个人简介

楚化强，工学博士，教授/博士生导师/系主任，2010.9-2012.3于加拿大国家研究院(NationalResearchCouncilCanada,NRC)博士联合培养，2017.2-2017.7借调国家自然科学基金委员会工材学部。入选安徽省高校优秀青年人才支持计划、安徽省第八批战略性新兴产业技术领军人才和安徽工业大学拔尖人才“青年学者”培养计划。先后获得安徽省“争做新时代向上向善好青年”、安徽工业大学校级“教坛新秀”、“青年五四奖章”、本科生导师制“优秀指导老师”、“优秀教学管理工作者”、第四届“教学优秀奖”等荣誉称号。从事燃烧检测、传热分析等方面的教学、科研工作，发表论文60余篇，其中SCI/EI收录30余篇，单篇最高引用80余次，1篇论文入选ESI热点、高被引论文，获得国家发明专利11项，软件著作权6项，主持国家/省部级项目9项：主持国家自然科学基金2项、国家重大科研仪器研制项目课题1项、国家重点研发计划项目子课题1项、科技部重点仪器开发专项子课题1项、安徽省自然科学基金1项、省部级教改课题3项。担任2017年中国工程热物理学会燃烧学学术会议分会场主席，2018年受邀在中国工程热物理学会传热传质会议分会做专题报告。中国工程热物理学会传热传质青年委员会委员、第五届全国青年燃烧学术会议程序委员会委员、第六届全国青年燃烧学术会议程序委员会委员、国际燃烧学会会员、国家自然科学基金委同行通讯评议专家，第三批江苏省“企业创新岗”特聘专家（科技副总）。【基本信息】技术职务：教授，博士/硕士生导师行政职务：能源与动力工程系主任通讯地址：安徽工业大学能源与环境学院(邮编：243002)信箱：hqchust@163.com, hqchust@ahut.edu.cn【教育背景】2008.9-2012.6 华中科技大学 热能工程/工学博士2010.9-2012.3 加拿大国家研究院化工过程与环境技术研究所访学2018.8-2018.8 西安交通大学“全国高校能源与动力工程系列课程教师研修”2016.7-2016.8 中国科学技术大学 “微尺度多相流动及界面效应高级讲习班”【工作履历】2018.09-至今 安徽工业大学 教授/博士研究生导师/系主任、院教授委员会委员2017.12-至今 安徽工业大学 教授/硕士研究生导师、院教授委员会委员2017.02-2017.07 国家自然科学基金委工材学部/工程三处2014.12-2017.12 安徽工业大学 副教授/硕士研究生导师(2016.04-2017.04担任系副主任)2012.06-2014.12 安徽工业大学 讲师/硕士研究生导师【主讲课程】省“教坛新秀”，2015-2016学年综合优秀、2017-2018学年综合优秀、年度校教学优秀一级、校第四届教学优秀奖、校“教坛新秀”、校优秀教学管理工作者本科：《传热学》、《热工学基础》、《专业英语》、《新能源利用基础》、《热工理论基础》等研究生：《高等传热学》、《辐射换热》等

研究领域

辐射换热特性分析、颗粒物团聚机制及分形分析、燃烧检测与分析、汽车尾气碳烟检测及脱硝催化剂开发、纤维材料热物特性检测、纳米流体沸腾换热分析

近期论文

发表学术论文70余篇(SCI/EI收录50余篇，单篇最高引用90余次，1篇入选ESI热点、高被引论文，软件著作权6项，申请专利70余项，授权发明专利12项)SCI论文代表作1. 火焰中碳烟生成与调控【12】Huaqiang Chu, Yuchen Ya, Xiaokang Nie, et al. Effects of adding hexamethylene, n-hexane, ethanol,and 2,5-dimethylfuran to fuel on soot formation in laminar coflown-heptane/iso-octane diffusion flame. Combustion and Flame, 2020, Under Review.【12】Huaqiang Chu, Yuchen Ya, Xiaokang Nie, et al. Effects of ethanol and 2, 5-dimethylfuran addition on the morphology and nanostructure evolutionof soot in gasoline primary reference fuel-air coflow diffusion flames. Fuel, 2020, 281: 118711.【11】Yuyu Lin, Bencheng Zhu, Jinchao Chen, Jiajia Wu, Kun Lu, Mingyan Gu*, Huaqiang Chu*. Study of soot functional groups and morphological characteristics in laminar coflow methane and ethylene diffusion flames with hydrogen addition. Fuel, 2020, 279:118474.