1. 能源动力与环境
能源动力与环境致力于传统能源的清洁高效利用、污染排放治理和新能源的开发利用。能源既包括天然气、煤、石油等传统能源，也包括太阳能、风能、生物能等新能源，以及未来可能广泛应用的氢能等。
研究方向包括：高效清洁燃烧，低NOx燃烧技术，燃烧的污染控制；相变中的传热传质，超/近临界流体动力学与传热，微纳粒子动力学，复杂系统传热机制，新型热力学循环构建及其能源转换系统等。
Energy power and environment
Energy power and environment is devoted to clean and efficient utilization of traditional energy sources, their pollution emissions control, as well as the development and utilization of new energy.  Energy includes both traditional energy (e.g., natural gas, coal, oil) and the new energy such as solar, wind, biomass, and hydrogen, etc. 

Research interests: efficient clean combustion, low NOx combustion technology, combustion pollution control; Phase-change heat and mass transfer, super/near critical fluid dynamics and heat transfer, micro/nano particle dynamics, heat transfer mechanism of complex systems, construction of the new thermodynamic cycle and energy conversion systems.

2. 能源与资源生物技术
基于生物技术的能源、资源与环境方面的基础和应用研究，包括但不限于微生物（包括藻类）来源的能源与资源、微生物采油、微生物降解与环境工程、生物质能与生物质高级能源等
Biotechnology for Energy and Resources
Basic and applied researches in Biotechnology for Energy and Resources, including but not restricted to single-cell microbes (including algae) for biofuels and bioproducts, microbial enhanced oil recovery, microbe-based bioremediation, biomass and biomass-derived advanced energy

3. 环境与能源材料
致力于资源综合利用、新型能源转换与储存材料研究.研究方向包括：资源高效与循环利用、光催化/异相催化、太阳能电池、锂离子电池.
Environment and energy materials
Focus on the research about comprehensive utilization of resources，new energy conversion and storage materials. Research directions include: efficient and recycling of resources，photocatalytic / heterogeneous catalysis，solar cell, and lithium ion batteries.

4. 天然能源与环境
本研究方向采用数值模拟、实验、分子动力学等手段，结合现场调查，开展油气开发有关的基础研究。研究内容包括，油气生产数值模拟、储层特征精细解析、页岩气和天然气水合物等非常规油气生产技术研发、油气在储层中的性质及生产过程中的传热传质等。
Natural Energy and Environment
Fundamental studies for the exploitation of natural energy resources with numerical simulation, experiment, and molecular dynamics. Research interest includes oil & gas production simulation, reservoir characterization with state-of-the-art instruments, production technology R&D for unconventional (shale gas, gas hydrate, etc) energy resources, oil and gas properties in reservoir, mass and heat transfer in reservoir during production, etc. 

申请人一般情况下需要依托北京大学申请“国家千人计划”（含“青年千人”）。待遇按照国家千人计划和北京大学相关政策执行，需后续商谈。

联系方式：
有意申请者，请将简历发送至王习东教授邮箱，email: xidong@pku.edu.cn。
其他未尽事宜，请联系莫凡洋，email: fmo@pku.edu.cn。