基本信息
姓名:张培昆
系所:热科学与能源工程系
职称:教授
办公地点:机电楼913
邮箱:pkzhang@ustb.edu.cn
教育及工作经历
教育经历:
2001.09-2005.07 北京科技大学,热能工程专业,学士
2005.09-2011.07 北京科技大学,动力工程及工程热物理专业,博士
工作经历:
2011.11-2014.03 北京科技大学,热科学与能源工程系,博士后
2014.10-2015.04 英国伯明翰大学,化学工程系,访问学者
2014.04-2018.06 北京科技大学,热科学与能源工程系,讲师
2018.07-2025.06 北京科技大学,热科学与能源工程系,副教授/硕士生导师
2025.07- 至今 北京科技大学,热科学与能源工程系,教授,现任系副主任
2001.09-2005.07 北京科技大学,热能工程专业,学士
2005.09-2011.07 北京科技大学,动力工程及工程热物理专业,博士
工作经历:
2011.11-2014.03 北京科技大学,热科学与能源工程系,博士后
2014.10-2015.04 英国伯明翰大学,化学工程系,访问学者
2014.04-2018.06 北京科技大学,热科学与能源工程系,讲师
2018.07-2025.06 北京科技大学,热科学与能源工程系,副教授/硕士生导师
2025.07- 至今 北京科技大学,热科学与能源工程系,教授,现任系副主任
研究领域
1.气体分离及数值模拟
2.能量储存、转换与利用
3.节能减排新工艺与新技术
2.能量储存、转换与利用
3.节能减排新工艺与新技术
开设课程
压缩机、低温工艺及装置、低温工程
学术/社会兼职
全国压缩机标准化技术委员会压缩气体净化设备分技术委员会(SAC/TC145/SC1)委员
代表性论文及著作
1.《Air Purification Technologies by Temperature Swing Adsorption》 Metallurgical Industry Press. 2024 (专著)
2.《Storing Energy》Elsevier Inc, 2016.(Chapter 9 - Liquid Air Energy Storage)
3.《低温工艺与装置》 机械工业出版社, 2018.(第9章- 多组分气体的液化与分离)
4.《Thermal Energy Storage: Materials, Devices, Systems and Applications》 Royal Society of Chemistry (RSC), 2021. (Chapter 10 - Latent heat storage devices)
5.《热工基础》清华大学出版社,2021. (副主编)
6.张培昆等,《绿色炉窑评价-石灰煅烧窑》T/CSTE08-2021,团体标准
7.Zhang P*, Wang L. Temperature swing adsorption cycle with recovered gas injection[J]. Chemical Engineering Research and Design, 2025, 217: 121-127.
8.Yang Q, Zhang P*, Zhang T, et al. Enhancing concentrated photovoltaic power generation efficiency and stability through liquid air energy storage and cooling utilization. Solar Energy, 2024, 280: 112875.
9.Zhang P*, Wang Z, Wang L. Performance study on an energy-efficient TSA air-purification process utilizing compression heat regeneration. Separation and Purification Technology, 2024: 127854.
10.Zhang P*, Liang J, Yang Y, Wang L. A new heating system for the air prepurification of air separation units, Applied Thermal Engineering, 2023, 226: 120194.
11.Zhang P* Bu X, Yang Y, Wang L. Technical-economic evaluation of an energy-integrated temperature swing adsorption process for compressed air drying. Computers & Chemical Engineering, 2022, 157(1): 107621.
12.张培昆*,张震威,王立. 用于CO2捕集的新型石灰煅烧过程的数值分析[J]. 工程科学学报, 2021, 44(11): 1978-1987.
13.Yang Y, Wang L, Xia D, Jiang Z, Jiang B, Zhang P*. Novel lime calcination system for CO2 capture and its thermal-mass balance analysis. ACS Omega, 2020, 11.
14.Yang Y, Chen Y, Xu Z, Wang L, Zhang P*. A Three-bed six-step tsa cycle with heat carrier gas recycling and its model-based performance assessment for gas drying. Separation and Purification Technology, 2020, 237: 116335.
15.Yang Y, Zhang P*, Wang L. Parametric analysis of thermal-pulse regeneration of activated alumina in temperature swing adsorption process used for gas dehydration. Applied Thermal Engineering, 2018, 141: 762-774.
16.Zhang P, Wang L*. Determination of characteristic desorption temperature by thermal-pulse regeneration: a case study of a water-activated alumina system. International Journal of Heat and Mass Transfer, 2017, 111: 602-607.
17.Zhang P, Wang L*. Optimal shutdown policy for air separation units in integrated steel enterprises during a blast furnace blow-down. Industrial & Engineering Chemistry Research, 2017, 56 (8): 2140-2149.
18.Zhang P, Wang L*, Tong L. MILP-based optimization of oxygen distribution system in integrated steel mills. Computers & Chemical Engineering, 2016, 93: 175-184.
