Bridging laboratory research and practical utilization is of crucial importance for the development of green ammonia synthetic technologies. A decentralized photo-assisted electrochemical-based demonstrator has been p...Bridging laboratory research and practical utilization is of crucial importance for the development of green ammonia synthetic technologies. A decentralized photo-assisted electrochemical-based demonstrator has been proposed for green ammonia synthesis from renewable electricity, air and water, where well-known defect-laden WO_(3) is used as the working electrode, and a commercially available PV panel supplies renewable electricity. In this demonstrator, defect-laden WO_(3) exhibits the optimum electrochemical NH_(3) formation rate(4.51 × 10^(-12)mol s^(-1)cm^(-2)) in 0.1 M K_(2)SO_(4)in a photovoltaic electrochemical(PV-EC) system. A system-level energy and cost analysis was conducted to investigate its economic viability and a general evaluation tool for system performance and cost estimation was proposed. This advance enables the possibility of integrating the small-scale green ammonia demonstrator into a stand-alone farm system.展开更多
Background:Much land is subject to damage by construction,development and exploitation with consequent loss of environmental function and services.How might the loss be recovered?Results:This article develops principl...Background:Much land is subject to damage by construction,development and exploitation with consequent loss of environmental function and services.How might the loss be recovered?Results:This article develops principles of environmental rehabilitation.Key issues include the following.Rehabilitation means restoring the previous condition.Whether or not to restore is not a technical but a value judgement.It is subject to adopting the sustainability ethic.If the ethic is followed under rule of law then rehabilitation must be done always to’the high standard’which means handing down unimpaired environmental function and no extra land management.The elements of the former condition that it is intended to restore must be specified.Restoring these in any given case is the purpose of that rehabilitation project.The specified restoration elements must be easily measurable with a few simple powerful metrics.Some land damage is not fixable so restraint must be exercised in what construction,development and exploitation are permitted.If sustainability is adopted then cost benefit analysis is not a valid form of project appraisal because trading off present benefits against future losses relies on subjectively decided discount rates,and because natural capital is hard to price,indispensable,irreplaceable and non-substitutable.Elements often to be restored include agricultural land capability,landscape form and environmental function.Land capability is a widely used convention and,with landscape form,encapsulate many key land factors,and are easily measurable.Restoring soil and thereby environmental function provides the necessary base for an ecological pyramid.Conclusions:The need for rehabilitation is not to be justified by cost-benefit or scientific and technological proof,but rests on a value judgement to sustain natural capital for present and future generations.Decision on what activities and projects to permit should be based on what is physically and financially fixable on current knowledge.Business and government must be proactive,develop rehabilitation standards,work out how to meet the standards,design simple powerful metrics to measure performance against the standards,embark on continuous improvement,and report.展开更多
Electric interconnection is an essential trend for future large-scale development and utilization of renewable energy.China has proposed the concept of Global Energy Interconnection to realize the clean utilization of...Electric interconnection is an essential trend for future large-scale development and utilization of renewable energy.China has proposed the concept of Global Energy Interconnection to realize the clean utilization of energy through the interconnection of power grids and optimize the allocation of global energy resources.This study proposes the Kazakhstan-China-Republic of Korea networking scheme,analyzing the characteristics of power supply and demand in these countries.Based on the regional economic analysis and power development,four interconnection schemes are proposed utilizing UHVDC technology.Accordingly,existing problems and favorable factors are fully considered.The investment analysis of±1100 kV and±800 kV lines,configuration scheme of the converter station,and investment estimation of four interconnection schemes are given.展开更多
基金grateful to the Natural Sciences and Engineering Council of Canada for supportthe Nation Natural Science Foundation of China (NSFC 21878162,21872102)+4 种基金support of the NSFC(52102311)the Program for Guangdong Introducing Innovative and Entrepreneurial Teams (2019ZT08L101)the Special Fund for the Sci-tech Innovation Strategy of Guangdong Province(210629095860472)the Shenzhen Natural Science Foundation(GXWD20201231105722002-20200824163747001)the Shenzhen Key Laboratory of Eco-materials and Renewable Energy(ZDSYS20200922160400001)。
文摘Bridging laboratory research and practical utilization is of crucial importance for the development of green ammonia synthetic technologies. A decentralized photo-assisted electrochemical-based demonstrator has been proposed for green ammonia synthesis from renewable electricity, air and water, where well-known defect-laden WO_(3) is used as the working electrode, and a commercially available PV panel supplies renewable electricity. In this demonstrator, defect-laden WO_(3) exhibits the optimum electrochemical NH_(3) formation rate(4.51 × 10^(-12)mol s^(-1)cm^(-2)) in 0.1 M K_(2)SO_(4)in a photovoltaic electrochemical(PV-EC) system. A system-level energy and cost analysis was conducted to investigate its economic viability and a general evaluation tool for system performance and cost estimation was proposed. This advance enables the possibility of integrating the small-scale green ammonia demonstrator into a stand-alone farm system.
文摘Background:Much land is subject to damage by construction,development and exploitation with consequent loss of environmental function and services.How might the loss be recovered?Results:This article develops principles of environmental rehabilitation.Key issues include the following.Rehabilitation means restoring the previous condition.Whether or not to restore is not a technical but a value judgement.It is subject to adopting the sustainability ethic.If the ethic is followed under rule of law then rehabilitation must be done always to’the high standard’which means handing down unimpaired environmental function and no extra land management.The elements of the former condition that it is intended to restore must be specified.Restoring these in any given case is the purpose of that rehabilitation project.The specified restoration elements must be easily measurable with a few simple powerful metrics.Some land damage is not fixable so restraint must be exercised in what construction,development and exploitation are permitted.If sustainability is adopted then cost benefit analysis is not a valid form of project appraisal because trading off present benefits against future losses relies on subjectively decided discount rates,and because natural capital is hard to price,indispensable,irreplaceable and non-substitutable.Elements often to be restored include agricultural land capability,landscape form and environmental function.Land capability is a widely used convention and,with landscape form,encapsulate many key land factors,and are easily measurable.Restoring soil and thereby environmental function provides the necessary base for an ecological pyramid.Conclusions:The need for rehabilitation is not to be justified by cost-benefit or scientific and technological proof,but rests on a value judgement to sustain natural capital for present and future generations.Decision on what activities and projects to permit should be based on what is physically and financially fixable on current knowledge.Business and government must be proactive,develop rehabilitation standards,work out how to meet the standards,design simple powerful metrics to measure performance against the standards,embark on continuous improvement,and report.
基金supported by the Technical Assistant 9690 project of Asian Development Bank(ADB).
文摘Electric interconnection is an essential trend for future large-scale development and utilization of renewable energy.China has proposed the concept of Global Energy Interconnection to realize the clean utilization of energy through the interconnection of power grids and optimize the allocation of global energy resources.This study proposes the Kazakhstan-China-Republic of Korea networking scheme,analyzing the characteristics of power supply and demand in these countries.Based on the regional economic analysis and power development,four interconnection schemes are proposed utilizing UHVDC technology.Accordingly,existing problems and favorable factors are fully considered.The investment analysis of±1100 kV and±800 kV lines,configuration scheme of the converter station,and investment estimation of four interconnection schemes are given.