【10】Yuchen Ya, Xiaokang Nie, Licheng Peng, LongkaiXiang, Jialong Hu, Wenlong Dong, Huaqiang Chu*. Effects of ethanolblending on the formation of soot in n-heptane/air coflow diffusion flame. Journal of Chemistry, 2020, 8403940. (引用2次）【9】Weiwei Han, Yong Zhou, Ting Zhu, Huaqiang Chu*.Combustion synthesis of defect-rich carbon nanotubes as anodes for sodium-ion batteries.Applied Surface Science, 2020, 520: 146317.(引用次）【8】Weiwei Han, Dong Chen, Qifei Li, Weiling Liu, Huaqiang Chu*, Xianhong Rui*. Ultrafast flame growth of carbon nanotubes for high-rate sodium storage. Journal of Power Sources, 2019,439: 227072.(IF=7.46, 引用6次）【7】Weiwei Han, Yuchen Ya, Huaqiang Chu*, Wenjian Cao, Yan Yan, Longfei Chen**. Morphological evolution of soot emissions from a laminar co-flow methane diffusion flame with varying oxygen concentrations. Journal of the Energy Institute, 2020, 93(1): 224-234.【6】Huaqiang Chu, Yan Yan, Longkai Xiang, Weiwei Han, Licheng Peng. Effect of oxygen-rich combustion on soot formation in laminar co-flow propane diffusion flames. Journal of the Energy Institute, 2020, 93(2): 822-832【5】Huaqiang Chu, Weiwei Han,Wenjian Cao, Mingyan Gu, Guangju Xu. Effect of methane addition to ethylene on the morphology and size distribution of soot in a laminar co-flow diffusion flame. Energy, 2019,166: 392-400.（引用36次, ESI热点、高被引论文@201907）【4】Huaqiang Chu, Weiwei Han, Wenjian Cao, Changfa Tao, MohsinRaza, Longfei Chen. Experimental investigation of soot morphology and primaryparticle size along axial and radial direction of a co-flow flame via eletronmicroscopy. Journal of the Energy Institute, 2019, 92(5):1294-1302.(引用9次）【3】Huaqiang Chu, Weiwei Han, Fei Ren, Longkai Xiang, Yan Wei and Chao Zhang. Flame synthesis of carbon nanotubes on different substrates in methane diffusion flames. ES Energy & Environment, 2018, 2: 73–81.（引用3次）【2】Huaqiang Chu, Fei Ren, Zhimin Zheng, Mingyan Gu. Study on granularity distribution of powder by fractal models. Fractals, 2017,25( 4): 1740009. （引用5次）【1】Mingyan Gu, Huaqiang Chu*, Fengshan Liu. Effects of simultaneous hydrogen enrichment and carbon dioxide dilution of fuel on soot formation in an axisymmetric coflow laminar ethylene/air diffusion flame. Combustion and Flame, 2016, 166: 216-228.（引用46次）2. 燃烧特性与污染物生成【11】 Huaqiang Chu, Longkai Xiang, Shun Meng, Wenlong Dong, Mingyan Gu, Zhihu Li. Effectsof N2 dilution on laminar burning velocity, combustioncharacteristics and NOx emissions of rich CH4–air premixed flames. Fuel, 2020, Under Review.