19.Zhang P, Wang L*. Comparative study on the performance of adsorbent bed regenerated by the clean and used purge gas heating. Industrial & Engineering Chemistry Research, 2013, 52(45): 15912-15922.
20.Zhang P, Wang L*. Numerical analysis on the performance of the three-bed temperature swing adsorption process for air prepurification. Industrial & Engineering Chemistry Research, 2012, 52(2): 885-898.
21.Zhang P*, Wang L*. Extended Langmuir equation for correlating multilayer adsorption equilibrium data. Separation and Purification Technology, 2010, 70(3): 367-371.
2.《Storing Energy》Elsevier Inc, 2016.(Chapter 9 - Liquid Air Energy Storage)
3.《低温工艺与装置》 机械工业出版社, 2018.(第9章- 多组分气体的液化与分离)
4.《Thermal Energy Storage: Materials, Devices, Systems and Applications》 Royal Society of Chemistry (RSC), 2021. (Chapter 10 - Latent heat storage devices)
5.《热工基础》清华大学出版社,2021. (副主编)
6.张培昆等,《绿色炉窑评价-石灰煅烧窑》T/CSTE08-2021,团体标准
7.Zhang P*, Wang L. Temperature swing adsorption cycle with recovered gas injection[J]. Chemical Engineering Research and Design, 2025, 217: 121-127.
8.Yang Q, Zhang P*, Zhang T, et al. Enhancing concentrated photovoltaic power generation efficiency and stability through liquid air energy storage and cooling utilization. Solar Energy, 2024, 280: 112875.
9.Zhang P*, Wang Z, Wang L. Performance study on an energy-efficient TSA air-purification process utilizing compression heat regeneration. Separation and Purification Technology, 2024: 127854.
10.Zhang P*, Liang J, Yang Y, Wang L. A new heating system for the air prepurification of air separation units, Applied Thermal Engineering, 2023, 226: 120194.
11.Zhang P* Bu X, Yang Y, Wang L. Technical-economic evaluation of an energy-integrated temperature swing adsorption process for compressed air drying. Computers & Chemical Engineering, 2022, 157(1): 107621.
12.张培昆*,张震威,王立. 用于CO2捕集的新型石灰煅烧过程的数值分析[J]. 工程科学学报, 2021, 44(11): 1978-1987.
13.Yang Y, Wang L, Xia D, Jiang Z, Jiang B, Zhang P*. Novel lime calcination system for CO2 capture and its thermal-mass balance analysis. ACS Omega, 2020, 11.
14.Yang Y, Chen Y, Xu Z, Wang L, Zhang P*. A Three-bed six-step tsa cycle with heat carrier gas recycling and its model-based performance assessment for gas drying. Separation and Purification Technology, 2020, 237: 116335.
15.Yang Y, Zhang P*, Wang L. Parametric analysis of thermal-pulse regeneration of activated alumina in temperature swing adsorption process used for gas dehydration. Applied Thermal Engineering, 2018, 141: 762-774.
16.Zhang P, Wang L*. Determination of characteristic desorption temperature by thermal-pulse regeneration: a case study of a water-activated alumina system. International Journal of Heat and Mass Transfer, 2017, 111: 602-607.
17.Zhang P, Wang L*. Optimal shutdown policy for air separation units in integrated steel enterprises during a blast furnace blow-down. Industrial & Engineering Chemistry Research, 2017, 56 (8): 2140-2149.
18.Zhang P, Wang L*, Tong L. MILP-based optimization of oxygen distribution system in integrated steel mills. Computers & Chemical Engineering, 2016, 93: 175-184.
19.Zhang P, Wang L*. Comparative study on the performance of adsorbent bed regenerated by the clean and used purge gas heating. Industrial & Engineering Chemistry Research, 2013, 52(45): 15912-15922.
20.Zhang P, Wang L*. Numerical analysis on the performance of the three-bed temperature swing adsorption process for air prepurification. Industrial & Engineering Chemistry Research, 2012, 52(2): 885-898.
21.Zhang P*, Wang L*. Extended Langmuir equation for correlating multilayer adsorption equilibrium data. Separation and Purification Technology, 2010, 70(3): 367-371.
