Meng qingqiang energy storage

High-efficiency Fe-Mediated Bi2MoO6 nitrogen-fixing

Rapid carrier transport and efficient surface reactions are key factors for improving photocatalytic nitrogen fixation. Herein, an efficient Bi2MoO6 nitrogen-fixing photocatalyst was obtained using Fe-mediation. The Fe-doping induced surface work function reduction would boost the charge transport to the surface of catalyst. Besides that, the Fe-doping can also improve the charge

Efficient and Clean Energy (He, H2) in the Bohai Bay Basin

Wei, Yongbo and Liu, Quanyou and Zhu, Dongya and Meng, Qingqiang and Xu, Huiyuan and Zhang, Wang and Wu, Xiaoqi and Li, Pengpeng and Huang, Xiaowei and Mou, Yicheng and Jin, Zhijun, Efficient and Clean Energy (He, H2) in the Bohai Bay Basin, China: Occurrence Characteristics, Reserves, and Exploration Prospects.

High-efficiency Fe-Mediated Bi2MoO6 nitrogen-fixing

Author links open overlay panel Qingqiang Meng a, Chade Lv a, Jingxue Sun a, Weizhao Hong a, Weinan Xing b, Liangsheng Qiang a, Gang Chen a, Xiaoli Jin a. Show more. Add to Mendeley. Efficient solar energy harvesting and storage through a robust photocatalyst driving reversible redox reactions. Adv. Mater., 30 (2018), Article 1802294.

Carbon capture and storage for long-term and safe sealing with

Downloadable (with restrictions)! Carbon capture and storage for long-term sealing is one of the most promising approaches to mitigate global climate change. However, maximum capture amount and long-term safety of carbon dioxide storage in geological scenarios must be ensured. A case of a natural CO2 storage analog of the Huangqiao CO2-oil reservoir in the northern

Effects of Deep Fluids on Hydrocarbon Generation and

Qingqiang MENG. State Key Laboratory of Shale Oil and Gas Enrichment Mechanisms and Effective Development, Beijing 100083, China. Petroleum Exploration and Production Research Institute of SINOPEC, Beijing 100083, China. Search for more papers by this author. Wenxuan HU,

The Department of Electrical Engineering and Applied Electronics

On July 27th, the Department of Electrical Engineering and Applied Electronics of Tsinghua University and State Grid Hunan Electric Power Co., Ltd. signed a letter of intent for cooperation. The two parties will carry out a series of in-depth developments in the fields of key technologies for new power systems, development and application of digital energy storage

Research and Application of AGC Control Method for Energy

For the grid-connected new energy and energy storage power stations with voltage levels of 110kV and below, this paper proposes an ACE allocation method that uses cloud data to

A Multi-type Energy Storage Control Strategy for

A hybrid energy storage system (HESS) consisting of battery and super capacitor is developed to mitigate wind power fluctuation and realize smooth integration of wind power. Meng Qingqiang; Li

Catalytic Hydrogenation of Post-Mature Hydrocarbon Source

Meng Qingqiang, Meng Qingqiang, Zhu Dongya, Zhu Dongya, Liu Jiayi, Liu Jiayi, Liu Jinzhong; Affiliations Huang Xiaowei School of Energy Resources, China University of Geosciences, Beijing, China Huang Xiaowei State Key Laboratory of Shale Oil and Gas Enrichment Mechanisms and Effective Development, SINOPEC, Beijing, China Institute of

Carbon capture and storage for long-term and safe sealing with

The geological storage of carbon dioxide (CO2) represents a promising strategy for mitigating climate change by securely sequestering CO2 emissions. This review article

Construction of Large‐Scale Ultrathin Graphitic Carbon Nitride

Two-dimensional nanosheets have attracted attention because of their fascinating properties in areas such as photocatalysis, sensors, and energy storage. Herein, a facile hydrogen-bond

Xing Weinan; Li Chunmei; Wang Yu*; Han Zhonghui; Hu Yidong; Chen Dahong; Meng Qingqiang; Chen Gang*; A novel 2D/2D carbonized poly-(furfural alcohol)/g-C3N4 nanocomposites with enhanced charge carrier separation for photocatalytic H2 evolution, Carbon, 2017, 115: 486-492.

Geological background and exploration prospects for the

MENG Qingqiang, SUN Yuhua, TONG Jianyu, et al. Distribution and geochemical characteristics of hydrogen in natural gas from the Jiyang Depression, Eastern China[J]. Acta Geologica

Session 15: Natural hydrogen: New geological energy

Session 15: Natural hydrogen: New geological energy. Co-Conveners: HAN Shuangbiao(China University of Mining and Technology, China); HORSFIELD Brian (GEOS4, Germany); PRINZHOFER Alain (GEO4U, Brazil); WAITE David (The University of New South Wales, Australia), HU Qinhong (China University of Petroleum, China); MENG Qingqiang

Distribution and Geochemical Characteristics of

DOI: 10.1111/1755-6724.12568 Corpus ID: 131703095; Distribution and Geochemical Characteristics of Hydrogen in Natural Gas from the Jiyang Depression, Eastern China @article{Qingqiang2015DistributionAG, title={Distribution and Geochemical Characteristics of Hydrogen in Natural Gas from the Jiyang Depression, Eastern China}, author={Meng

Phosphorus-modified porous carbon aerogel microspheres as

Supercapacitor is a potential energy storage device that has been used in various fields like automotive industries, energy harvesting and grid stabilization system due to its unique feature in terms of power density, life cycle, operating temperature range, charge/discharge period, and specific capacitance.

