期刊文献+
共找到6篇文章
< 1 >
每页显示 20 50 100
THE SUPPORTED GOLD CATALYSTS FOR CLOSED CYCLE CO_2 LASER
1
作者 Zheng Ping HAO Li Dun AN Hong Li WANG (Lanxhou Institute of Chemical Physics, Chinese Academy of Sciences, Lanzhou 730000) 《Chinese Chemical Letters》 SCIE CAS CSCD 1995年第5期447-448,共2页
Sealed-off carbon dioxide lasers encounter problem of dissociation of CO2, Which causes the output power to fall. Reformation of CO2 is therefore essential for long life CO2 lasers. Au/Fe2O3 and Au/NiFe2O4 are promis... Sealed-off carbon dioxide lasers encounter problem of dissociation of CO2, Which causes the output power to fall. Reformation of CO2 is therefore essential for long life CO2 lasers. Au/Fe2O3 and Au/NiFe2O4 are promising candidates for this application. 展开更多
关键词 CO THE SUPPORTED GOLD CATALYSTS FOR closed cycle CO2 LASER
下载PDF
Simulation Modelling and Techno-Economics of Supercritical Carbon Dioxide Recompression Closed Brayton Cycle
2
作者 Ken Amaale Atinga 《Energy and Power Engineering》 2024年第10期325-344,共20页
In recent years, there has been global interest in meeting targets relating to energy affordability and security while taking into account greenhouse gas emissions. This has heightened major interest in potential inve... In recent years, there has been global interest in meeting targets relating to energy affordability and security while taking into account greenhouse gas emissions. This has heightened major interest in potential investigations into the use of supercritical carbon dioxide (sCO2) power cycles. Climate change mitigation is the ultimate driver for this increased interest;other relevant issues include the potential for high cycle efficiency and a circular economy. In this study, a 25 MWe recompression closed Brayton cycle (RCBC) has been assessed, and sCO2 has been proposed as the working fluid for the power plant. The methodology used in this research work comprises thermodynamic and techno-economic analysis for the prospective commercialization of this sCO2 power cycle. An evaluated estimation of capital expenditure, operational expenditure, and cost of electricity has been considered in this study. The ASPEN Plus simulation results have been compared with theoretical and mathematical calculations to assess the performance of the compressors, turbine, and heat exchangers. The results thus reveal that the cycle efficiency for this prospective sCO2 recompression closed Brayton cycle increases (39% - 53.6%) as the temperature progressively increases from 550˚C to 900˚C. Data from the Aspen simulation model was used to aid the cost function calculations to estimate the total capital investment cost of the plant. Also, the techno-economic results have shown less cost for purchasing equipment due to fewer components being required for the cycle configuration as compared to the conventional steam power plant. 展开更多
关键词 Supercritical Carbon Dioxide (sCO2) closed Brayton cycle TECHNO-ECONOMICS Simulation Capital Expenditure Gas Turbine THERMODYNAMIC Equipment Cost Optimization and Sensitivity
下载PDF
Dynamic simulation of a space gas-cooled reactor power system with a closed Brayton cycle 被引量:2
3
作者 Chenglong WANG Ran ZHANG +4 位作者 Kailun GUO Dalin ZHANG Wenxi TIAN Suizheng QIU Guanghui SU 《Frontiers in Energy》 SCIE CSCD 2021年第4期916-929,共14页
Space nuclear reactor power(SNRP)using a gas-cooled reactor(GCR)and a closed Brayton cycle(CBC)is the ideal choice for future high-power space missions.To investigate the safety characteristics and develop the control... Space nuclear reactor power(SNRP)using a gas-cooled reactor(GCR)and a closed Brayton cycle(CBC)is the ideal choice for future high-power space missions.To investigate the safety characteristics and develop the control strategies for gas-cooled SNRP,transient models for GCR,energy conversion unit,pipes,heat exchangers,pump and heat pipe radiator are established and a system analysis code is developed in this paper.Then,analyses of several operation conditions are performed using this code.In full-power steady-state operation,the core hot spot of 1293 K occurs near the upper part of the core.If 0.4$reactivity is introduced into the core,the maximum temperature that the fuel can reach is 2059 K,which is 914 K lower than the fuel melting point.The system finally has the ability to achieve a new steady-state with a higher reactor power.When the GCR is shut down in an emergency,the residual heat of the reactor can be removed through the conduction of the core and radiation heat transfer.The results indicate that the designed GCR is inherently safe owing to its negative reactivity feedback and passive decay heat removal.This paper may provide valuable references for safety design and analysis of the gas-cooled SNRP coupled with CBC. 展开更多
关键词 gas-cooled space nuclear reactor power closed Brayton cycle system startup and shutdown positive reactivity insertion accident
