找回密码
 立即注册
查看: 745|回复: 0

HEMET 2026氢能、电化学与现代能源工程技术国际会议启动,征稿活动火热进行 ...

[复制链接]

149

主题

46

回帖

596

积分

高级会员

积分
596
发表于 昨天 21:53 | 显示全部楼层 |阅读模式
来源:市场资讯
9 o( S* H( o! A& z( x3 B' L, R/ N3 h/ j(来源:CHC氢能大会)+ y% ^) ~: b+ g- N, p& U1 R1 \
在全球能源转型与低碳发展的背景下,氢能、电化学以及现代能源工程技术已成为当代能源与工程研究中最重要、发展最快的领域之一。HEMET 2026旨在汇聚来自世界各地的科研人员、工程师及产业专家,交流前沿科研成果,探讨创新技术解决方案,并推动相关领域的国际学术与技术合作。, S5 N/ `& X+ Q- \8 k6 ~$ v! d6 K
会议将设置大会主旨报告、口头报告和海报展示等多种形式,用以展示和讨论研究的最新进展,同时促进新的合作关系和联合研究项目的形成。9 f" y# `+ j  Z1 o9 m6 B8 `$ J
HEMET为今球研究人员和工程师提供了展示和探讨该领域最新研究成果的机会。会议将营造一个友好而富有成效的学术氛围,助力建立新的合作渠道与研究伙伴关系。
" r7 b9 t8 I0 C4 B% x会议信息" T  `5 o$ C: e6 P, k% I3 x
会议名称:氢能、电化学与现代能源工程技术国际会议
4 x+ |3 \7 [! {会议时间:2026年7月23日-24日
( D7 i8 E% Q3 ~0 s. g会议官网:https://www.ichemet.com0 s- R, N+ }# w: Q
会议地点:中国,杭州
0 E) G# j  E% e9 M6 Z截稿日期:2026年7月15日9 h9 ?* E9 j3 @6 y: @' q' N
出版:会议论文
: f3 C6 ]6 K: z+ M4 s检索:提交至EI Compendex、Scopus及其他重要国际检索数据库检索( _  k7 |+ U! Y! ^4 O6 X
征稿主题
) t3 F; d2 r2 I4 y: Y# eTrack 1: Thermal Processes and Energy Systems Engineering
3 R6 p: V$ n/ g& n- S0 \·Heat transfer and fluid flow in energy systems) a0 I: [0 q5 m5 f" A0 h" H& i
·Thermal system design, optimization, and control4 f. p. y$ m% {
·Energy efficiency improvement and thermal management
+ V! |+ [& C0 V& c  qTrack 2: Electrochemical Energy Conversion and Hydrogen Production6 X( h0 j0 c* E) i* \; E1 |
·Electrochemical system durability, degradation mechanisms, and accelerated testing
) |3 x8 A( ~2 w3 P. c6 F* s·Hydrogen production scale-up: from laboratory cells to industrial stacks" Z, `  ]5 k" k0 ]) q: G" {
·Engineering-oriented electrocatalyst and electrode integration
) I+ P8 A0 S- u' gTrack 3: Fuel Cells and Power Systems2 R8 S$ Z( ~# g
·Fuel cell materials, stack design, and manufacturing. p5 u0 f$ V1 j. e, e8 m
·System-level performance, control strategies, and diagnostics
# d, n5 I5 m( }3 T& w2 M7 A  `·Fuel cell hybrid systems (e.g., battery–fuel cell combinations)8 w3 D* J  n4 X1 u
Track 4: Advanced Combustion and Low-Carbon Fuels
& J& j  q: {  s" s# s·Hydrogen and hydrogen-blend combustion technologies
9 s3 {/ h6 F9 y7 Q* d' F, L3 v·Alternative fuels (ammonia, synthetic fuels, biofuels): combustion mechanisms and emissions
7 i) O/ U3 \1 S! V·High-temperature energy systems and materials
) L3 K5 K' i3 }, [2 DTrack 5: Energy Storage and Infrastructure4 g9 r# ^3 a, D& g6 r  x
·Hydrogen storage technologies7 s; B" i2 K/ }% e
·Energy storage systems integration with renewable sources
, y3 y6 n7 S7 m5 h$ l; b% }·Hydrogen transport, refueling stations, and infrastructure design
7 e' a4 Y# F& w  {  v6 b& c& M演讲嘉宾+ v7 B8 q! b3 V$ y$ G. x
Keynote Speaker) h: a# f. u# `- {& @# }  {
Prof. Dr. Mohan Lal Kolhe, University of Agder, Norway$ z+ d+ \9 Z+ @/ J
iB7m0v3aMax4AU4x.jpg Prof. Dr. Mohan Lal Kolhe is a full professor in smart grid and renewable energy at the Faculty of Engineering and SCIence of the University of Agder (Norway). He is a leading renewable energy technologist with three decades of academic experience at the international level and previously held academic positions at the world's prestigious universities, e.g., University College London (UK / Australia), University of Dundee (UK); University of Jyvaskyla (Finland); Hydrogen Research Institute, QC (Canada); etc. In addition, he was a member of the Government of South Australia’s first Renewable Energy Board (2009-2011) and worked on developing renewable energy policies.1 v) ^2 z; L- L2 X' j/ k
Professor Kolhe is an expert evaluator of many prestigious international research councils (e.g., European Commission: Erasmus+ Higher Education – International Capacity Building, Royal Society London (UK), Engineering and Physical Sciences Research Council (EPSRC UK), Cyprus Research Foundation, etc.). In addition, many international organizations have invited him to deliver keynote addresses, expert lectures, workshops, etc. He has also been a member of many academic promotional committees.