专利
1. 一种稠油气汽多元流体发生系统及方法,CN202210436897
2. 一种转轮式烟气脱白装置及工艺,CN202110239322
3. 一种无需外部供电的压缩气体净化系统及工艺,CN202110182927
4. 一种空气源热泵无霜化装置及运行方法,CN202010957864
5. 一种碳捕集石灰煅烧系统及应用方法,CN202010732952.8
6. 针对竖窑高温均匀煅烧的内外环交变式加热装置及方法,CN201911193317.0
7. 一种石灰生产系统及方法,CN202010029261.1
8. 用于空分装置的节能加热装置及方法,CN202010188639.2
9. 一种原料气净化系统及工艺,CN201910517097.6
10. 一种产物气循环煅烧石灰石与二氧化碳资源化回收工艺,CN201910753081.5
11. 一种降低空分装置上塔压力和系统能耗的方法,CN201910347093.8
12. 一种多床变温吸附气体净化系统及工艺,CN201910302486.7
13. 一种辅床回热变温吸附系统及工艺,CN201910234484.9
14. 冶金空分供氧管网系统及其运行方法,CN201811330117.0
15. 一种降低空分装置气体放散和管网压力的方法,CN201811095677.2
16. 一种用于低品位热源发电的复合热力循环系统,CN201810745463.9
17. 复合动力循环系统及其运行方法及发电系统,CN201611168756.2
18. 一种处理家用燃煤炉烟气的蜂窝净化器及其使用方法,CN201510864159.2
2. 一种转轮式烟气脱白装置及工艺,CN202110239322
3. 一种无需外部供电的压缩气体净化系统及工艺,CN202110182927
4. 一种空气源热泵无霜化装置及运行方法,CN202010957864
5. 一种碳捕集石灰煅烧系统及应用方法,CN202010732952.8
6. 针对竖窑高温均匀煅烧的内外环交变式加热装置及方法,CN201911193317.0
7. 一种石灰生产系统及方法,CN202010029261.1
8. 用于空分装置的节能加热装置及方法,CN202010188639.2
9. 一种原料气净化系统及工艺,CN201910517097.6
10. 一种产物气循环煅烧石灰石与二氧化碳资源化回收工艺,CN201910753081.5
11. 一种降低空分装置上塔压力和系统能耗的方法,CN201910347093.8
12. 一种多床变温吸附气体净化系统及工艺,CN201910302486.7
13. 一种辅床回热变温吸附系统及工艺,CN201910234484.9
14. 冶金空分供氧管网系统及其运行方法,CN201811330117.0
15. 一种降低空分装置气体放散和管网压力的方法,CN201811095677.2
16. 一种用于低品位热源发电的复合热力循环系统,CN201810745463.9
17. 复合动力循环系统及其运行方法及发电系统,CN201611168756.2
18. 一种处理家用燃煤炉烟气的蜂窝净化器及其使用方法,CN201510864159.2
获奖
1.北京科技大学优秀博士后
2.北京科技大学优秀共产党员
3.北京科技大学优秀本科生班导师
4.北京科技大学“十佳导师”提名奖
5.教育部高等学校科学研究科技进步奖二等奖
6.第22届“我爱我师-我心目中最优秀的老师”
7.iCAN创新创业大赛国赛,国赛一等奖,2021
8.挑战杯国赛—黑科技专项赛,国赛二等奖,2021
9.北京大学生节能节水低碳减排科技竞赛,特等奖,2021
10.中国制冷空调行业大学生科技竞赛,国赛二等奖,2024
11.全国大学生节能减排社会实践与科技竞赛,国赛一等奖,2020
12.全国大学生节能减排社会实践与科技竞赛,国赛一等奖,2023
2.北京科技大学优秀共产党员
3.北京科技大学优秀本科生班导师
4.北京科技大学“十佳导师”提名奖
5.教育部高等学校科学研究科技进步奖二等奖
6.第22届“我爱我师-我心目中最优秀的老师”
7.iCAN创新创业大赛国赛,国赛一等奖,2021
8.挑战杯国赛—黑科技专项赛,国赛二等奖,2021
9.北京大学生节能节水低碳减排科技竞赛,特等奖,2021
10.中国制冷空调行业大学生科技竞赛,国赛二等奖,2024
11.全国大学生节能减排社会实践与科技竞赛,国赛一等奖,2020
12.全国大学生节能减排社会实践与科技竞赛,国赛一等奖,2023
代表性科研项目
1.国家重点研发计划子课题—热载体循环高效煅烧窑及产物气资源化回收
2.国家自然科学基金青年项目—新型三床变温吸附空气净化流程性能研究
3.国家重点研发计划国合项目—农特产品低碳保质干燥技术研发
4.国家外国专家项目—果蔬冷藏保鲜热质传输耦合调控机制研究
5.教育部博士点基金—变温吸附空气净化系统余热回收关键技术
6.中建投制冷—高效蒸发式冷凝换热器技术及样机开发
7.北京市科委—新型天然气化学链燃烧技术及示范
8.首钢京唐—优化空分装置运行参数实现节能降耗
9.宝钢—制氧大系统控制策略与经济运行研究
10.宝钢—TSA分子筛安全与经济运行研究
2.国家自然科学基金青年项目—新型三床变温吸附空气净化流程性能研究
3.国家重点研发计划国合项目—农特产品低碳保质干燥技术研发
4.国家外国专家项目—果蔬冷藏保鲜热质传输耦合调控机制研究
5.教育部博士点基金—变温吸附空气净化系统余热回收关键技术
6.中建投制冷—高效蒸发式冷凝换热器技术及样机开发
7.北京市科委—新型天然气化学链燃烧技术及示范
8.首钢京唐—优化空分装置运行参数实现节能降耗
9.宝钢—制氧大系统控制策略与经济运行研究
10.宝钢—TSA分子筛安全与经济运行研究