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超临界二氧化碳湍流传热及高效紧凑式换热器开发
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二氧化碳捕集分离技术及系统开发
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基于燃煤锅炉动态仿真的深度调峰技术研究
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燃煤与可再生能源互补发电技术及系统模型开发
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燃煤锅炉烟气余热深度利用及受热面积灰腐蚀防控
科学研究 - 王 利民
| 奖项名称 | 获奖年份 | 奖项类型 | 奖项等级 | 申报部门 |
|---|---|---|---|---|
| 湖南省科学技术进步奖 | 2021 | 省部级科技成果奖 | 三等奖 | 湖南省电力科学研究院 西安交通大学 |
| 2018年度电力建设科学技术进步奖 | 2018 | 其他 | 二等奖 | 湖南省电力科学研究院 西安交通大学 |
| 专利名称 | 申请号 | 专利类型 | 申请日期 |
|---|---|---|---|
| 一种回转梯级蓄热式空气预热器 | 201910901450.0 | 发明 | 2019.09.23 |
| 一种用于减薄再生式冷凝换热器液膜厚度的传热元件 | 201910824751.8 | 发明 | 2019.09.02 |
| 协同脱除SCR后烟气中三氧化硫氨气和飞灰的系统及方法 | 201910189545.4 | 发明 | 2019.03.13 |
| 用于减轻硫酸氢铵沉积的分级回转式空气预热器的系统及方法 | 201711177142.5 | 发明 | 2017.11.22 |
| 一种集成第一类吸收式热泵的预干燥褐煤发电系统及方法 | CN201510574347.1 | 发明 | 2017.01.01 |
| 一种集成吸收式热泵的分级预干燥褐煤发电系统及方法 | CN201510575838.8 | 发明 | 2016.01.01 |
| 项目编号 | 项目名称 | 项目来源 | 起讫时间 | 承担角色 | 项目类别 |
|---|---|---|---|---|---|
| 20230103 | 换热器综合实验系统设计及整体型螺旋翅片管换热器传热、积灰、磨损和腐蚀特性实验研究 | 河南焓之悦新材料有限公司 | 2023-01~2025-12 | 负责人 | 横向项目 |
| 2023-JC-QN-0482 | 超临界二氧化碳布雷顿循环再生式回热器内非稳态流动传热机理研究 | 陕西省科学技术厅 | 2023-01~2025-12 | 负责人 | 纵向项目 |
| 20230885 | 基于有限差分法的回转式空气预热器积灰分层监测系统开发 | 西安热工研究院有限公司 | 2023-01~2024-12 | 负责人 | 横向项目 |
| 202208165 | 回转式二氧化碳吸脱附捕集器的数值模拟研究 | 国网湖南电科院 | 2022-01~2023-12 | 负责人 | 横向项目 |
| 20220264 | 电站锅炉动态模型建立与多系统耦合特性研究 | 内蒙古电力科学研究院 | 2021-08~2023-08 | 负责人 | 横向项目 |
| 2019M653625 | 燃煤锅炉低温烟道促团化合物对颗粒团聚促进机理的研究 | 中国博士后科学基金面上项目 | 2019-6~ | 负责人 | 纵向项目 |
| 51806171 | 板式通道内含亚微米颗粒低温湿烟气对流冷凝传热机理研究 | 国家自然科学基金项目 | 2019-1~ | 负责人 | 纵向项目 |
| 20180561 | 新型空预器性能关键技术研究及计算软件开发 | 东方电气集团东方锅炉股份有限公司 | 2018-1~ | 负责人 | 横向项目 |
| Z201806061 | 燃煤锅炉低温受热面粘性积灰多因素耦合作用机理研究 | 西安交通大学基本科研业务自由探索项目 | 2018-1~ | 负责人 | 纵向项目 |
| 无 | 低温湿烟气对流冷凝传热机理研究 | 西安交通大学“新教师科研支撑计划” | 2017-1~ | 负责人 | 纵向项目 |
2023年:
1. 王超,王研凯,陈相如,孙兴业,刘铠瑞,王利民,车得福,660 MW超临界直流锅炉动态特性仿真研究,热力发电,2023
2. 王超,张宝瑞,刘铠瑞,樊海龙,刘斌,全向,王利民,车得福,660 MW超临界直流锅炉水冷壁动态特性仿真研究,动力工程学报,2023
3. 王超,王研凯,孙浩家,高荣泽,全向,王利民,车得福,新型光煤互补发电系统热力性能及技术经济性研究,动力工程学报,2023
4. 郭亚龙, 刘铠瑞, 王超, 王利民*, 樊海龙, 车得福, S-CO2发电系统负荷跟随控制策略及动态特性研究, 中国电机工程学报, (2023) 1-13.
