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Downloadable (with restrictions)! Thermal energy storage is important for energy saving and social developing. Low-cost, high thermal conductivity, form-stable composite phase change materials are urgent in energy storage and management. In this work, a novel carbonized wood-based composite phase change materials (TDCW) are fabricated by
HY Energy Group Co.,Ltd, formerly ZHEJIANG HAIYUE CO., LTD, is a China-based company, principally engaged in the production of propylene, iso-octane and Methyl Ethyl Ketone, and the storage, wholesale and retailing of naphtha and diesel oil and liquefied gas. The Company is also engaged in commodities distribution, road toll collection and
Thermal energy storage technology can shift the peak and fill the valley of heat,which lays the foundation for realizing the goal of "emission peak and carbon neutrality".Among various thermal
Form-stable composite phase change materials, as thermal energy storage technology, show great promise for reducing energy consumption and relieving current energy
The composite owns photoluminescent, photothermic and energy storage property (heat latent of 137.6 J/g), which is environmentally friendly, green and creative. The all-new technique for functional wood composite shows potential for application in energy-saving and optical devices.
Downloadable (with restrictions)! Phase change materials (PCMs) in the thermal storage of construction can reduce energy waste by shrinking the diurnal daily temperature changes inside. The thermal energy storage (TES) wood-plastic composites (WPC) are manufactured by employing expanded perlite (EP) stabilized PEG as PCM and wood
Composite phase change materials with good reversible thermochromic ability in delignified wood substrate for thermal energy storage. Haiyue Yang, Yazhou Wang, Qianqian Yu, Guoliang Cao, Rue Yang, Jiaona Ke, Xin Di, Feng Liu, Wenbo Zhang and Chengyu Wang. Applied Energy, 2018, vol. 212, issue C, 455-464 . Abstract: Phase change materials
Formaldehyde (FA) is a widespread indoor air pollutant, and its efficient detection is a major industrial challenge. The development of a building material with real-time and visual self-detection of FA gas is highly desirable for meeting both construction and human health demands. Herein, a luminescent transparent wood (LTW) as the building material was
Nanofiber Films for Solar Energy Storage Li Niu,a Xu Li,a Yikun Zhang,a Haiyue Yang,a Jacko Feng,b Zhiming Liua,* a College of Material Science and Engineering, Northeast Forestry University, Harbin, 150040, P. R. China b AEMG Academy, Melbourne, 3127, Australia Corresponding Author, E-mail: zhimingliu@nefu .cn Number of pages:5
Corpus ID: 214161811. Wood-based composite phase change materials with self-cleaning superhydrophobic surface for thermal energy storage. Haiyue Yang,
Characterization of the thermal energy regulation performance shows that the prepared TW-TES composite is superior to normal glass because of the combination of good heat-storage and thermal insulation properties, which makes TW- TES composites interesting candidates for applications in energy-saving buildings.
High efficient energy storage devices for both thermal energy and light energy are scarce in the development of modern society to reduce energy consumption. In this work, a novel self-luminous wood composite based on phase change materials (PCMs) with superior thermal energy storage and long afterglow luminescence (LAL) materials with excellent
Biography Haiyue Yu received the B.S. degree in electrical engineering from Shandong University, Jinan, China, in 2020. He is currently pursuing the Ph.D. degree in electrical engineering from Zhejiang University, Hangzhou, China.