原文传递
Preliminary Design Study on Concentrated Solar Power PVRs to Operate with RCBC
4
作者 Ramon Ferreiro Garcia Manuel Romero Gomezt +1 位作者 Alberto DeMiguel Catoira Javier Romero Gomez 《Journal of Energy and Power Engineering》 2013年第1期88-95,共8页
Parabolic through concentrators and parabolic dish concentrators followed by a PVR (pressurized volumetric receiver) are proposed, studying the performance behavior of a RCBC (regenerative closed Brayton cycle) op... Parabolic through concentrators and parabolic dish concentrators followed by a PVR (pressurized volumetric receiver) are proposed, studying the performance behavior of a RCBC (regenerative closed Brayton cycle) operating with helium or hydrogen. A pressurized gas such as helium circulates along the volumetric receiver, capturing the concentrated thermal solar energy to be further converted into electric power via a thermal cycle. The overall efficiency of the plant has been computed under variable parameters to determine the operating conditions for which efficiency and specific power are acceptable. As consequence of the proposed analysis, it is concluded that direct coupling between volumetric receivers and thermal engines renders high efficiency while avoiding an intermediate heat transfer medium. 展开更多
关键词 closed Brayton cycle concentrated solar power parabolic dish parabolic through volumetric receiver thermal efficiency working fluid.
下载PDF
Comment: Closing phosphorus cycle from natural waters: re-capturing phosphorus through an integrated water-energy-food strategy
5
作者 Gang Pan Tao Lyu Robert Mortimer 《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2018年第3期375-376,共2页
Phosphorus (P) reserve, largely derived from phosphate rock, is essential for crop growth to support the growing world population. However, a significant proportion of phosphorus used as a fertilizer runs into natur... Phosphorus (P) reserve, largely derived from phosphate rock, is essential for crop growth to support the growing world population. However, a significant proportion of phosphorus used as a fertilizer runs into natural waters, causing eutro- phication and ecological damage. Moreover, most P in the food is eventually discharged as waste after being digested by human and animals. Thus, industrial activities have created a one-way flow of non-renewable P from rocks to farms to lakes, rivers and oceans. 展开更多
关键词 WEF Closing phosphorus cycle from natural waters:re-capturing phosphorus through an integrated water-energy-food strategy COMMENT cycle
原文传递
A concept to support the transformation from a linear to circular carbon economy:net zero emissions,resource efficiency and conservation through a coupling of the energy,chemical and waste management sectors 被引量:2
6
作者 Roh Pin Lee Florian Keller Bernd Meyer 《Clean Energy》 EI 2017年第1期102-113,共12页
Coal and carbon-containing waste are valuable primary and secondary carbon carriers.In the current dominant linear economy,such carbon resources are generally combusted to produce electricity and heat and as a way to ... Coal and carbon-containing waste are valuable primary and secondary carbon carriers.In the current dominant linear economy,such carbon resources are generally combusted to produce electricity and heat and as a way to resolve a nation’s waste issue.Not only is this a wastage of precious carbon resources,which can be chemically utilized as raw materials for production of other value-added goods,it is also contrary to international efforts to reduce carbon emissions and increase resource efficiency and conservation.This article presents a concept to support the transformation from a linear‘one-way cradle to grave manufacturing model’toward a circular carbon economy.The development of new and sustainable value chains through the utilization of coal and waste as alternative raw materials for the chemical industry via a coupling of the energy,chemical and waste management sectors offers a viable and future-oriented perspective for closing the carbon cycle.Further benefits also include a lowering of the carbon footprint and increasing resource efficiency and conservation of primary carbon resources.In addition,technological innovations and developments that are necessary to support a successful sector coupling will be identified.To illustrate our concept,a case analysis of domestic coal and waste as alternative feedstock to imported crude oil for chemical production in Germany will be presented.Last but not least,challenges posed by path dependency along technological,institutional and human dimensions in the sociotechnical system for a successful transition toward a circular carbon economy will be discussed. 展开更多
关键词 circular carbon economy closed carbon cycle carbon-containing waste WASTE net zero emission chemical industry path dependency
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部