5. 刘铠瑞, 王利民*, 郭亚龙, 王超, 唐春丽, 车得福, 燃煤电站锅炉动态建模与仿真研究进展, 工程热物理学报, 44 (2023) 1737-1752.
6. K. Liu, C. Wang, L. Wang*, B. Liu, M. Ye, Y. Guo, D. Che, Dynamic performance analysis and control strategy optimization for supercritical coal-fired boiler: A dynamic simulation, Energy, 282 (2023) 128712.
7.L. Wang, Y. Guo, K. Liu, C. Wang, D. Che, X. Yang, B. Sundén, Numerical study on dynamic performance of low temperature recuperator in a S-CO2 Brayton cycle, Numerical Heat Transfer, Part A: Applications, (2023) 1-23.
8.L. Wang, Y. Shao, X. Chen, C.a. Wang, X. Yang, M. Hossein Doranehgard, D. Che, Thermofluidic characteristics for a novel complementary adsorption-absorption post-combustion partial CO2 capture system, Applied Thermal Engineering, (2023) 120301.
9.L. Wang, Y. Shao, C. Wang, C. Tang, J. Yan, BengtSundén, D. Che, Design on CO2 capture based on adsorption-absorption integration and energy storage for energy supply buildings with fixed carbon emission, International Journal of Green Energy, (2023).
10.L. Wang, C. Wang, W. Bai, L. Jin, X. Yang, D. Che, Split-flow layouts of supercritical CO2 Brayton cycle for coal-fired power plant considering the flue gas residual heat utilization, Asia-Pacific Journal of Chemical Engineering, (2023) e2874.
2022年:
1. L. Wang, Y. Shao, C. Tang, Y. He, W. Jin ,D. Che, Numerical investigation on heat and mass transfer of slit finned tube heat exchanger with humid flue gas, Asia-Pacific Journal of Chemical Engineering, 2022.
2. C. Tang, T. Zhu, L. Wang*, X. Gao, X. Meng, D. Che,NOx Formation Characteristics for Cocombustion of Rice Husk and Coal at High Temperature,Journal of Energy Engineering,2022.
3. C. Tang, X. Gao, Y. Shao, L. Wang*, K. Liu, R. Gao, Investigation on the rotary regenerative adsorption wheel in a new strategy for CO2 enrichment in greenhouse, Applied Thermal Engineering,2022.
4. T. Zhu, C. Tang, X. Ning, L. Wang, L. Deng, D. Che, Experimental study on NO emission characteristics of Zhundong coal in cyclone furnace, Fuel, 311 (2022) 122536.
5. L. Wang, C. Tang, T. Zhu, F. Fang, X. Ning, D. Che, Experimental Investigation on Combustion and NOx Formation Characteristics of Low-Ash-Melting-Point Coal in Cyclone Furnace, Acs Omega, (2022).
2021年:
1. C. Tang, W. Jin, L. Wang*, Q. Zha, S.R. Jamil, D. Che, Numerical simulation of a novel regenerative heat exchanger with combined sensible–latent heat storage matrix, Numerical Heat Transfer, Part A: Applications, (2021) 1-18.
2. L. Wang, C. Wang, Y. Guo, Y. Wu, W. Bai, D. Che, Novel rotary regenerative heat exchanger using cascaded phase change material capsules, Applied Thermal Engineering, (2021) 116619.
3. S.R. Jamil, L. Wang, H.S. Arslan, D. Che, Study on the performance assessment of a novel hybrid heat pump system modified with dedicated mechanical sub-cooler for domestic heating applications, Journal of Thermal Analysis and Calorimetry, (2021) 1-20.