Functional materials for solar energy collection, conversion, and storage need to be developed to address the global energy crisis. In this study, phase-change nanofiber films [PCNFs, sodium lignosulfonate (SLS)/polyvinyl alcohol (PVA)/polyethylene glycol (PEG)], which maintain their shape, were developed for solar-to-thermal energy
DOI: 10.1016/j.apenergy.2019.114481 Corpus ID: 214161811; Wood-based composite phase change materials with self-cleaning superhydrophobic surface for thermal energy storage @article{Yang2020WoodbasedCP, title={Wood-based composite phase change materials with self-cleaning superhydrophobic surface for thermal energy storage},
Fluorescent thermochromic wood-based composite phase change materials based on aggregation-induced emission carbon dots for visual solar-thermal energy conversion
Downloadable (with restrictions)! Diatomite-based composite phase change materials (PCMs) with enhanced properties were prepared by vacuum impregnation method for thermal energy storage. Diatomite is used as a supporting matrix in composite PCMs due to its natural high porosity and relatively low price. Particularly, diatomite after microwave
Low-cost, three-dimension, high thermal conductivity, carbonized wood-based composite phase change materials for thermal energy storage. Haiyue Yang, Yazhou Wang, Qianqian Yu, Guoliang Cao, Xiaohan Sun, Rue Yang, Qiong Zhang, Feng Liu, Xin Di, Jian Li, Chengyu Wang and Guoliang Li. Energy, 2018, vol. 159, issue C, 929-936 . Abstract:
Haiyue Yang, Yushan Liu, Jian Li, Chengyu Wang, Yudong Li The composite owns photoluminescent, photothermic and energy storage property (heat latent of 137.6 J/g), which is environmentally friendly, green and creative. The all-new technique for functional wood composite shows potential for application in energy-saving and optical devices.
Downloadable (with restrictions)! Form-stable composite phase change materials, as thermal energy storage technology, show great promise for reducing energy consumption and relieving current energy shortage problems. However, porous supporting materials and most phase change materials are hydrophilic and hygroscopic, which cause crack-formation at
Introduction. Solar energy is considered as the most prospective and plenteous renewable energy resource on the earth. The efficient conversion and storage of solar energy are significant for improvement of the energy utilization and the realization of sustainable development[1], [2], [3], [4].
These results indicate that the composites exhibit high energy storage capacity, excellent thermal reliability after 100 heating-cooling cycles, good thermal stability below 112 °C and outstanding shape stability. More importantly, introducing Fe 3 O 4 nanoparticles endows the composites with a magnetic property and. Declaration of
We have more 30 types of cells, and could make OEM battery pack from 12V-200V, 10-200ah, which can be used in electric vehicle, E-bike, UPS, energy storage HAIYUE is a professional manufacturer engaging in research, development, production, marketing and service of lithium ion pouch battery cell, battery pack and battery management system.
Downloadable (with restrictions)! Phase change materials applied in the thermal insulation of building or storage system are beneficial to slow down internal temperature fluctuation and decrease energy consumption. Visible temperature change can provide convenience for people''s production and life. In this work, the thermochromic delignified wood composite
The excellent reversible thermochromic, thermal and mechanical properties of TCDWs have great potential in thermal energy storage applications
Haiyue Yang, Yushan Liu, Jian Li, Chengyu Wang, Yudong Li. Article 126406 View PDF. Ultra-highly stable zinc metal anode via 3D-printed g-C 3 N 4 modulating interface for long life energy storage systems. Penggao Liu, Zeyi Zhang, Rui Hao, Yanping Huang, Kaiyu Liu. Article 126425
Haiyue does research in Materials Chemistry, Chemical Thermodynamics and Thermochemistry. Therefore, thermal energy storage is one of the solutions that lead to saving of fossil fuels and make
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Haiyue Yang, Weixiang Chao, Siyuan Wang, Qianqian Yu, Guoliang Cao, Tinghan Yang, Feng Liu, Xin Di, Jian Li, Chengyu Wang, Guoliang Li. Self-luminous wood composite for both thermal and light energy storage. Energy Storage Materials, 2019, 18, 15-22. (IF= 20.831) 2. Haiyue Yang, Yushan Liu, Jian Li, Chengyu Wang, Yudong Li. Full-wood
Form-stable composite phase change materials, as thermal energy storage technology, show great promise for reducing energy consumption and relieving current energy shortage problems. However, porous supporting materials and most phase change materials are hydrophilic and hygroscopic, which cause crack-formation at the interfaces between
The composite owns photoluminescent, photothermic and energy storage property (heat latent of 137.6 J/g), which is environmentally friendly, green and creative. The all-new technique for functional wood composite
Wood-based composite phase change materials (PCMs) have considerable development potential in shape-stable thermal energy storage. However, Wood-based composite PCMs possess inflammability due to wood-based supporting materials and organic PCM, which limits its practical application. In this work, a novel strategy of wood-based composite
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