【10】Huaqiang Chu, Longkai Xiang, Xiaokang Nie, et al. Laminar burning velocity and pollutant emissions of the gasoline components and its surrogate fuels: A review. Fuel, 2020, 269: 117451.(综述论文，引用6次）【9】Longkai Xiang, Wenlong Dong, Jialong Hu, Xiaokang Nie, Fei Ren, Huaqiang Chu*. Numerical study on CH4 laminar premixed flames forcombustion characteristics in the oxidant atmospheres of N2/CO2/H2O/Ar-O2. Journal of the Energy Institute, 2020, 93(4): 1278-1287.【8】L. Peng, D. Fu, Huaqiang Chu*, et al. Progress and challenges in biofuelproduction from microalgae: a critical review. Environmental Chemistry Letters, 2020, 18: 285–297.(综述论文，引用6次）【7】Fei Ren, Longkai Xiang, Huaqiang Chu*, et al. Numerical investigation on the effect of CO2 and steam for the H2 intermediate formation and NOx emission in laminar premixed methane/air flames. International Journal of Hydrogen Energy, 2020, 45(6): 3785-3794.(引用8次）【6】Fei Ren, Longkai Xiang, Huaqiang Chu*, Hantao Jiang, Yuchen Ya. Modeling study of the impact of bending N2, CO2 and H2O on characteristics of CH4 laminar premixed combustion. Energy and Fuels, 2020, 34: 1184−1192.(引用2次）【5】Longkai Xiang, Hantao Jiang, Fei Ren, Huaqiang Chu*, Pan Wang. Numerical study of the physical and chemical effects of hydrogen addition on laminar premixed combustion characteristics of methane and ethane. International Journal of Hydrogen Energy, online:doi.org/10.1016/j.ijhydene.2019.11.040, 2019.【4】Huaqiang Chu, Fei Ren, Longkai Xiang, et al. Numerical investigation on combustion characteristics of laminar premixed n-heptane/air flames at elevated initial temperature and pressure.Journal of the Energy Institute, 2019, 92 (6): 1821-1830. 【3】Fei Ren, Huaqiang Chu*, Longkai Xiang, Weiwei Han, Mingyan Gu*. Effect of hydrogen addition on the laminar premixed combustioncharacteristics the main components of natural gas. Journal of the Energy Institute, 2019, 92(4):1178-1190.(引用31次）【2】Fei Ren, Longkai Xiang, Huaqiang Chu*, Weiwei Han. Effects of strain rate, temperature and CO2 on no formation in CH4/N2/O2 counterflow diffusion flames. Thermal Science, 2018, 22(Suppl. 2): S769-S776.【1】 Mingyan Gu, Xue Chen, Cengceng Wu, Xianhui He, Huaqiang Chu* , Fengshan Liu. Effects of particle size distribution and oxygenconcentration on the propagation behavior of pulverized coal flames in O2/CO2 atmospheres. Energy & Fuels, 2017,31(5): 5571-5580.