2019年发表期刊论文

[1]     Wang, C.a.; Sun, R.; Hu, G.; Zhao, L.; Wang, C.; Han, T.; Zhu, C.; Liu, Y.; Che, D.F. Effects of oxy-fuel combustion on morphology and mineral composition of ash deposit during combustion of Zhundong high-alkali coal. Journal of the Energy Institute 2019, accepted. (SCI检索)

[2]     Wang, C.a.; Zhu, X.; Yuan, M.; Che, D.F. Thermodynamic analysis and case study of a new lignite-fired power plant using solar energy as drying heat source. Journal of Energy Engineering 2019, accepted. (SCI检索)

[3]     Wang, C.a.; Zhao, L.; Sun, R.; Hu, Y.; Tang, G.; Chen, W.; Du, Y.; Che, D.F. Effects of silicon-aluminum additives on ash mineralogy, morphology, and transformation of sodium, calcium, and iron during oxy-fuel combustion of high-alkali coals. International Journal of Greenhouse Gas Control 2019, accepted. (SCI检索)

[4]     Wang, C.a.; Zhao, L.; Yuan, M.; Du, Y.; Zhu, C.; Liu, Y.; Che, D.F. Effects of minerals containing sodium, calcium, and iron on oxy-fuel combustion reactivity and kinetics of Zhundong coal via synthetic coal. Journal of Thermal Analysis and Calorimetry 2019 online. (SCI检索)

[5]     Wang, C.a.; Sun, R.; Liu, C.; Han, T.; Zhu, C.; Liu, Y.; Che, D.F. Experimental study on morphology and chemical composition of ash deposition during oxy-fuel combustion of high-alkali coals. Energy & Fuels 2019, 33(4):3403-3420. (SCI检索)

[6]     Wang, C.a.; Feng, Q.; Lv, Q.; Wang, C.; Zhao, L.; Du, Y.; Wang, P.; Zhang, J.; Che, D.F. Numerical investigation on co-firing characteristics of semi-coke and lean coal in a 600 MW supercritical wall-fired boiler. Applied Sciences-Basel 2019, 9(5):889. (SCI检索)

[7]     Wang, C.a.; Yuan, M.; Li, H.; Zhao, L.; Han, T.; Zhu, C.; Che, D.F. Ash fusion behaviors and physico-chemical characteristics of high-alkali coals under oxy-fuel condition. International Journal of Coal Preparation and Utilization 2019, online. (SCI检索)

[8]     Wang, C.a.; Wang, P.Q.; Du, Y.B.; Che D.F., Experimental study on effects of combustion atmosphere and coal char on NO2 reduction under oxy-fuel condition. Journal of the Energy Institute 2019, online. (SCI检索)

[9]     Han, T.; Wang, C.a.*; Sun, R.J.; Zhu, C.Z.; Liu, Y.H.; Che, D.F. Experimental study on ash deposition of Zhundong coal in oxy-fuel combustion. Journal of the Energy Institute 2019, online. (SCI检索)

[10]     Zhang, J.; Wang, C.a.; Jia, X.; Wang, C.; Wang, P.; Che, D.F. Experimental study on combustion and NO formation characteristics of semi-coke. Fuel 2019, accepted. (SCI检索)

[11]     Du, Y.; Wang, C.a.; Xin, H.; Che, D.F. Mathews, J.P. Atomistic simulation of coal char oxy-fuel combustion: quantifying the influences of CO2 to char reactivity. Energy & Fuels 2019 Accepted. (SCI检索)

[12]    Zhang, Y.; Wang, C.a.; Liu, X.; Che, D.F.  Numerical study of the self-excited thermoacoustic vibrations occurring in combustion system. Applied Thermal Engineering 2019. Accepted.(SCI检索)

[13]    Lv, Q; Wang, C.a.; Cai, M.; Che, D.F. Effects of cerium modification on elemental mercury removal over semi-coke. Journal of the Energy Institute 2019. Accepted.(SCI检索)

[14]    Liu, X.; Wang, C.a.; Zhu, T.; Lv, Q.; Li, Y.; Che, D.F. Simultaneous removal of NOx and SO2 from coal-fired flue gas based on the catalytic decomposition of H2O2 over Fe2(MoO4)3. Chemical Engineering Journal 2019, 371: 486-499.(SCI检索)

