[1] Yao E, Wang H, Liu L, et al. A Novel Constant-Pressure Pumped Hydro Combined with Compressed Air Energy Storage System[J]. Energies. 2015, 8(1): 154-171.
[2] E Yao,H Wang,L Wang,G Xi,F Maréchal, Multi-objective Optimization and Exergoeconomic Analysis of a Combined Cooling, Heating and Power System based on Compressed Air Energy Storage[J]. Energy Conversion & Management, 2017, 138:199-209.(ESI)
[3] E Yao,H Wang,L Wang,G Xi,F Maréchal, Thermo-economic optimization of a combined cooling, heating and power system based on small-scale compressed air energy storage[J]. Energy Conversion & Management, 2016, 118: 377-386.(ESI)
[4] Ruixiong Li, Huanran Wang, Erren Yao, Shuyu Zhang, Thermo-economic comparison and parametric optimizations among two compressed air energy storage system based on Kalina cycle and ORC[J]. Energies, 2017, 10(1).
[5] Ruixiong Li, Huanran Wang, et al. Internal Flow Analysis of Bladeless Turbine [C], International Conference on Efficiency, Cost, Optimisation, Simulation and Environmental Impact of Energy Systems, 2017.06.
[6] Ruixiong Li, Huanran Wang, Qingshi Tu. Thermo-economic analysis and optimization of adiabatic compressed air energy storage (A‐CAES) system coupled with a Kalina cycle [J]. Energy Technology, 2017.
[7] Ruixiong Li, Huanran Wang, Erren Yao, Meng Li, Weigang Nan, Experimental study on bladeless turbine using incompressible working medium[J]. Advances in Mechanical Engineering, 2016, 8(12) 1–12.
[8] Long Liu, Erren Yao, Huanran Wang. Thermodynamic analysis of a constant-pressure PHCA system[C]. 2014 International Conference on Energy and Power Engineering. Hong Kong. 2014.4.26-27.
[9] Wang H, Wang L, Wang X, et al. A Novel Pumped Hydro Combined with Compressed Air Energy Storage System[J]. Energies. 2013, 6(3): 1554-1567.
[10] Huanran Wang, Jingjing Yang, Shaomin Lei and Xinbing Wang. Comparing the effect of biosurfactant and chemical surfactant on bubble hydrodynamics in flotation column[J], Water Science and Technology ,2013, 68(4).
[11] Li.YP, Zhu.TT, Liu.YY, Tian.Y, Wang.HR. Effects of surfactant on bubble hydrodynamic behavior under flotation-related conditions in wastewater[J], Water Science and Technology,2012,65(6):1060-1066.
[12] Yanpeng Li, Haifeng Zhang , Xionghui Qiu , Yanru Zhang , Huanran Wang*. Dispersion and Risk Assessment of Bacterial Aerosols Emitted from Rotating- Brush Aerator during Summer in a Wastewater Treatment Plant of Xi’an[J], Aerosol and Air Quality Research,2012.
[13] Yan-Peng.L, Huan-Ran.W. Three-dimensional direct simulation of a droplet impacting onto a solid sphere with low-impact energy[J], The Canadian Journal of Chemical Engineering,2011,89(1):83-91.
[14] Zhang.LJ, Zhang.JX, Wu.B, Chen.L, Gong.SL, Wang.HR. Simulation on the Melt Flow in Laser Full Penetration Welding with a Model Including a Non-Rotational Symmetry Keyhole Based on Energy Balance[J]. Rare Metal Materials and Engineering,2011,40(4):120-124.
[15] Wang HR, Li YP, Zhao ZX. Computational study on microscale behavior of bubble generated by aeration in a plug-flow aeration tank[J] ,Water Science and Technology, 2009,59(10):2065-2072.
[16] H. R. Wang, Y. P. Li. Numerical simulation of aeration bubble growth in a plug-flow aeration tank used in wastewater treatment[C], Proceeding of the 6th International Symposium on Multiphase flow, heat mass transfer and Energy Conversion, Xi'an, 2009.
[17] RuGang Chen, HuanRan Wang. Measurement and Numerical Simulation of Moisture Transport within Potash Beds as a Prelude to Moisture Migration Caking[J],Adv.Powder.Technol,2006, 17(1).
[18] Ruixiong Li, Huanran Wang, Hertwich Edagar. Hybrid Life cycle assessment for a novel adiabatic compressed air energy storage system [J], Applied Energy,2018. (已接收)
[19] Ruixiong Li, Huanran Wang, Meng Li, Weigang Nan. Thermodynamic analyses and parametric optimizations of a combined energy system based on Kalina cycle and compressed air energy storage system [J], Energy. (正修改)
[20] Ruixiong Li, Huanran Wang, Haoran Zhang. Dynamic simulation of a combined cooling, heating and power system based on adiabatic compressed air energy storage.(已录用Energy)
[21] Nan Weigang, Deguchi Yoshihiro, Wang Huanran, Liu Renwei,Akihiro Ikutomo, Wang Zhenzhen. Eliminate the CO2 effect on unburned carbon in fly ash measurement using LIBS. Spectroscopy and Spectral Analysis. 2018,38(1) 258-262.
