Science Project

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Project number Project name Project origin Start time Roles Project kind
xxxx 变负荷深度调峰工况下高碱煤燃烧碱(碱土)金属迁移、富集、成灰与污染物生成特性研究 企业课题 2025-01~2026-04 负责人 horizontal project
xxxx 基于基元反应的xxxx生成特性仿真 企业课题 2025-01~2025-12 负责人 horizontal project
xxxx 芦竹生物质掺烧降碳关键技术研究及应用课题生物质混煤燃烧与污染物排放特性研究 企业课题 2024-12~2025-12 负责人 horizontal project
20241120 循环流化床锅炉全负荷烟气排放技术改造研究 企业课题 2024-10~2024-12 负责人 horizontal project
20241207 燃煤机组掺氨关键技术研究 企业课题 2024-09~2026-12 负责人 horizontal project
202409160 新疆高碱煤理化特性研究与软件编写 企业课题 2024-09~2025-12 负责人 horizontal project
xxxxxx xxx“两个联营”新竞争优势研究 企业课题 2024-09~2025-12 负责人 horizontal project
2024GX-YBXM-478 富油煤原位热解能质输运定向调控机理与关键技术研究 陕西省重点研发项目 2024-01~2025-12 负责人 Vertical project
202311101 水热碳燃烧特性测试、排放物分析及气化特性检测与研究 企业课题 2023-11~2024-11 负责人 horizontal project
202309199 富油煤地下原位热解半焦开发技术 企业课题 2023-08~2024-07 负责人 horizontal project
20230975 锅炉燃烧试验台可行性研究 企业课题 2023-08~2023-12 负责人 horizontal project
202303120 脱硫浆液余热利用关键技术研究 企业课题 2023-03~2025-12 负责人 horizontal project
202212225 含碳废弃物掺烧对燃烧、结渣及NOx和SO2排放特性研究 企业课题 2023-01~2024-12 负责人 horizontal project
20230151 流化床锅炉燃煤耦合生物质技术开发研究 企业课题 2022-12~2024-12 负责人 horizontal project
20220353 煤基超容碳材料深度脱灰技术研究 企业课题 2022-03~2024-02 负责人 horizontal project
52176129 高碱煤燃料氮转化机理与熔渣流动传热特性研究 国家自然科学基金项目 2022-01~2025-12 负责人 Vertical project
20220227 富油煤原位热解气液固三相分离方案研究 企业课题 2022-01~2023-12 负责人 horizontal project
202108107 铝-水燃烧特性及反应机理实验研究 企业课题 2021-08~2022-12 负责人 horizontal project
2021其它纵向12 多级孔吸脱附耦合过渡金属催化剂及VOCs高效净化系统 其它纵向 2021-07~2023-06 负责人 Vertical project
20210456 生物质锅炉低氮高效清洁燃烧技术开发研究 企业课题 2021-03~2025-12 负责人 horizontal project

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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., 准东煤O2/CO2燃烧过程中硅铝矿物添加剂对钠//铁释放与迁移的影响新能源进展, 2017. 5(1): 16-22.

 

 

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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)