[15]   Wang, P.; Wang, C.a.; Du, Y.; Feng, Q.; Wang, Z.; Yao, W.; Liu, J.; Zhang, J.; Che, D.F. Experiments and simulation on co-combustion of semi-coke and coal in a full-scale tangentially fired utility boiler. Energy & Fuels 2019. 33(4): 3012-3027.(SCI检索)

[16]   Zhang, J.; Jia, X.; Wang, C.a..; Zhao, N.; Wang, P.; Che, D.F. Experimental investigation on combustion and NO generation characteristics of semi-coke and bituminous coal blends. Fuel 2019, 247: 87-96.(SCI检索)

[17]   Du, Y.; Wang, C.a.; Xin, H.; Che, D.F.; Mathews, J. P. Competitive or additive behavior for H2O and CO2 gasification of coal char? Exploration via simplistic atomistic simulation. Carbon 2019, 141: 226-237.(SCI检索)

[18]    Zhu, X.; Wang, C.a.; Wang, L.M.; Che, D.F. Thermodynamic and economic analysis on a two-stage predrying lignite-fueled power plant. Drying Technology 2019. 37(1): 26-37.(SCI检索)

[19]    Tang, C.; Wang, L.; Zhu, X.; Wang, C.a.; Liu, Y.; Che, D.F. Investigation on a new lignite predrying power generation system combined with a front air heater. Drying Technology 2019. accepted.(SCI检索)

[20]    王长安; 唐冠韬; 李昊; 车得福*, CFB锅炉急冷底渣作为水泥混合材性能的实验研究. 化工进展 2019. 已接收，EI收录

2018年发表期刊论文

[1]     Wang, C.a.; Zhang, Y.; Wang, P.; Zhang, J.; Du, Y.; Che, D., Effects of silicoaluminate oxide and coal blending on combustion behaviors and kinetics of Zhundong coal under oxy-fuel condition. Journal of Thermal Analysis and Calorimetry 2018, 134(3): 1975-1986. (SCI检索)

[2]     Wang, C.a.; Wang, P.Q.; Zhao, L.; Du, Y.B.; Che, D.F., Experimental study on NOx reduction in oxy-fuel combustion using synthetic coals with pyridinic or pyrrolic nitrogen. Applied Sciences-Basel 2018, 8 (12), 2499. (SCI检索)

[3]     Wang, C.a.; Zhu, X.; Liu, X.; Lv, Q.; Zhao, L.; Che, D.F., Correlations of chemical properties of high-alkali solid fuels: A comparative study between Zhundong coal and biomass. Fuel 2018, 211, 629-637. (SCI检索)

[4]     Wang, C.a.; Zhao, L.; Han, T.; Chen, W.F.; Yan, Y.; Jin, X.; Che, D.F., Release and transformation behaviors of sodium, calcium, and iron during oxy-fuel combustion of Zhundong coals. Energy & Fuels 2018, 32(2), 1242-1254. (SCI检索)

[5]     Wang, C.a.; Li, G.Y.; Du, Y.B.; Yan, Y.; Li, H.; Che, D.F., Ash deposition and sodium migration behaviors during combustion of Zhundong coals in a drop tube furnace. Journal of the Energy Institute 2018, 91(2), 251-261. (SCI检索)

[6]     Lv, Q.; Wang, C.a.; Liu, X.; Du, Y.B.; Li, D.B.; Che, D.F. Combustion and heat transfer characteristics of co-firing biomass with coal under oxy-fuel condition. International Journal of Energy Research 2018, 42(13):4170-4183. (SCI检索)

[7]     Lv, Q.; Cai, M.; Wang, C.a.; Zhang, Z.H.; Che, D.F. Investigation on Hg0 removal and anti-deactivation performance of modified SCR catalysts. Asia-Pacific Journal of Chemical Engineering 2018, 13(4): UNSP e2208. (SCI检索)

[8]     Han, Q.; Wang, C.a.; Zhu, C.Z.; Che, D.F. Modeling and optimizing waste heat recovery power generation in cement plant by combining pinch and exergy analysis method. Applied Thermal Engineering 2018, 140: 334-340. (SCI检索)

[9]     Du, Y.B.; Wang, C.a.; Wang, P.Q.; Meng, Y.; Wang, Z.C.; Yao, W.; Che, D. CFD investigation on utilization of semi-coke by co-firing with bituminous coal in a 300 MW tangentially fired boiler. Journal of Power and Energy 2018, 233(2): 221-231. (SCI检索)

