富集CO₂的oxy-fuel燃烧和oxy-steam燃烧
先进的MILD燃烧
火焰传播速度以及着火、熄火机理
湍流燃烧过程数值模拟
小型高效低污染燃烧装置的研发

1. O₂/CO₂循环燃烧及污染物的协同脱除( 国家973项目),2006-2011

2. 煤燃烧的CO₂减排技术及污染物的协同脱除(国家863计划),2006-2011

3. 新型O2/CO₂循环燃烧设备研发与系统优化(863能源技术领域),2009-2011

4. 实现氧燃烧富集CO₂的新理念和新方法(国基金重点项目),2010-2013

5. 燃烧器系统模拟仿真系统研究(民用横向),2011-2012

6. 35MW富氧燃烧技术集成与示范(国家支撑计划),2011-2014

7. 煤粉在oxy-steam燃烧过程中着火机理的实验与理论研究(国家自然科学基金），2012-2015

8. oxy-fuel燃烧过程CO₂与水蒸气对火焰传播速度影响的动力学分析（煤燃烧国家重点实验室开放基金），2012-2013

9. 柴油-生物柴油混合燃料的层流火焰传播速度测量与化学动力学分析（天津大学内燃机国家重点实验室开放基金），2013-2014

与行业内知名企业合作横向课题多项。

课题组现有讲师1人，博士6人，硕士生8人。

论文发表：

1. L. Zhang, D. Wu, L. Cai, C. Zou, J. Qiu, C. Zheng, The chemical and physical effects of CO2 on the homogeneous and heterogeneous ignition of the coal particle in O2/CO2 atmospheres, 36th International Symposium on Combustion, oral presentation

2. Y. He, C. Zou, Y. Song, Y. Liu, C. Zheng, Numerical study of characteristics on NO formation in methane MILD combustion with simultaneously hot and diluted oxidant and fuel (HDO/HDF), Energy, 112 (2016) 1024-1035.

3. Y. He, C. Zou, Y. Song, W. Chen, H. Jia, C. Zheng, Experimental and Numerical Study of the Effect of High Steam Concentration on the Oxidation of Methane and Ammonia during Oxy-Steam Combustion, Energy Fuels, 30 (2016) 6799-6807.

4. L. Cai, C. Zou, Y. Guan, H. Jia, L. Zhang, C. Zheng, Effect of steam on ignition of pulverized coal particles in oxy-fuel combustion in a drop tube furnace, Fuel, 182 (2016) 958-966.

5. C. Zou, Y. He, Y. Song, Q. Han, Y. Liu, F. Guo, C. Zheng, The characteristics and mechanism of the NO formation during oxy-steam combustion, Fuel, 158 (2015) 874-883.

6. C. Zou, L. Cai, D. Wu, Y. Liu, S. Liu, C. Zheng, Ignition behaviors of pulverized coal particles in O2/N2 and O2/H2O mixtures in a drop tube furnace using flame monitoring techniques, Proc. Combust. Inst, 35 (2015) 3629-3636.

7. Y. Song, C. Zou, Y. He, C. Zheng, The chemical mechanism of the effect of CO2 on the temperature in methane oxy-fuel combustion, Int. J. Heat Mass Transfer, 86 (2015) 622-628.

8. B. Jin, H. Zhao, C. Zou, C. Zheng, Comprehensive investigation of process characteristics for oxy-steam combustion power plants, Energy Convers. Manage., 99 (2015) 92-101.

9. S. Cao, C. Zou, Q. Han, Y. Liu, D. Wu, C. Zheng, Numerical and Experimental Studies of NO Formation Mechanisms under Methane Moderate or Intense Low-Oxygen Dilution (MILD) Combustion without Heated Air, Energy Fuels, 29 (2015) 1987-1996.

10. L. Cai, C. Zou, Y. Liu, K. Zhou, Q. Han, C. Zheng, Numerical and experimental studies on the ignition of pulverized coal in O2/H2O atmospheres, Fuel, 139 (2015) 198-205.

11. C. Zou, L. Zhang, S. Cao, C. Zheng, A study of combustion characteristics of pulverized coal in O2/H2O atmosphere, Fuel, 115 (2014) 312-320.