[21] 姚尔人,王焕然,柳龙. 水汽混合型抽水压缩气体储能系统能量分析. 中国工程热物理年会[C]. 西安. 2014.11.1-3.
[22] 王焕然,李瑞雄. 压缩空气储能系统机组变工况运行[C]. 中国工程热物理年会. 西安. 2014.11.1-3.
[23] 王峰,王焕然,李瑞雄. 带加热装置的恒压抽水压缩气体储能系统热力分析. 中国工程热物理年会[C]. 西安.2014.11.1-3.
[24] 王焕然,王新兵,窝丁日海,吴琪. 半球头圆柱体穿越气液界面的数值模拟[J]. 工程热物理学报,2013,34(10).
[28] 叶阳辉,孙金绢,史小兵,王焕然. 小韦伯数下小球入水的数值分析[J],西安交通大学学报,2012,46(11).
[30] 王焕然,李彦鹏等. 粘性液体中单个气泡上升的形状特性[J],工程热物理学报, 2009,30(9): 1492-1494.
[31] 赵知辛,王焕然,李彦鹏,席光. 用Level Set方法对水下两个气泡运动的数值模拟[J],西安交通大学学报,2009,43(7):11-15.
[32] 李彦鹏,王焕然. 低冲击能量液滴与球面碰撞沉积特性的数值研究[J],西安交通大学学报,2009,43(7):21-24.
[33] 李彦鹏,王焕然. 基于Level Set方法的气-液-固三相流动模型与模拟[J], 应用力学学报, 2008,25(4):578-582
[34] 李彦鹏,王焕然. 带内嵌固体的不可压缩气液两相界面流数值模拟方法[J], 西安交通大学学报,2008,42(9):1151-1155.
[35] 孙中国,席光,王焕然. 带运动部件的不可压缩流动MPS发数值模拟[J],工程热物理学报,2008,29(10):1676-1678.
[36] 李彦鹏,王焕然,序批式反应器内多尺度三相流动的数值模拟,环境科学学报[J]工程热物理年会,2007,27(9):1567-1574.
[37] 潘龙; 王焕然; 姚尔人; 王新兵. 头部喷气平头圆柱体人水缓冲机制研究[J],工程热物理学报,2015,36(8):1691-1695.
[38] 王焕然; 王新兵; 窝丁日海; 吴琪. 半球头圆柱体穿越气液界面的数值模拟[J],工程热物理学报,2013,34(10):1856-1859.
[40] 姚尔人, 王焕然, 席光,李瑞雄. 一种抽水压缩空气储能系统[J]. 西安交通大学学报, 2017.
[41] 李梦, 王焕然, 姚尔人, 李瑞雄. 蒸汽恒压型抽水压缩空气储能系统能量分析[J], 西安交通大学学报, 2016. (外审)
发明专利:
[1] 王焕然,姚尔人,柳龙,席光. 用高压储气罐恒压的水-气共容舱电力储能系统,2014.10,专利号:2.4。(已经授权)
[2] 王焕然. 恒压水-气共容舱电力储能系统,2012.08,专利号:2.1
[3] 王焕然,马超,席光,何文林. 一种用于电流互感器的气动供能装置,2009.02,专利号:CN2.8
[4] 王焕然,薛永军,马超. 一种用于光电互感器供能的磁悬浮气动发电机,2008.11,专利号:CN2.8
[5] 王焕然工程热物理年会,赵知辛,王立城. 背压式轴流气波制冷机,2005.03,专利号:CN2.4
[6] 王焕然. 旋转水膜空气处理装置,2003.12,专利号:CN03134292.2
[7] 王焕然. 一种气幕弹,专利号:ZL2.5(国防专利)
[8] 王焕然,赵知辛,席光,李晓丹. 三核气泡弹,专利号:ZL2.4(国防专利)
[9] 赵知辛,王焕然,席光,李晓丹. 双核气泡弹,专利号:ZL2(国防专利)
[10] 王焕然, 李瑞雄, 席光等. 一种双壳式抽水蓄能系统, 2014.03, 专利号:28,(已经授权)
[11] 王焕然, 李瑞雄, 席光等. 电石冷却装置及其方法, 2015.12, 专利号:26,(已经授权)
[12] 王焕然, 李瑞雄, 席光等. 非绝热气体膨胀的压缩空气储能系统, 2016.11, 专利号:21,(已经授权)
[13] 王焕然, 李梦, 席光, 姚尔人, 李瑞雄. 无外加热源的压缩空气双储能系统, 2016.12, 专利号:24,(已经授权)
[14] 王焕然, 姚尔人, 席光. 一种冷热电联供的压缩空气储能系统, 2014.12, 专利号:21.,(已经授权)
[15] 席光, 胡杨, 王焕然, 姚尔人. 一种以空气及水为储能工质的联合储能系统及方法, 2016.12, 申请号:23
[16] 王焕然, 程鹏, 席光,等. 压缩空气的储能系统, 2012.5, 专利号:2.
[17] 王焕然, 张淑宇, 李瑞雄. 新型压缩空气储能系统, 2017.12, 申请号:24 (实审).
[18] 王焕然, 李宸晨, 李瑞雄. 干热岩压缩空气储能系统, 2017.8, 申请号:24 (实审).