Abstract: Gas of hydrogen is combustible and has been regarded as one of the important form of clean energy. With the increasing environmental concerns caused by the continues and high dependence on fossil fuels, more attention is being paid to the research on hydrogen exploration. MENG Qingqiang, SUN Yuhua, TONG Jianyu, et al. Distribution

Carbon capture and storage for long-term and safe sealing with

DOI: 10.1016/j.rser.2022.113000 Corpus ID: 253288519; Carbon capture and storage for long-term and safe sealing with constrained natural CO2 analogs @article{Liu2023CarbonCA, title={Carbon capture and storage for long-term and safe sealing with constrained natural CO2 analogs}, author={Quanyou Liu and Dongya Zhu and Zhijun Jin and

meng qingqiang energy storage

The phase change latent is up to 225.7 J/g, achieving high energy storage density. After the 30th thermal cycles, the phase change latent can maintain 97.11%, showing outstanding cycle stability. Meanwhile, due to the structural stability of a large-flake graphene aerogel, the original shape can be well maintained without the leakage during

‪Qiongqiong Lu ()‬

Energy Storage Materials, 2022. 86: 2022: A robust thermoelectric module based on MgAgSb/Mg 3 (Sb, Bi) 2 with a conversion efficiency of 8.5% and a maximum cooling of 72 K F Xu, C Qu, Q Lu, J Meng, X Zhang, X Xu, Y Qiu, B Ding, J Yang, F Cao, Science Advances, 2022. 71: 2022: Freestanding strontium vanadate/carbon nanotube films for

Geological background and exploration prospects for the

Gas of hydrogen is combustible and has been regarded as one of the important form of clean energy. With the increasing environmental concerns caused by the continues and high dependence on fossil fuels, more attention is being paid to the research on hydrogen exploration. However, only limited understanding about the geological, genetic as well as distribution

Acta Geologica Sinica

MENG Qingqiang, male, born in 1978, is a senior engineer from the Petroleum Exploration and Exploitation Research Institute, Sinopec. He now directs the National Scientific Funding of China (41102075), and also participates in the Key National Scientific Funding of China (41230312). His research interests include natural gas geochemistry and

Meng Qingqiang''s research works | China Petroleum and

Meng Qingqiang''s research while affiliated with China Petroleum and Chemical Corporation and other places. the transporation effect of the thermal energy by mantle-derived fluid, this paper

Microwave-combined advanced oxidation for organic pollutants in

Qingqiang Meng. Qingqiang Meng. oxide nanostructured catalysts have emerged as potential candidates for efficient energy conversion and electrochemical energy storage devices. However

Qingqiang MENG | Bacis Geology and experiment | Research profile

Carbon capture and storage for long-term sealing is one of the most promising approaches to mitigate global climate change. However, maximum capture amount and long-term safety of

Catalytic Hydrogenation of Post-Mature Hydrocarbon

Huang Xiaowei1,2, Jin Zhijun 34*, Liu Quanyou *, Meng Qingqiang2,3, Zhu Dongya2,3, Liu Jiayi 2,3 and Liu Jinzhong 5 1 School of Energy Resources, China University of Geosciences, Beijing, China

Research and Application of AGC Control Method for Energy Storage

Energy Storage Science and Technology, 2022, 11(05): 1475-1481. Google Scholar MENG Qingqiang, LI Xiangqi, YU Haifeng, Optimal Planning of Energy Storage Power Station Considering Source-charge Uncetainty[J]. Acta Energiae Solaris Sinica, 2021, 42(10): 415-423. Google Scholar

High-pressure hydrogen adsorption in clay minerals: Insights on

Transitioning toward a hydrogen (H2)-centric energy paradigm necessitates understanding the adsorption properties of clay minerals, essential constituents of reservoirs

Construction of Large‐Scale Ultrathin Graphitic Carbon Nitride

Qingqiang Meng. MIIT Key Laboratory of Critical Materials Technology for New Energy Conversion and Storage, School of Chemistry and Chemical Engineering, Harbin Institute of Technology, 92 West Dazhi Street, Nan Gang District, Harbin, P.R. China and energy storage. Herein, a facile hydrogen-bond-assisted approach was designed to prepare

High-pressure hydrogen adsorption in clay minerals: Insights on

DOI: 10.1016/j.fuel.2023.127919 Corpus ID: 257684077; High-pressure hydrogen adsorption in clay minerals: Insights on natural hydrogen exploration @article{Wang2023HighpressureHA, title={High-pressure hydrogen adsorption in clay minerals: Insights on natural hydrogen exploration}, author={Lu Wang and Jiewei Cheng and Zhijun Jin and Qiang Sun and Ruqiang

High-pressure hydrogen adsorption in clay minerals: Insights on

Underground hydrogen storage (UHS) in shale reservoirs is a potential option for large-scale and long-term storage of H 2. In this work, we used Grand Canonical Monte