1 R0 p5 l2 d) P. K$ r6 T  e: aProfessor Kolhe has been successful in obtaining competitive research funding from prestigious research bodies (such as the Norwegian Research Council, EU, EPSRC, BBSRC, NRP, etc.) for his work on sustainable energy systems. His work on energy systems and electrical & electronic engineering has been recognised in the top 2% of scientists worldwide consistently from 2020 to 2023, according to Stanford University matrices based on Elsevier data. His top 10 publications have received an average of more than 200 citations each, making him an acknowledged pioneer in his profession on a global scale.
$ p$ u9 p( i, w2 \Prof. Zhao Meng, Hydrogen Eergy Research Institute of the National Graphene Alliance, China0 {& ^1 m. D5 o, \( y6 g& J
V671HYHKaghJ26aZ.jpg Zhao Meng, Han ethnicity, professor.
4 _: q- u8 O, y* s* f0 EBorn in Lianyungang, Jiangsu in 1964, graduated with a PhD in Materials Science from Victoria University in Canada in 1989.
1 G. c( D7 K/ M: x/ C; o' VHaving more than 10 graphene patents, he has authored books such as "Graphene Ignites the Industrial Revolution", "National Party and Government Cadres Graphene Industry Development Reader" (to be published by Hongqi Publishing House), "China Graphene Commercial Application Flagship Plan" (internal reading), "Reconstructing the Business Era" (published by Tsinghua University Press), etc. Actively promote the development of graphene industry in multiple provinces and cities, such as Shanghai, Jiangsu, Zhejiang, Henan, Beijing, Heilongjiang, Xinjiang, Sichuan, Anhui, Inner Mongolia, Shandong, Hainan, Jiangxi, etc., and create graphene characteristic towns such as graphene car town, graphene high-speed rail town, graphene aviation town, graphene ship town, graphene military equipment town, graphene new energy town, graphene bright town, graphene textile town, etc.* a3 w7 c- L2 S2 F
Academician Zhao Meng, with his decades of deep cultivation and accumulation in the field of hydrogen-ammonia-methanol multi-energy coupling, systematic technological breakthroughs, and full-chain industrial implementation capabilities, is promoting the deep integration of hydrogen, ammonia, and methanol, three types of zero-carbon fuels, with the modern energy system, giving birth to the "hydrogen-ammonia-methanol integration" as a national strategic track. Driving the zero-carbon revolution with hydrogen-ammonia-methanol multi-energy complementary technologies, providing full-scenario zero-carbon energy alternative solutions for transportation, industry, electricity, and other fields, and redefining the global benchmark for the zero-carbon energy industry." L/ P3 w  Q5 U
With six core technological systems including low-cost green hydrogen production technology, safe storage and efficient utilization technology of green ammonia, green methanol circular economy system, hydrogen-ammonia-methanol coordinated peak shaving and energy storage system, cross-fuel multi-scenario intelligent adaptation technology, and zero-carbon fuel full lifecycle carbon footprint control platform, targeting three core scenarios of industrial decarbonization, transportation substitution, and power grid peak shaving, a complete closed loop of "technology matrix + industrial ecology" is formed, directly addressing the three core pain points of the zero-carbon energy industry: "cost, safety, and implementation."
3 s1 P0 X# e0 Z" K- H1 |The industry defines it as a comprehensive upgrade from "three energy synergies" (hydrogen energy, ammonia energy, methanol energy) to "three kings coexistence" (green hydrogen as the "king of zero-carbon energy", green ammonia as the "king of long-term energy storage", and green methanol as the "king of circular utilization").0 k4 E) l% W6 @* F0 T