[10]   Zha, Q.L.; Zhao, J.; Wang, C.a.; Che, D.F. Rapid pyrolysis and CO2 gasification of anthracite at high temperature. Journal of the Energy Institute 2018. Accepted (SCI检索)

[11]   Liu, X.; Wang, C.a.; Lv, Q.; Zhu, T.; Li, D.B.; Du, Y.B.; Che, D.F., Effects of O2 feeding strategy and over-fire air configuration on oxy-Fuel combustion characteristics in an opposed wall-fired utility boiler. Energy & Fuels 2018, 32(2), 2479-2489.  (SCI检索)

[12]   陶子宸; 王长安*; 王鹏乾; 袁茂博; 车得福, 低挥发分半焦富氧燃烧扩散效应研究. 西安交通大学学报 2018. 已录用 EI收录，通讯作者

[13]   赵磊; 王长安*; 朱晨钊; 袁茂博; 韩涛; 车得福, 灰化方式和温度对新疆高碱煤灰理化特性的影响. 西安交通大学学报 2018, 52(8), 139-145. EI收录，通讯作者

[14]   李汉卿; 王长安*; 朱晨钊; 赵磊; 韩涛; 车得福, O2/CO2气氛对准东煤灰熔融行为和微观理化特性的影响. 化工学报 2018, 69(6):2632-2638. EI收录，通讯作者

[15]    李德波; 张远航; 赵菁; 王长安; 冯永新; 车得福*, O2/CO2气氛下煤粉燃烧特性研究及动力学分析. 燃烧科学与技术 2018. 已录用

[16]    张锦萍; 王长安; 贾晓威; 王鹏乾; 车得福*, 半焦-烟煤协同燃烧特性及动力学分析. 化工学报 2018. 已录用，EI收录

2017年发表期刊论文

[1]     Wang Ca, Wu S, Lv Q, Liu X, Chen W, Che D, Study on correlations of coal chemical properties based on database of real-time data. Applied Energy, 2017. 204: 1115-1123. (SCI检索)

[2]     Wang Ca, Huddle T, Huang C-H, Wal RLV, Lester E, Mathews JP, Improved quantification of curvature in high-resolution transmission electron microscopy lattice fringe micrographs of soots. Carbon, 2017. 117: 174-181. (SCI检索)

[3]     Wang Ca, Fu Z, Weng Q, Che D, Effect of ashing temperature on physical-chemical features of high-sodium ashes of Zhundong coals. Energy Sources Part a-Recovery Utilization and Environmental Effects, 2017. 39(8): 747-753. (SCI检索)

[4]     Zhu X, Wang Ca, Che D, Energy analysis of a lignite pre-drying power generation system integrated with an efficient waste heat recovery system. Drying Technology, 2017. 35(12): 1492-1505. (SCI检索)

[5]     Zhang W, Wang Ca, Li G, Che D, Thermal removal of COD and NH3-N from Lurgi coal-gasification wastewater. Environmental Progress & Sustainable Energy, 2017. 36(5): 1333-1341. (SCI检索)

[6]     Wu S, Deng L, Wang Ca, Tang C, Bu Y, Che D, A study on the adaptability of cyclone barrel to slag film in a cyclone furnace. Applied Thermal Engineering, 2017. 121: 368-379. (SCI检索)

[7]     Du Y, Wang Ca, Lv Q, Deng L, Che D, Influence of sodium on deactivation and regeneration of SCR catalyst during utilization of Zhundong coals. Asia-Pacific Journal of Chemical Engineering. 2016. 11(6): 973-980. (SCI检索)

[8]     Li X, Du Y, Wang P, Wei X, Zhao Z, Deng L, Wang Ca, et al., Numerical investigation on heat transfer characteristics of high-pressure syngas in the membrane helical-coil cooler  of a 2000 t/d gasifier. Numerical Heat Transfer, 2017. (SCI检索)

[9]     Du Y, Wang Ca, Lv Q, Li D, Liu H, Che D, CFD investigation on combustion and NOx emission characteristics in a 600 MW wall-fired boiler under high temperature and strong reducing atmosphere. Applied Thermal Engineering, 2017. 126: 407-418. (SCI检索)