（引用10次）3. 火焰热辐射与相变换热【21】Hantao Jiang, Yong Zhou, Licheng Peng, et al. Dynamics analysis of bubble attachment and sweeping on microwire in subcooled nucleate pool boiling. International Journal of Heat and Mass Transfer, 2020, under reviewed.【20】Dongdong Wang, Jinxin Wang, Pengjie Liu, Shilei Ding, Huaqiang Chu*. Evaporation heat transfer characteristic of porous wick in an open capillary evaporator. International Journal of Thermal Sciences, 2020, 155: 106445.【19】Dongdong Wang, Jinxin Wang, Shilei Ding, Huaqiang Chu*. Study on evaporation heat transfer performance of composite porous wicks with spherical-dendritic powders based on orthogonal experiment. International Journal of Heat and Mass Transfer, 2020, 156: 119794.【18】Hantao Jiang, Yong Zhou, Huaqiang Chu*, Yan Yan. Experimental investigation of bubble jet flow, sweeping and rotation on horizontal or inclined micro-wire during subcooled boiling. Journal of Thermal Analysis and Calorimetry, 2020, 141, (1): 95 – 106.【17】Dongdong Wang, Jinxin Wang, Xiangjun Bao, Guang Chen, Huaqiang Chu*.Experimental study on hydraulic and thermal characteristics of composite porouswick with spherical–dendritic powders. Journal of Thermal Analysis and Calorimetry, 2020, 141, (1): 107 – 117.【16】Jimin Wang, Xue Chen, Chao Zhang, Mingyan Gu, Huaqiang Chu*. Numerical investigation of heat transfer characteristics of supercritical CO2 tube in combustion chamber of coal-fired boiler. Journal of Thermal Science, 2019, 28(3): 442–453.(引用1次）【15】Jimin Wang, Feilong Dong, Xue Chen, Mingyan Gu, Huaqiang Chu*.Numerical simulation of flowand heat transfer between supercritical CO2 tube and flue gas. Asia-PacJ Chem Eng. 2019, 14(2): e2295.【14】Dongdong Wang, Jinxin Wang, Xiangjun Bao, Guang Chen, Huaqiang Chu*. Evaporation heat transfer characteristics of composite porous wick with spherical-dendritic powders. Applied Thermal Engineering, 2019, 152: 825-834.(引用1次）【13】Chao Zhang, Huaqiang Chu*, Mingyan Gu, Shu Zheng. Experimental and numerical investigation of silicothermic reduction process with detailed chemical kinetics and thermal radiation. Applied Thermal Engineering, 2018, 135: 454-462.（引用1次）【12】Haqiang Chu, Fei Ren, Yan Wei. A comparison of two statistical narrow band models using different databases for non-gray gas radiation in planar plates. Thermal Science, 2018, 22(Suppl. 