4. S. R. Jamil, L. Wang, C. Tang, H. M. S. Khan, D. Che, The role and impact of costing method in the decision-making of energy project: A comparative assessment between levelized cost of energy and benefit-to-cost ratio analysis, International Journal of Energy Research, 2021.
5. Y. Bu, L. Wang, H. Zhu, H. Pu, Y. Wei, D. Che, Numerical Analysis of the Coupling between Heat Transfer and Deformation in Rotary Air Preheater, International Journal of Heat and Mass Transfer, 2021.
2020年:
1. S.R. Jamil, L. Wang, D. Che, Techno-economic analysis of a novel hybrid heat pump system to recover waste heat and condensate from the low-temperature boiler exhaust gas, International Journal of Energy Research, 44 (2020) 3821-3838.
2. L. Wang, D. Li, H. Zhu, G. Chen, H. Luo, D. Che, Investigation on regenerative heat exchanger with novel low-leakage system for flue gas denitration in steel industry, Applied Thermal Engineering, 178 (2020) 115483.
3. H. Zhu, D. Li, H. Pu, L. Wang, Y. He, Y. Bu, D. Che, Experimental and Numerical Investigations on the Local Direct Leakage Process of Rotary Regenerative Air Preheater, Applied Sciences, 10 (2020) 1523.
4. T. Zhu, Y. Hu, C. Tang, L. Wang, X. Liu, L. Deng, D. Che, Experimental study on NOx formation and burnout characteristics of pulverized coal in oxygen enriched and deep-staging combustion, Fuel, 272 (2020) 117639.
5. C. Tang, T. Zhu, Y. Hu, L. Wang, D. Che, Y. Liu, Numerical Investigation of the Effects of Swirl-Vane Angle and Particle Size on Combustion and Flow Characteristics in a Vertical Cyclone Barrel, Journal of Energy Engineering, 2020
2019年:
1. Wang L, Bu Y, Tang C, Lv C, Chen X and Che D. Study on the formation process of low‐temperature ash deposition induced by ammonium bisulfate in pulverized coal‐fired boiler.2019, Asia-Pacific Journal of Chemical Engineering.
2. Wang L, He Y, Che D, et al. A novel design of rotary regenerative condensing heat exchanger for the dehydration from high humidity flue gas. International Journal of Heat and Mass Transfer, 2019, 131: 517-526.
3. Wang L, Bu Y, Che D, et al. Single and multi-objective optimizations of rotary regenerative air preheater for coal-fired power plant considering the ammonium bisulfate deposition. International Journal of Thermal Sciences, 2019, 136: 52-59.
4. Wang L, Bu Y, Che D, et al. Influence of operating conditions on ammonium bisulfate deposition in the rotary air preheater of coal-fired power plants. Thermal Science, 2019 23(2B): 1253-1264.
5. Tang C, Wang L, Zhu X, Wang C, Liu Y, Che D. Investigation on a new lignite predrying power generation system combined with a front air heater, DRYING TECHNOLOGY, 2019
6. Bu Y, Wang L, Deng L, Che D, Technical and economical analysis of a novel rotary air preheater system, APPLIED THERMAL ENGINEERING, 2019, 154
7. Zhu X, Wang C, Wang L, Che D, Thermodynamic and economic analysis on a two-stage predrying lignite-fueled power plant, DRYING TECHNOLOGY, 2019, 37(1):26-37
8. Tang C, Tao Z, Wang L, Deng L, Che D, Liu Y. Effects of ash parameters and fluxing agent on slag layer behavior in cyclone barrel, Fuel, 2019, 253
2018年:
1. Bu Y, Wang L, Chen X, et al. Numerical analysis of ABS deposition and corrosion on a rotary air preheater[J]. Applied Thermal Engineering, 2018, 131: 669-677.
2013-2017年:
1. Wang L, Deng L, Ji C, et al. Multi-objective optimization of geometrical parameters of corrugated-undulated heat transfer surfaces[J]. Applied Energy, 2016, 174: 25- 36.
2. Wang L, Deng L, Zhao Z, et al. Numerical investigation of the thermohydraulic performance of double-wave cross-corrugated passages[J]. Numerical Heat Transfer, Part A: Applications, 2015, 67 (10): 1029-1052.
