Search Results - "Fu, Ruicheng"

7α and 7β Hydroxylation of Dehydroepiandrosterone by Gibberella sp. and Absidia Coerulea Biotransformation by Ming Song, Ruicheng Fu, Sulan Cai, Xuliang Jiang, Fuju Wang, Weizhuo Xu, Wei Xu

“…The hydroxylation of dehydroepiandrosterone (DHEA) to 7α -hydroxy-5-androstene-17-one (7α-OH-DHEA) and 7β-hydroxy-5-androstene-17-one (7β-OH-DHEA) by…”
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Peering into the mechanisms of granulation and CO2 capture on alginate-assisted Li2CaSiO4-decorated Li4SiO4 sorbents by Fu, Ruicheng, Hu, Yingchao, Wang, Wenxia

“…[Display omitted] •Granulation and performance enhancement were simultaneously realized via a novel alginate-assisted route.•The granulation mechanism of…”
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One-step synthesis of porous Li4SiO4 pellets by polyvinyl alcohol (PVA) method for CO2 capture by Fu, Ruicheng, Yu, Ge, Cheng, Junna, Hu, Yingchao, Yan, Shuiping

“…[Display omitted] •Porous spherical Li4SiO4 pellets were fabricated via a novel polyvinyl alcohol (PVA) method.•The obtained pellets exhibited high CO2…”
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Organolithium-derived alkali-doped highly durable Li4SiO4 heat carrier for solar thermochemical energy storage by Fu, Ruicheng, Hu, Yingchao, Wang, Jinghao, Yu, Ge, Yan, Shuiping

“…Thermochemical energy storage (TCES) technology plays a vital role in utilizing solar energy to produce electricity. However, traditional TCES technologies…”
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Al-doped Li4SiO4 for cyclic solar energy storage and CO2 capture: An experimental and DFT study by Fu, Ruicheng, Xu, Bin, Yi, Jianchen, Hu, Yingchao

“…[Display omitted] •Al-doped Li4SiO4-based pellets were firstly fabricated, and the cyclic energy storage and CO2 capture performance was systematically…”
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From low-cost mineral to high-performance Li4SiO4 for solar energy storage and CO2 capture by Yi, Jianchen, Fu, Ruicheng, Wei, Yuan, Hu, Yingchao

“…•Li4SiO4 was prepared with low-cost diatomite as silicon sources.•Li4SiO4 derived from diatomite exhibited satisfactory density/capacity and stability.•Formed…”
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Fabrication of CaO pellets via polyvinyl alcohol (PVA) method for efficient CO2 capture and solar energy storage by Xu, Bin, Fu, Ruicheng, Liu, Yujie, Hu, Yingchao

“…•Porous CaO-based spherical pellets were prepared via indirect and direct polyvinyl alcohol (PVA) method.•Energy storage property as well as CO2 capacity was…”
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Incorporation of CaZrO3 into calcium-based heat carriers for efficient solar thermochemical energy storage by Feng, Qiannian, Hu, Yingchao, Liu, Ding, Fu, Ruicheng

“…Calcium-based materials (CaCO3/CaO) have shown significant potential for use in thermochemical energy storage systems for concentrated solar power generation…”
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Steam reactivation of spent CaO/CaCO3 for thermochemical energy storage by Hu, Yingchao, Chen, Yingjie, Fu, Ruicheng, Yan, Shuiping, Li, Hailong

“…•Steam hydration effectively improved the microstructures of spent CaO.•Hydrated calcium materials showed greatly enhanced energy storage density.•Decayed…”
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Scalable synthesis of Li4SiO4 sorbent from novel low-cost orthoclase mineral for CO2 capture by Hu, Yingchao, Fu, Ruicheng, Yu, Ge, Cao, Jixue, Huang, Jingchun

“…•Direct synthesis of Li4SiO4 sorbents from orthoclase is proposed for CO2 capture.•The new Li4SiO4 sorbent shows enhanced CO2 sorption rate and cyclic…”
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Decorating CaO with dark Ca2MnO4 for direct solar thermal conversion and stable thermochemical energy storage by Hu, Yingchao, He, Weizhen, Cao, Jixue, Cheng, Guang, Fu, Ruicheng, Huang, Long

“…Calcium looping (CaL) process, a thermochemical energy storage technique, probably offers a mid-term if not near-term solution to the next generation…”
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Synthesis of spherical CaO pellets incorporated with Mg, Y, and Ce inert carriers for CO2 capture by Liu, Ding, Hu, Yingchao, Feng, Qiannian, Fu, Ruicheng

“…Sintering and elutriation are two main problems of the calcium looping process for high-temperature CO 2 capture. In the process of CO 2 capture, the operation…”
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Synthesis of dark Li4−3xFexSiO4 for simultaneous direct solar thermal conversion and durable thermochemical energy storage by Fu, Ruicheng, Huang, Jingchun, Feng, Qiannian, Liu, Ding, Hu, Yingchao

“…Thermochemical energy storage (TCES) technique based on Li4SiO4 looping system probably offers a mid-term if not near-term solution to the next generation…”
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Synthesis of spherical CaO pellets incorporated with Mg, Y, and Ce inert carriers for CO 2 capture by Liu, Ding, Hu, Yingchao, Feng, Qiannian, Fu, Ruicheng

“…Sintering and elutriation are two main problems of the calcium looping process for high-temperature CO capture. In the process of CO capture, the operation…”
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燃煤烟气CO2吸附剂造粒成型技术研究进展 by 于戈, 付瑞诚, 李敏, 赵瀛, 胡迎超

“…X701; 燃煤烟气排放的碳源被认为是全球CO2浓度快速上升的主要因素之一,为应对以CO2为主的温室气体大量排放所带来的气候环境问题,世界各国纷纷将低碳发展上升为国家战略.高温CO2捕集技术一直是碳减排领域的研究重点,CaO基和Li4…”
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