2): S777-S784.【11】 Huaqiang Chu, Fei Ren, Yan Feng, Mingyan Gu, Shu Zheng. A comprehensive evaluation of the non gray gas thermal radiationusing the line-by-line model in one- and two-dimensional enclosures. Applied Thermal Engineering, 2017, 124: 362–370.（引用30次）【10】 Huaqiang Chu, Jean-Louis Consalvi, Mingyan Gu, Fengshan Liu. Calculations of radiative heat transfer in anaxisymmetric jet diffusion flame at elevated pressures using different gasradiation models.Journal of Quantitative Spectroscopy & RadiativeTransfer, 2017, 197: 12-25.（引用26次） 【9】Huaqiang Chu,Yan Feng, Wenjian Cao, Fei Ren, Mingyan Gu. Comprehensive evaluation and analysis of the weighted-sum-of-gray-gases radiation model. ACTA PHYSICA SINICA, 2017, 66 (9): 094207.【8】Huaqiang Chu, Mingyan Gu, Jean-Louis Consalvi, Fengshan Liu, Huaichun Zhou. Effects of total pressure on non-grey gas radiation transfer in oxy-fuel combustion using the LBL, SNB, SNBCK, WSGG, and FSCK methods. Journal of Quantitative Spectroscopy & Radiative Transfer, 2016, 172: 24-35.（引用29次）【7】 Huaqiang Chu, Fengshan Liu, Jean-Louis Consalvi. Relationship between the spectral line based weighted-sum-of-gases model and the full spectrum K-distribution model. Journal of Quantitative Spectroscopy & Radiative Transfer, 2014, 143:111-120.（引用22次）【6】Huaqiang Chu, Mingyan Gu, Huaichun Zhou, Fengshan Liu. Calculations of Narrow-Band Transimissities and Planck Mean Absorption Coefficients Using LBL and SNB Models. Frontiers in Energy, 2014,8(1): 41-48.（引用6次）【5】 Fengshan Liu, Huaqiang Chu, Huaichun Zhou, Gregory J. Smallwood. Evaluation of the absorption line blackbody distribution function of CO2 and H2O using the proper orthogonal decomposition and hyperbolic correlations. Journal of Quantitative Spectroscopy & Radiative Transfer,2013,128: 27-33.（引用17次）【4】Huaqiang Chu, Fengshan Liu, Huaichun Zhou.Calculations of gas radiation heat transfer in two-dimensional rectangular enclosures using the line-by-line approach and the statistical narrow-band correlated-k model. International Journal of Thermal Sciences,2012, 59: 66-77.（引用53次）【3】Huaqiang Chu, Fengshan Liu, Huaichun Zhou.Calculations of Gas Radiation Transfer in Planar Plates Using LBL and SNB Models.International Journal of Heat and Mass Transfer, 2011, 54: 4736-4745.