Invited Speaker
: _- o8 e) N' d) w5 z1 ADr. Li Bowen, Tianjin University, China
0 F2 m4 `  [, J8 S9 } DXj2M1mOJ2QA47nO.jpg Li Bowen is an Assistant Researcher at Tianjin University. He received his Ph.D. degree in Energy and Power Engineering from Tianjin University in June 2026. His research has long been focused on the intersection of energy systems and AI enhanced reinforcement learning, green hydrogen production from renewable electricity, and the application of hydrogen-based fuels. During his doctoral studies, he developed a source load reinforcement forecasting model coupled with a green hydrogen powered MW-class hydrogen engine power generation system, leveraging AI-driven deep learning to improve the robustness of system operation. He has participated in the National Natural Science Foundation of China (NSFC) International Cooperation and Exchange Project “Hydrogen-Electric Energy Storage Mechanisms and Robustness Enhancement Research in Standalone Renewable Energy Systems with Wind and Solar,” led by Professor Haifeng Liu’s research group at Tianjin University, as well as the Tianjin Science and Technology Plan Project “Key Technologies for Integrated Hydrogen Production and Refueling Stations Based on Wind-Solar Green Electricity.”
* N% X3 e, h* A. S! u5 a5 H; cHe has published high impact research outcomes in leading energy journals such as Energy and the Journal of Thermal Science. He served as the Chair of the Sub forum on Life Cycle Safety and Low Carbon Development of Energy Storage at the 2025 Qinghai Tibet Plateau Multi Energy Complementary Energy Storage Technology Conference, as the Secretary General of the 2st International Symposium on Advances in Engines and Fuels towards Zero-Carbon Emissions, and as the Convener of the Session on Frontier Advances in Comprehensive New Energy Safety Science and Technology at the 2026 2nd International Symposium on New Energy Safety Science and Technology.
$ ?" X! k$ J% i* _# [. b4 dAssoc. Prof. Husam I. Shaheen,Changsha University, China* a  q" |# p  |. G  V  }( \
qONssNzZWN1p91sW.jpg Dr. Husam I. Shaheen is an Associate Professor and Foreign Chief Expert at Changsha University, China, where he leads research at the Hunan Provincial Universities Key Laboratory of Energy Storage and Power System Cyber-Physical Control. He received his Ph.D. in Electrical Engineering from Huazhong University of Science and Technology, China, under the supervision of Academician Prof. Cheng Shijie.
  f2 ?& X: X6 @% A1 cWith over 17 years of combined teaching and research experience across China, Croatia, and Syria, Dr. Shaheen's research expertise spans model predictive control, heuristic and convex optimization, photovoltaic systems, power electronics, energy storage, and smart grid integration. He has served as Technical Manager for the European Union-funded SmartCityLight project, developing intelligent MPC algorithms for smart city lighting achieving energy savings and labor costs reduction. He has also led multiple nationally funded research projects on renewable energy integration, power system optimization, and GIS-based infrastructure management.
( d0 h. ^1 V' f& B5 d9 E* PDr. Shaheen has authored over 55 refereed journal and conference publications in leading IEEE and Elsevier journals, and holds two European patents on model predictive lighting control methods. His research on electric vehicle scheduling and microgrid energy management has been published in top-tier journals including IEEE Transactions on Industrial Electronics, Journal of Energy Storage, and Sustainable Energy Technologies and Assessments.* {+ v0 t) s% _7 {9 a
