省科技进步奖,三等奖,2019年

(6)水泥线纯低温余热双压发电热平衡与烟风阻力设计方法研究,河南省科技进步奖,三等奖,2012年

联系方式

联系地址:河南省郑州市北环路36号华北水利水电大学(花园校区)

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