（引用98次）【2】Huaqiang Chu, Qiang Cheng, Huaichun Zhou, Fengshan Liu. The non-gray radiation from gas and soot mixtures in planar plates based on the statistical narrow-band spectral model. Frontiers in Energy, 2011, 5(2):149-158.【1】Huaqiang Chu, Boming Yu. A new comprehensive model for nucleate pool boiling heat transfer of pure liquid at low to high heat fluxes including CHF. International Journal of Heat and Mass Transfer,2009, 52: 4203-4210. (引用26次） 国内重要论文【12】颜岩, 余波, 王浩, 聂晓康, 楚化强*. 燃煤电厂湿烟羽治理技术研究进展. 过程工程学报,2020, 20(7):745-756.（综述论文）【11】相龙凯,牙宇晨, 聂晓康, 任飞, 柯伟, 楚化强*.本生灯法结合纹影技术测量甲烷/空气层流燃烧速度及流场分析.实验流体力学,2020,34(1):25-32. ( EI)【10】韩伟伟, 汪鹏, 卫言, 楚化强*, 孙勇, 曹文健. 火焰法制备碳纳米管研究进展.过程工程学报, 2019, 19 (1): 3-13.（综述论文）【9】曹文健, 韩伟伟, 卫言, 任飞, 楚化强*, 顾明言. 氧体积分数对甲烷同轴射流扩散火焰碳烟形貌的影响. 燃烧科学与技术，2018, 24(4): 361-368【8】韩伟伟，曹文健，楚化强*，顾明言. 氧浓度对乙烯同轴层流扩散火焰中碳烟形貌及粒径演变的影响研究. 推进技术, 2018,39(12): 2788-2797（EI）【7】蒋晓燕, 陆强, 楚化强*, 胡斌, 刘吉, 董长青. 磷酸催化热解木质素模化物的反应机理研究. 太阳能学报, 2020, 41(2):6-12 ( EI)【6】曹文健,任飞, 相龙凯, 冯艳, 楚化强*,顾明言. 富氧气氛下碳氢燃料同轴射流扩散火焰的形态特性.过程工程学报,2017,17(3): 632-639.【5】楚化强, 曹文健, 冯艳, 徐靖, 任飞, 顾明言. 二氧化碳和富氧空气对甲烷与乙烯燃烧的影响. 过程工程学报,2016, 16(3): 470-476.【4】楚化强, 顾明言, 周怀春, 徐靖.气体光谱数据库对气体辐射特性的影响. 热科学与技术, 2014, 13(3): 213-220. 【3】 王志超, 程强,楚化强,周怀春. 辐射平衡时介质内温度交点的现象及其探究.华中科技大学学报,2013, 41(3): 101-105.（EI）【2】楚化强, 程强, 王志超, 周怀春.基于窄谱带模型的烟黑颗粒辐射模型的比较. 工程热物理学报, 2011,6:1039-1042.（EI）【1】楚化强, 郁伯铭. 沸腾换热的分形分析.力学进展,2009,39(3):259-272.（EI, 综述论文）著作楚化强, 陈光, 杨筱静编著. Matlab在传热学例题中的应用, 合肥工业大学出版社, 2020.软件著作权1.楚化强,周怀春, Fengshan Liu.气体光谱透射率及黑度计算软件[简称: LBL_Transmission_Emission] V1.0,软件著作权,编号:软著登字第0436369号,登记号:2012SR068333, 2012年07月27日.2. 楚化强,周怀春,Fengshan Liu.气体平均普朗克吸收系数新算法计算软件[简称:Planck_LBLH2O_New]1.0,软件著作权,编号:软著登字第0436371号,登记号: 2012SR068335, 2012年07月27日.3. 楚化强,周怀春, Fengshan Liu. LBL+DO法求解一维平行平板间气体非灰辐射传递过程计算软件[简称:LBL_DOM_1D] V1.0,软件著作权,编号:软著登字第0436373号,登记号:2012SR068337, 2012年07月27日.4.顾明言,楚化强. DT法求解三维圆柱体内辐射传热计算软件[简称:3D_DT_Radiation] V1.0,软件著作权,编号:软著登字第0530403号,登记号:2013SR024641, 2013年03月18日.5. 顾明言,楚化强.柱坐标下三维旋流煤粉燃烧器煤粉燃烧及NOX排放计算软件[简称:3D_Cylinder_Combustion] V1.0, 软件著作权,编号: 软著登字第0558710号,登记号: 2013SR052948, 2013年03月18日.6. 顾明言,楚化强.三维多孔介质内煤粉及焦炭燃烧计算软件,编号:软著登字第0772792号,登记号:2014SR103548, 2014年07月23日.发明专利1.楚化强,曹文健,任飞,冯艳,丁先.一种碳氢燃料层流火焰中碳黑检测系统及检测方法[P]. 发明专利, 专利号:ZL201610811876.3.(2018-5-25 授权)2.楚化强,丁先,汪冬冬,魏瑶,方瑞雪,顾明言,朱帅. 一种可视化大容器沸腾换热的实验方法[P].发明专利,专利号:ZL201610478004.X. (2018-11-13 授权)3. 