He serves as General Chair and TPC member for numerous international conferences and is an active reviewer for prestigious journals including IEEE Transactions on Power Electronics, IEEE Transactions on Industrial Electronics, and the International Journal of Electrical Power and Energy Systems. He has supervised Ph.D. and M.Sc. candidates in the areas of power system reliability, microgrid control, and renewable energy integration.
# p" _6 M, j0 G& M+ sDr. Shaheen's research focuses on advancing sustainable energy technologies through innovative control and optimization strategies for energy storage, grid integration, and renewable power systems.
5 e, s; S6 e: |# g- KDr. Yogeeswari Subramaniam, Universiti Teknologi Malaysia, Malaysia8 L/ ^8 u. ?8 y3 F, l
IZ9V2H3BhBV94mZL.jpg Dr. Yogeeswari Subramaniam is a Senior Lecturer at Universiti Teknologi Malaysia (UTM) specializing in Development Economics, Energy Economics, Environmental Economics, and Sustainable Development. She has published extensively in high-impact ISI and Scopus-indexed journals, with research focusing on food security, renewable energy, environmental sustainability, and economic development. Dr. Yogeeswari is an award-winning academic, researcher, and speaker who actively contributes to international conferences, academic workshops, and interdisciplinary research collaborations. She is also the author of several copyrighted academic modules and has received multiple international and national recognitions for excellence in research, innovation, and teaching.
2 W$ b/ m/ s% e0 G+ c5 b8 ^- I组委会
* J. c8 @2 H; W# GConference Chair
- B: M* M  j( {Assoc. Prof. Jiashen Teh, Universiti Sains Malaysia, Malaysia  v: f0 x1 U; E0 w8 U* v2 c
qXdDqZ9T6d25q9mW.jpg Assoc. Prof. Jiashen Teh obtained his first degree in Electrical and Electronic Engineering from the National Energy University (translated from Universiti Tenaga Nasional) in Selangor, Malaysia. He then completed his PhD at the University of Manchester, UK, where he worked on the dynamic ratings of transmission networks and the probabilistic modelling of power systems.
+ @& `. ^! h) \/ a) dSince 2016, he has been employed at Universiti Sains Malaysia (USM) within the Electrical Energy and Power Systems Group of the School of Electrical and Electronic Engineering. His research focuses on probabilistic modelling of power systems, with particular interests in smart grid components such as dynamic thermal rating (DTR) systems, demand-side management (DSM), renewable energy sources, energy storage systems, ICTs, and electric vehicles, as well as the application of algorithms for power flow optimization.
0 c- q- z: F  {: s* @3 ~! |He also lectures on subjects related to power system analysis, as well as basic probability and statistics. He has supervised four MSc and one PhD student to completion, and currently supervises five PhD students. He is the author or co-author of over 30 papers.
8 g0 g8 h$ p: _0 n- ZAssoc. Prof. Teh is a Member of the IET, a Member of the IEEE, a Chartered Engineer, and serves as advisor for the IET-USM On-Campus student branch.1 ^. K( ^6 |8 p2 H$ ~
Program Committee Chair4 ~9 y$ k& U1 p4 p9 z# d
Prof. Low Siew Chun, Universiti Sains Malaysia, Malaysia- t+ s1 X) a$ m& A! K& M9 `
JcnIN86554o4HTdf.jpg Prof. Low Siew Chun is a professor at the School of Chemical Engineering, Universiti Sains Malaysia, specializing in membrane-based separation technologies for environmental sustainability. Her research focuses on low-energy, cost-effective water recovery and resource extraction from industrial and aquaculture wastewater. A key emphasis of her work lies in transforming wastewater into valuable products, such as nutrient-rich liquid fertilizers, while achieving zero-waste discharge. With over 5000 citations and an h-index of 36 in google scholar, Prof. Low has led 16 funded projects, published extensively in high-impact journals, and collaborated internationally. Her innovations contribute significantly to circular economy practices, with direct environmental and socioeconomic impacts. Prof. Low’s contributions have positioned her as a thought leader in sustainable separation technologies, industry practices, and academic advancements in resource recovery.0 L, N7 l) a" L; ~2 `; p) O& `3 Q
