2013年本科毕业于中南大学矿物加工工程专业（导师范晓慧教授、姜涛院士）。2018年博士毕业于浙江大学能源与环境工程专业（导师周昊教授、岑可法院士），澳大利亚纽卡斯尔大学、必和必拓集团联培（导师Tom Honeyands, Ben Ellis）。2018.07至2021.06于浙江大学能源清洁利用国家重点实验室任学科博士后，期间获评浙江大学自然科学序列专职研究副研究员职称。2021.07至2023.04于宝山钢铁股份有限公司（中央研究院能源与环境研究所)从事钢铁能效与新型能源交叉研究工作。2023.05至今于上海科技大学2060研究院任助理研究员。作为负责人主持国家自然科学基金青年科学基金、博士后面上基金（一等）项目、蒙纳士大学国际横向项目等，参与国家重点研发计划、国家自然科学基金重点项目、国家自然科学基金杰青项目等。以第一/通讯作者发表SCI论文十余篇，获浙江省科技进步二等奖1项，出版著作2项，授权发明专利4项、软件著作权3项，担任浙江省动力学会理事、《烧结球团》青年编委、上海科委项目评审专家、多个权威SCI期刊审稿人等。

研究方向：

热化学储热，压缩二氧化碳储能，钢铁低碳节能技术

[1] Xu Changzhe; Xu Yanyan; Zhou Mingxi; Ye shuang*; Huang Weiguang; General integration method for system configuration of organic Rankine cycle based on stage-wise concept, ENERGY, 2024, 310:133269.

[2] Zhou Mingxi*; Liu Ruochen; Application of molten salt thermal energy storage for waste heat recovery in iron and steel industry, PROCEEDINGS OF ASME 2024 18TH NTERNATIONAL CONFERENCE ON ENERGY SUSTAINABILITY, ES2024, Anaheim, California, USA, 2024-07-15至2024-07-17.

[3] 周奕彤; 周明熙*; 刘若晨; 叶爽; 黄伟光; 光伏与电网协同驱动氢基直接还原铁炼钢的技术经济分析, 化工学报, 2025, 76(8): 4318-4330.

[4] 周明熙(8/9); 大型重油电站锅炉高效低氮燃烧系统, 浙江省科技进步二等奖, 2019.

[5] 周昊; 周明熙; 岑可法; 烧结过程清洁燃烧和污染物控制, 科学出版社, 370千字, 2020.

[6] Zhou Hao*; Li Yawei; Zuo Yuhang; Zhou Mingxi*; Fang Wenfeng; Zhu Yifan; Thermal performance and thermal stress analysis of a 600 MWth solar cylinder external receiver, RENEWABLE ENERGY, 2021, 164:331-345.

[7] Zhou Mingxi, Zhou Hao*. Evaluation of granule structure and strength properties of green packed beds in iron ore sintering using high-resolution X-ray tomography and uniaxial compression testing. PARTICUOLOGY, 2021, 57:157-166.

[8] Zhou Mingxi; Zhou Hao*; Cheng Yi; Xing Yujian; Investigation on the combustion

behaviors of coke and biomass char in quasi-granule with CuO-CeO₂ catalysts in iron ore sintering, JOURNAL OF THE ENERGY INSTITUTE, 2020, 93(5): 1934-1941.

[9] Zhou Mingxi; Xu Jianuo; Zhou Hao*; Evaluating the permeability properties of green bed in iron ore sintering using high resolution X-ray computed tomography and orthogonal array tests, POWDER TECHNOLOGY, 2020, 375: 360-368.

[10] Zhou Mingxi; Zhou Hao*; Flame front propagation and sinter strength properties of permeable sintering bed prepared via enhanced granulation with hydrated lime, ASIA-PACIFIC JOURNAL OF CHEMICAL ENGINEERING, 2020, 16(2).

[11] Zhou Hao*, Liu Zihua, Fang Hao, Tao Chengfei, Zhou Mingxi*, Hu Liubin. Attenuation effects of perforated plates with heterogeneously distributed holes on combustion instability in a spray flame combustor. JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY, 2020, 34: 4865-4875.

[12] Zhou Mingxi, Zhou Hao*, Xu Jianuo, Xu Jianxiong. Experimental study on crushing strength and Young's modulus of granules in iron ore sintering using Taguchi method. PARTICUOLOGY, 2020, 53: 175-185.

[13] Zhou Mingxi, Zhou Hao*. Experimental investigation and numerical modeling of strength properties of iron ore sinter based on pilot-scale pot tests and X-ray computed tomography. JOURNAL OF MATERIALS RESEARCH AND TECHNOLOGY-JMR&T, 2020, 9: 13106-13117.

[14] Zhou Hao*, Zhou Mingxi, Ma Pengnan, Cheng Ming. Experimental investigation on the flame front resistance of gas channel growth with melt formation in iron ore sinter beds. PROCEEDINGS OF THE COMBUSTION INSTITUTE, 2019, 37: 4607-4615.

[15] Zhou Mingxi, Zhou Hao*, Ma Pengnan, Xu Jianuo. Effect of coke rate and basicity on computed tomography-measured pore parameters and effective thermal conductivity of iron ore sinter. JOURNAL OF MATERIALS RESEARCH AND TECHNOLOGY-JMR&T, 2019, 8: 6191-6201.

[16] Zhou Mingxi, Zhou Hao*, Honeyands Tom, O'dea Damien Paul, Ellis Benjamin George, Ma Pengnan, Li Yawei. Evaluation of compressive strength and shear strength of the adhering layer of granules in iron ore sintering. POWDER TECHNOLOGY, 2018, 338: 599-607.

[17] Zhou Hao*, Zhou Mingxi, Cheng Ming, Guo Xutao, Li Yawei, Ma Pengnan, Cen Kefa. High resolution X-ray microtomography for the characterization of pore structure and effective thermal conductivity of iron ore sinter. APPLIED THERMAL ENGINEERING, 2017, 127: 508-516.

[18] Zhou Hao*, Zhou Mingxi, Cheng Ming, Guo Wushuang, Cen Kefa. Experimental study and X-ray microtomography based CFD simulation for the characterization of pressure drop in sinter bed. APPLIED THERMAL ENGINEERING, 2017, 112: 811-819.

[19] Zhou Mingxi, Zhou Hao*, O'dea Damien Paul, Ellis Benjamin George, Honeyands Tom, Guo Xutao. Characterization of granule structure and packed bed properties of iron ore sinter feeds that contain concentrate. ISIJ International, 2017, 57: 1004-1011.

[20] Zhou Hao*, Zhou Mingxi, O'dea Damien Paul, Ellis Benjamin George, Chen Jianzhong, Cheng Ming. Influence of binder dosage on granule structure and packed bed properties in iron ore sintering process. ISIJ INTERNATIONAL, 2016, 56: 1920-1928.

[21] Zhou Hao*, Zhou Mingxi, Liu Zihao, Cheng Ming, Chen Jianzhong. Modeling NOx emission of coke combustion in iron ore sintering process and its experimental validation. FUEL,  2016, 179: 322-331.

[22] Zhou Hao*, Zhou Mingxi, Liu Zihao, Cheng Ming, Qiu Kunzan, Cen Kefa. Factors Controlling High-temperature Zone Resistance to Airflow during Iron Ore Sintering. ISIJ INTERNATIONAL, 2015, 55: 2556-2565.