楚化强, 张超, 顾明言.一种碳热法同时制取金属镁和电石的工艺[P]. 发明专利, 专利号:ZL201710320876.8(2018-11-27 授权)4.楚化强,丁先,汪冬冬,魏瑶,方瑞雪,顾明言,朱帅. 一种可视化大容器实验装置[P].发明专利,申请号:201610477989.4.(2019 -3-25授权)5.楚化强,韩伟伟,张超,任飞,相龙凯,蒋瀚涛,颜岩.一种用于研究碳纳米管生长的实验装置及方法[P].发明专利,申请号:201810971095.X.(2020 -2-21授权)6.汪冬冬,楚化强,李朝祥. 一种应用于环路热管系统的粉末-微纤维复合多孔毛细芯[P]. 发明专利：专利号ZL201610286113.1.(2017-9-29 授权)7.范煜东,顾明言,楚化强,丁骁,肖芳富. 一种太阳能温差能静电除尘器[P], 发明专利：专利号ZL201410606246.3.(2017-1-25 授权) 8.袁银梅, 贾虎, 楚化强, 王计敏. 一种基于空气净化器的连续性空气净化方法[P]. 发明专利, 专利号: ZL2017111805.3.(2019-9-10 授权) 9.顾明言,范煜东,陈光,楚化强,何先辉. 一种利用汽车尾气发电的车载制冷坐垫[P].发明专利, 专利号ZL201610811877.8.(2018-6-22 授权) 10.顾明言,王计敏,何先辉,楚化强.一种煤粉颗粒间燃烧过程相互作用的数值模拟方法[P]. 发明专利, 专利号ZL201610045056.8.(2018-11-13 授权)11.顾明言,范煜东,陈光,楚化强,何先辉.一种翼板换热式汽车尾气发电装置[[P]. 发明专利, 专利号ZL201610811223.5.(2019-3-22 授权)12.顾明言,范煜东,陈光,楚化强,包向军,何先辉. 一种工业余热热电转化效率的模拟检测系统及检测方法[P]. 发明专利, 专利号: ZL201610374572.5.(2019-4-2 授权)13.郑志敏,魏建旭,楚化强,顾明言.一种热态飞灰颗粒的临界反弹速度测量装置和方法[P].发明专利, 申请号:201810501567.5.(2020-7-3 授权)14.楚化强, 卫言, 张超, 陈光, 丑鹏飞. 一种角度可调谐的容器沸腾换热实验装置及实验方法[P]. 发明专利, 申请号: 201710571352.615.楚化强,相龙凯, 孟顺, 任飞, 韩伟伟. 一种燃烧锥形火焰本生灯及火焰传播速度测量方法[P]. 发明专利,申请号:201810547795.616.楚化强,韩伟伟, 汪鹏, 任飞, 曹文健, 相龙凯. 一种碳氢燃料层流火焰中碳烟采集系统及粒径分析方法[P]. 发明专利, 申请号：201810547516.6.17.楚化强,卫言, 牙宇晨,聂晓康.一种碳氢燃料同轴扩散火焰碳烟微纳结构的分析方法[P]. 发明专利, 申请号：201910672325.7 .18.楚化强,胡家龙,聂晓康,牙宇晨,周勇. 一种层流火焰碳烟收集采样装置及采样方法[P]. 发明专利, 申请号：202010278091.0.19.楚化强,颜岩, 闫仕成, 王浩, 余波.一种锅炉烟气脱白系统[P]. 发明专利, 申请号：201911308365.X.20.楚化强,董世林, 韩伟伟.一种火焰法大规模连续合成碳纳米管的装置及合成方法[P]. 发明专利, 申请号：202010551572.4.21.楚化强,聂晓康, 牙宇晨,齐家威,胡家龙.一种基于高精度控制获取高稳定火焰的液体燃烧系统及燃烧方法[P]. 发明专利, 申请号:202010608644.4.实用新型专利1.楚化强,申逸骋,顾明言,徐靖.一种用于采集燃烧火焰中烟黑颗粒的SiC纤维安装架[P],实用新型专利：专利号ZL201420208917.62.楚化强,申逸骋,顾明言,冯艳,徐靖.一种用于燃烧火焰中烟黑颗采集及温度测量装置[P],实用新型专利：专利号ZL201420646667.43.楚化强,徐靖,冯艳,顾明言,申逸骋.一种用于均匀混合气体的容器瓶[P],实用新型专利：专利号ZL201520069646.54.楚化强,丁先,曹文健,魏瑶,方瑞雪,顾明言.一种多方位采集火焰中烟黑颗粒的SiC纤维安装架[P],实用新型专利,专利号:ZL201620572593.35. 楚化强, 丁先, 汪冬冬, 魏瑶, 方瑞雪, 顾明言, 朱帅. 一种可视化大容器沸腾实验装置[P].实用新型专利: 专利号ZL201620647109.9.6.楚化强,魏瑶,朱帅,丁先,顾明言.一种可视化低扰动沸腾实验装置[P],实用新型专利,专利号:ZL201620572602.9.7.楚化强, 卫言, 张超, 陈光, 丑鹏飞. 一种角度可调谐的容器沸腾换热实验装置[P]. 实用新型专利: 专利号ZL201720849363.18.楚化强,韩伟伟,汪鹏, 任飞, 曹文健, 相龙凯. 一种碳氢燃料层流火焰中碳烟采集系统[P].实用新型专利:专利号ZL201820832685.X9. 楚化强, 相龙凯, 孟顺, 任飞, 韩伟伟. 一种燃烧锥形火焰本生灯[P]. 实用新型专利：专利号ZL201820832795.610.楚化强, 胡家龙, 聂晓康, 牙宇晨, 周勇.一种可一种可精准调节燃烧器喷嘴的对冲火焰试验台[P]. 实用新型专利：专利号ZL201921609646.4.11.顾明言, 楚化强, 严大炜, 张超, 范煜东.一种鱼雷罐车内壁腐蚀监测机构[P], 实用新型专利：专利号ZL201720524221.8