Prof. Liang Tian, Xi'an Jiaotong University, China
( Q  B- @3 g* e, ` EhlV3jlvxN3zlxg2.jpg Professor Liang Tian, PhD Supervisor, Xi'an Jiaotong University Young Talent (Type A). 2010: B.Eng. in Materials Science and Engineering, Central South University. 2011: M.S. in Materials Science and Engineering, Iowa State University, USA.2012: M.S. in Engineering Mechanics, Iowa State University, USA.2015: Ph.D. in Materials Science and Engineering, Iowa State University / Ames National Laboratory, USA. From 2015, he conducted postdoctoral research at the University of Michigan, Ann Arbor, and Purdue University, USA. In 2020, he assumed a full-time position as a Senior Engineer in Permanent High-Performance Computing in the United States. His research has been positively featured by international authoritative media such as Advanced Science News, the U.S. Department of Energy, and phys.org. He has published papers in reputable journals (Matter, Acta Materialia, FlexMat, Small), independently developed two computational materials methodology software tools and participated in three U.S. Department of Energy research projects. He has served as the conference co-chairs for 4 times, the conference session co-chairs about 20 times, delivered 2 keynote talks and about 30 invited talks. His research focus on the conductive composite materials for cables at various length scales, conductive nanomaterials for flexible sensors, conductive electrodes for flexible batteries. He has won the prestigious international award Advanced Materials Scientist Medal from IAAM.+ D. n* M& F0 S/ v/ p& Y
Prof. Zhihua Wang, Zhejiang University, China
' T* C3 ~2 {! o% P5 P QvMxzbzx1vYv6ZVY.jpg Prof. Zhihua Wang is a Qiushi Distinguished Professor of Zhejiang University and vice director of the State Key Laboratory of Clean Energy Utilization. He was successfully awarded the Distinguished Young Scholars Fund (2021) and Excellent Youth Fund (2014) from the National Natural Science Foundation of China. Prof. Wang obtained his Ph.D. degree from Zhejiang University majoring in Engineering Thermophysics in 2005. His research interest covers clean and efficient combustion of coal and H2/NH3 zero-carbon fuels, laser diagnostic, and combustion emission control. He has co-authored more than 300 papers in peer-reviewed journals with a total citation of 16,000+ times, H Index 65 from Google Scholar. Top2 Scientist from ELSEVIER and Stanford University’s top 2% scientist list, “Single Year” and “Career Long” from 2021-2025. He has obtained the Second prize of the National Science and Technology Progress Award of China, the National Science and Technology Innovation Team Award, and holds more than 20 patents, including one Zhejiang Provincial Gold Patent.6 T. F2 m' f% D% h3 ]5 x+ L! B
Prof. Ping Xiang, Central South University, China
6 {1 k6 ?2 M, G, h4 ]3 | I54983Z8nZeI5355.jpg Dr. Xiang is a professor at Central South University, a doctoral supervisor, vice director, and an expert selected for Hunan Province's introduction of overseas high-level talent program. He completed his doctoral degree at the City University of Hong Kong in 2012 and served as a postdoctoral researcher and associate researcher at the City University of Hong Kong from 2012 to 2017.