[10]   Zha Q, Li D, Wang Ca, Defu C, Numerical evaluation of heat transfer and NOx emissions under deep-air-staging conditions within a 600 MWe tangentially fired pulverized-coal boiler. Applied Thermal Engineering, 2017. 116: 170-181. (SCI检索)

[11]   Li D, Lv Q, Feng Y, Wang Ca, Liu X, Du Y, et al., Numerical study of co-firing biomass with lean coal under air-fuel and oxy-fuel conditions in a wall-fired utility boiler. Energy Fuels, 2017. 31(5): 5334-5354. (SCI检索)

[12]   Li D, Liu X, Zhong J, Wang Ca, Lv Q, Du Y, et al., Effects of oxidant distribution mode and burner configuration on oxy-fuel combustion characteristics in a 600 MW utility boiler. Applied Thermal Engineering, 2017. 124: 781-794. (SCI检索)

[13]   Deng L, Liu X, Cao P, Zhao Y, Du Y, Wang Ca, et al., A study on deactivation of V2O5-WO3-TiO2 SCR catalyst by alkali metals during entrained-flow combustion. Journal of the Energy Institute, 2017. (Accept) (SCI检索)

[14]   王长安, Watson JK, Enette L, 车得福, Mathews JP, 耦合堆垛与孔径分布的高碱金属煤焦分子建模方法. 西安交通大学学报, 2017. 51(9): 1-10. （EI检索）

[15]   王鹏乾, 王长安*, 杜勇博, 张龙飞, 车得福, O2/CO2燃烧条件下NO2还原特性的实验研究. 西安交通大学学报, 2017. 51(5): 16-22. （EI检索）

[16]    陈午凤, 王长安*, 魏邓昶泓, 延禹, 靳熹, 张远航, 等., 准东煤O2/CO2燃烧过程中硅铝矿物添加剂对钠/钙/铁释放与迁移的影响. 新能源进展, 2017. 5(1): 16-22.

2019年申请与授权发明专利

[1]     一种流化床气化飞灰的燃用系统及方法. 2019.

[2]     一种混合燃料加压连续给料系统和方法. 2019.

[3]     一种低NOx燃烧与白烟消减耦合的电站系统和方法. 2019.

[4]     一种固体废弃物混燃利用的系统和方法. 2019.

[5]     一种布朗气催化助燃的燃煤电站掺烧半焦的系统和方法. 2019.

[6]     一种通过化学链空分实现半焦低NOx掺烧的电站锅炉系统与方法. 2019.

[7]     一种燃用低挥发分燃料的高效热冷联供式炉具. 2019.

[8]     一种电动力脱钠的高碱煤预处理系统及方法. 2019.

[9]     一种锅炉烟气酸洗和干燥生物质的系统及方法. 2019.

[10]   一种循环流化床锅炉底渣急冷处理的综合利用方法及系统. 2019.

[11]   一种生物质燃料与半焦混燃的系统及方法. 2019. (正式授权)

[12]   一种大比例掺烧半焦的燃煤电站锅炉系统和掺烧方法. 2019. (正式授权)

[13]   一种氧气/二氧化碳燃烧中高钠高钙煤的预处理提质系统及方法. 2019. (正式授权)

[14]   一种超低挥发分碳基燃料和褐煤低NOx掺烧的系统及方法. 2019. (正式授权)

[15]   一种高温烟气预热半焦的电站锅炉低NOx混燃系统和方法. 2019. (正式授权)

[16]   一种链条炉高效低NOx混燃煤基固体燃料的系统和方法. 2019.

[17]   一种碳基固体燃料化工多联产耦合低NOx混燃的系统和方法. 2019.

2018年申请与授权发明专利

[1]     一种用于燃气锅炉烟气脱硝的冷凝式换热器及方法. 2018.

[2]     一种工业燃煤层燃炉掺烧半焦的系统与方法. 2018. (正式授权)

[3]     一种煤化工VOCs综合处理与热能利用系统及方法. 2018

[4]     一种低挥发分型煤节能环保炉. 2018.

[5]     一种热解炉-煤粉锅炉联用的低NOx掺烧系统及方法. 2018. (正式授权)

[6]     一种减缓SCR催化剂失活和空气预热器堵塞的系统和方法. 2018. (正式授权)

[7]     一种以飞灰残炭为原料的脱汞吸附剂制备装置及方法. 2018. (正式授权)

[8]     一种集成暖风器的预干燥褐煤发电系统及方法. 2018. (正式授权)