3. Wang L, Deng L, Tang C, et al. Thermal deformation prediction based on the temperature distribution of the rotor in rotary air-preheater[J]. Applied Thermal Engineering, 2015, 90: 478-488.
2020年:
1. 李德超, 朱骅, 王利民, et al. 回转式空气预热器直接漏风的实验和数值研究[J]. 工程热物理学报, 2020, 41 (6): 7.
2019年:
1. 何洋, 王利民, 唐春丽, 车得福. H 型翅片管湿烟气对流冷凝传热的数值模拟研究. 化工学报. 2019;70(12).
2. 陈珣, 王利民, 杨益, 刘帅. 流动布置方式对三分仓回转式空气预热器热力性能和硫酸氢铵沉积规律的影响. 热能动力工程. 2019(8).
2015年:
1. 王利民, 樊强, 邓磊, 白文刚, 张磊, 车得福. DN 板通道传热阻力特性的实验和数值研究. 工程热物理学报. 2015(10):2250-4.
2021年:
1. L. Wang, Y. Guo, W. Jin, R. Lin, C. Tang, X. Wang, D. Che, Investigation on temperature swing adsorption process for separating CO2 from CO2/N2 mixture in a novel rotary adsorption wheel, The 8th Asian Symposium on Computational Heat Transfer and Fluid Flow-2021 (ASCHT2021), Qingdao, China, 2021.
2. R. Gao, H. Sun, L. Wang, Y. Bu, C. Wang, D. Che, Experimental investigation of ammonia and sulfur deposition characteristics in rotary air preheater, ASME 2021 Power Conference, POWER 2021, July 20, 2021 - July 22, 2021, Virtual, Online, American Society of Mechanical Engineers (ASME).
2019年:
1. Wang L, Li D, Yan Y, Tang C, Deng L, Che D. A new scheme for synergetic removal of NH3 and SO3 and particulate matter in the flue gas of coal-fired boiler, Proceedings of the ASME 2018 Power and Energy Conference, 2018, June 24-28, 2018, Lake Buena Vista, FL, USA
2. Tang C, Hu Y, Zhu T, Wang L, Liu Y, Che D, Effect of refractory lining thickness on slag layer behavior in cyclone barrel, 9th International symposium on coal combustion (ISCC-9), Qingdao, China, July 21-24, 2019
2018年:
1. Wang L, Bu Y, Chen X, Wei X, Li D, Che D. Multi-Objective Design Optimization of Rotating Regenerative Air Preheater using Genetic Algorithm, Proceedings of the ASME 2018 Power and Energy Conference, 2018, June 24-28, 2018, Lake Buena Vista, FL, USA
2. Bu Y, Wang L, Wei X, Deng L, Che D, A novel design for reduction of ammonium bisulfate deposition in the rotary air preheater, Proceedings of the ASME 2018 Power and Energy Conference, 2018, June 24-28, 2018, Lake Buena Vista, FL, USA
2017年:
1. Wang L, Chen M, Shi S, et al. Multi-objective Optimization of a Printed Circuit Heat Exchanger Design[C], Proceedings of the 17th International Topical Meeting on Nuclear Reactor Thermal Hydraulics, NURETH-17, Xi'an 2017.
2. Shi S, Wang L, Yin J, et al. Measurement of liquid-phase velocity field around Taylor bubbles in slug flows[C]. Conference: 2017 Japan-US Seminar on Two-Phase Flow Dynamics, 2017.
3. Wang L, Ji C, Chen X, et al. Multi-objective optimization of geometrical parameters of corrugated-undulated heat transfer surfaces using CFD, artificial neural networks and genetic algorithms[C]: American Society of Mechanical Engineers, 2016.
4. Liu Q, Shi S, Wang L, Sun X, Kelly J, Thermal analysis of a test facility for post-CHF heat transfer experiments, 2017 Japan-U.S. Seminar on Two-Phase Flow Dynamics, 2017.6.22-2017.6.24
5. Chen X, Wang L, Duan X, et al. Influence of rotational speed on thermal performance of tri-sector rotary regenerative air preheater, ASME Power Conference (POWER2016), Charlotte, NC, 2016.6.26-2016.6.30
(创新港)