12. C. Zou, Y. Song, G. Li, S. Cao, Y. He, C. Zheng, The chemical mechanism of steam’s effect on the temperature in methane oxy-steam combustion, Int. J. Heat Mass Transfer, 75 (2014) 12-18.

13. C. Zou, S. Cao, Y. Song, Y. He, F. Guo, C. Zheng, Characteristics and mechanistic analysis of CO formation in MILD regime with simultaneously diluted and preheated oxidant and fuel, Fuel, 130 (2014) 10-18.

14. C. Zou, L. Cai, C. Zheng, Numerical research on the homogeneous/heterogeneous ignition process of pulverized coal in oxy-fuel combustion, Int. J. Heat Mass Transfer, 73 (2014) 207-216.

15. Z.-W. Tian, C. Zou, H.-J. Liu, Z.-L. Guo, Z.-H. Liu, C.-G. Zheng, Lattice Boltzmann scheme for simulating thermal micro-flow, Physica A: Statistical Mechanics and its Applications, 385 (2007) 59-68.

16. Z.-W. TIAN, C. ZOU, Z.-H. LIU, Z.-L. GUO, H.-J. LIU, C.-G. ZHENG, LATTICE BOLTZMANN METHOD IN SIMULATION OF THERMAL MICRO-FLOW WITH TEMPERATURE JUMP, International Journal of Modern Physics C, 17 (2006) 603-614.

17. Z.-W. TIAN, C. ZOU, H.J. LIU, Z.H. LIU, Z.L. GUO, C.G. ZHENG, THERMAL LATTICE BOLTZMANN MODEL WITH VISCOUS HEAT DISSIPATION IN THE INCOMPRESSIBLE LIMIT, International Journal of Modern Physics C, 17 (2006) 1131-1139.

18. H.J. LIU, C. ZOU, Z.W. TIAN, C.G. ZHENG, SIMULATION OF LAMINAR CONFINED IMPINGING STREAMS USING LATTICE BOLTZMANN METHOD, International Journal of Modern Physics C, 17 (2006) 935-944.

19. H. Liu, C. Zou, B. Shi, Z. Tian, L. Zhang, C. Zheng, Thermal lattice-BGK model based on large-eddy simulation of turbulent natural convection due to internal heat generation, Int. J. Heat Mass Transfer, 49 (2006) 4672-4680.

20. C. Zou, C. Zheng, L. Zhou, A joint SSPDF–CMC method for simulating turbulent methane–air jet combustion, Communications in Nonlinear Science and Numerical Simulation, 10 (2005) 941-950. 等

、

专利：

1. ZL 201210551935.X 一种过热蒸汽煤粉燃烧装置2015.05

2. ZL 201420306220.2一种用于气液热交换的冷凝换热器2014.10

3. ZL 201220642529.X一种用于燃气灶具的燃烧器2013.05

4. ZL 2010102770662.2一种上进风燃气灶具2013.05

5. ZL 201320418065.9 一种用于燃气灶具的内喷式燃烧器 2013 .03

6. ZL 201220469615.5 一种花瓣式燃烧器 2012.09

7. ZL 201020514836.0一种上进风燃气灶具 2011.3

8. ZL 200920268085.6一种用于燃气灶具的燃烧器 2010 .09

9. ZL 201010204882.5一种煤粉锅炉烟气再循环燃烧方法 2010.09

10. ZL 201020201775.2 一种用于冷凝式燃气热水器的冷凝换热器 2010.01

11. ZL 200910246339.9一种用于燃气灶具的燃烧器 2009.11

1.CO₂对富氧燃烧不同着火机理的影响。

煤粉均相着火机理	煤粉非均相着火机理

2.C1-C3的O₂/CO₂气氛下的火焰传播速度，Oxy-fuel燃烧中的反应动力学机理。

非线性外推法计算火焰传播速度示意图	初温293 K实验测量以及模拟计算甲烷-氧气/二氧化碳(35:65)的火焰传播速度随着当量比的变化趋势

3.Oxy-steam燃烧中氮的反应动力学机理。

Oxy-steam气氛下NH3生成NO的反应路径	常规空气气氛与Oxy-steam气氛下各路径NO转化率对比