# F& }* L3 M! H* |0 ~3 qHe has been the principal investigator for a National Natural Science Foundation of China project, and he has published over 120 research papers, including more than 100 SCI-indexed papers, several of which are highly cited (ESI), and multiple top-tier SCI papers. Dr. Xiang has been granted three patents and holds three software copyrights.
1 |4 _* P- x- |# O+ a* C# x& |As a representative of outstanding teachers at Central South University, he received a warm welcome from the Vice Chairman of the National Committee of the Chinese People's Political Consultative Conference. Dr. Xiang has also been invited to visit several international universities, including Swansea University and the University of Strathclyde in the UK, Kangwon National University in South Korea, and Dartmouth College.
$ U6 _0 X5 T$ V$ t: V" j5 MDr. Xiang's research interests encompass the dynamics of high-speed railway track-bridge systems, the safety of high-speed railway bridges under seismic actions, finite element methods in computational mechanics, meshless methods in computational mechanics, prefabricated construction, composite structures, computational micro-nanomechanics, and biomechanics.6 _) e8 I! b6 c; r, F& h9 m
Technical Program Committee Chair
' Z- Q! v2 p) Y, Y5 Q5 A6 X" WAsst. Prof. Chengsheng Yang, Nanjing University, China
2 `4 [( s2 g$ J d31DH213n3etmK55.jpg Dr. Chengsheng Yang is a Tenure-Track Assistant Professor and Principal Investigator at the School of Energy and Resources, Nanjing University. He received his Ph.D. in Chemical Technology from Tianjin University in 2021, and subsequently worked as a postdoctoral researcher in the Department of Chemistry at Fudan University from 2021 to 2024. His research focuses on intelligent catalytic systems for carbon neutrality, with particular interests in CO2 hydrogenation, C1 chemistry, and operando characterization of catalytic interfaces. He has published over 20 papers in leading journals including Nature Energy, Nature Communications, Journal of the American Chemical Society, and Angewandte Chemie International Edition.
9 ?7 |. {) H  FProf. Bo Zhang, Dalian University of Technology, China4 v& d  @1 Z6 Q8 P$ {+ t
H8fxzE58mx5PxXbv.jpg Dr. Bo Zhang, Professor and Ph.D. Supervisor, School of Energy and Power Engineering, Dalian University of Technology (DUT). He is the vice Dean of DUT Ningbo Research Institute and Director of the Key Laboratory of Complex Energy Conversion and Efficient Utilization, Liaoning Province.3 ~/ r/ \8 B; D- ]
Research Interests: High efficiency heat transfer, integrated optimization of energy systems, utilization of low grade waste heat. His principal research activities include thermal management and development of lightweight, high performance compact heat exchangers, and thermal management coupled with digital technologies for energy storage.5 \' U9 u6 U# F# N& @
Honors: Named “Outstanding Young Talent of the New Century” by the Ministry of Education (2012) and awarded the “Liaoning Provincial University Innovation Talent Program” (2016).
. N" V9 @) ^' Y: {参会方式
6 ]/ q; N; x. n, Q" f/ H8 I fwMZH2Rbai8k2Hpa.jpg 会议日程1 T6 k7 `7 t' H$ i* ^$ w
2026年7月23-24日
' r7 k7 ]' [! j3 H2 h1 H$ WAM
; y. ^7 ?) W: n( ~: b, Y/ U08:30-9:00签到入场/ J) C" y2 C! _: F0 u
09:00-9:05开幕式
/ _' b6 ~/ v1 I9 o: J6 y; l* m09:05-10:35主旨演讲5 e7 E: A+ H0 ~
10:35-11:50茶歇&合影3 D  w( Z, M, z
10:30-12:00特邀演讲
' e/ O. ~, n7 P9 r/ XNOON( M9 [% T' }4 h
12:00-13:00午餐
5 T1 N+ m. L4 x# PPM  n1 k5 i5 t4 R5 ?1 q
13:00-14:00主旨演讲$ R- |  ^% h5 i! n  T9 J. k1 B
14:00-15:00特邀演讲# m0 n( Y4 r! Y) Z" t
15:00-15:15茶歇
: N6 Z# n2 B8 k+ G7 Y) f15:15-17:00作者演讲
! \5 M4 g9 X, ^" y联系方式+ c6 H1 H2 L' W
会议秘书:Seren
( [7 N% P/ v+ M# S; g9 G  V电话同微信:186244010525 Z$ r. |3 H! @- N
邮箱:submissionmission@ichemet.com
集群智慧云科服专利申请服务
您需要登录后才可以回帖 登录 | 立即注册

本版积分规则


快速回复 返回顶部 返回列表