Background: Flow FL-100 is a transcranial direct current stimulation (tDCS) device self-administered by a patient at home in combination with a software application delivered wellbeing behaviour therapy training. tDCS...Background: Flow FL-100 is a transcranial direct current stimulation (tDCS) device self-administered by a patient at home in combination with a software application delivered wellbeing behaviour therapy training. tDCS has evidence of effectiveness in treating symptoms of depression. Purpose/Aim: This post marketing study evaluated the effect of Flow on depression for primary care general practice patients with depression symptoms. Methods: Open-label patient cohort design with no control group. Inclusion criteria were aged 18 years or over and reporting depression symptoms. Participants self-administered five 30 minute tDCS sessions per week for the first three weeks, and then 3 sessions per week following this. Three, six and ten week assessment with participant self-report measure: Montgomery- Åsberg Depression Rating Scale (MADRS-S). Results: MADRS-S remission rates were between 29% - 30% at three weeks, 33% - 34% at six-weeks and 50% at 10-weeks treatment. There was a significant improvement in MADRS-S with large effect sizes at all time points. Conclusions: Flow tDCS can be delivered through a primary healthcare general practice service and patients will choose to use. Flow tDCS provides an effective depression treatment in addition and as an alternative to antidepressants and psychotherapy. tDCS has evidence as an effective depression treatment, and the widespread availability of tDCS in primary care general practice should be considered.展开更多
随着高压直流输电工程的不断投产,以及风电项目的增多,越来越多的风电场出现在电网换相换流器高压直流输电(line-commutated-converter based high voltage direct current,LCC-HVDC)受端换流站近区,两者构成的系统存在振荡风险。为此,...随着高压直流输电工程的不断投产,以及风电项目的增多,越来越多的风电场出现在电网换相换流器高压直流输电(line-commutated-converter based high voltage direct current,LCC-HVDC)受端换流站近区,两者构成的系统存在振荡风险。为此,该文针对直流受端馈入站与近区风电场系统的振荡特性展开研究。首先,建立并验证系统的状态空间模型,基于该模型计算出系统特征值,确定LCC-HVDC与风电场共同参与的振荡主导模式并进行参与因子分析。进一步地,通过对比是否接入LCC-HVDC的主导模式,得到LCC-HVDC的接入会削弱系统阻尼的结论。最后,从系统额定容量、交流系统短路比、风电场并网线路长度等方面探究系统稳定性的影响因素,并分析系统的不同短路比、潮流比对风机网侧换流器(grid-side converter,GSC)外环控制和换流站定电流控制器性能的影响。展开更多
该文基于系列文章1建立的电网换相换流器型高压直流(line commutated converter-based high voltage direct current,LCC-HVDC)阻抗模型,开展新能源基地经LCC-HVDC送出系统阻抗特性和振荡机理分析。首先,研究LCC-HVDC送端交流端口阻抗...该文基于系列文章1建立的电网换相换流器型高压直流(line commutated converter-based high voltage direct current,LCC-HVDC)阻抗模型,开展新能源基地经LCC-HVDC送出系统阻抗特性和振荡机理分析。首先,研究LCC-HVDC送端交流端口阻抗与阀本体交流阻抗、交流滤波器阻抗间的构成关系,分析直流线路、受端换流站、受端电网强度对送端换流站阀本体交流阻抗的主导影响;然后,研究送端换流站直流电流环对阀本体交流阻抗的重叠效应,分析送端换流站交流端口阻抗次/超同步频段负阻尼特性形成机理,并论述受端换流站和受端电网强度对送端交流端口阻抗特性的交互影响;接下来,建立新能源基地经LCC-HVDC送出系统等值模型,研究送端系统振荡边界条件,阐明LCC-HVDC对新能源并网点阻抗特性影响的变化规律,揭示直驱风机(permanent magnet synchronous generator,PMSG)、双馈风机(doubly-fed induction generator,DFIG)、光伏(photovoltaic,PV)不同类型新能源基地经LCC-HVDC送出系统次/超同步振荡机理;最后,不同类型新能源基地经LCC-HVDC送出系统仿真结果验证了该文提出的次/超同步振荡机理的正确性和通用性。展开更多
This paper performs a study on three-way subsynchronous torsional interactions(SSTI)between a hybrid dual-infeed high-voltage direct current(HVDC)system and a nuclear generator.The test case is based on the French IFA...This paper performs a study on three-way subsynchronous torsional interactions(SSTI)between a hybrid dual-infeed high-voltage direct current(HVDC)system and a nuclear generator.The test case is based on the French IFA2000 line commutated converter(LCC)HVDC(2 GW)and the new Eleclink modular multilevel converter(MMC)HVDC(1 GW)interacting with the Gravelines generator(1 GW).The analysis is performed by the means of the eigenvalue stability assessment on an analytical model,while the accuracy of the conclusions is verified using the detailed non-linear electromegnetic transient program(EMTP)model.The study shows that the dual-infeed system may introduce higher risk of the SSTI compared with the point-to-point HVDC systems.It shows that MMC operating as static synchronous compensator(STATCOM)may further reduce the torsional damping at 6.3 Hz mode.This conclusion may be unexpected since it is known fact from literature that STATCOM has a beneficial impact on the transient performance of LCC.Further studies show that in a sequential HVDC loading,it may be beneficial to load the MMC HVDC first.Also,the risk of the SSTI may be minimized by changing HVDC controller gains,in particular,by increasing phaselocked-loop(PLL)gains on the LCC rectifier.展开更多
随着碳达峰、碳中和国家政策的提出和光伏发电建设成本的降低,各通信运营商将光伏发电作为能源低碳转型和节能增效的重要举措。为了探索光伏在不同通信电源场景的应用,详细阐述-48 V直流嵌入式光伏的接入位置和控制原理,解决传统光伏接...随着碳达峰、碳中和国家政策的提出和光伏发电建设成本的降低,各通信运营商将光伏发电作为能源低碳转型和节能增效的重要举措。为了探索光伏在不同通信电源场景的应用,详细阐述-48 V直流嵌入式光伏的接入位置和控制原理,解决传统光伏接入方案实际运行时扰乱蓄电池充放电管理问题。同时,针对大容量互联网数据中心(Internet Data Center,IDC)机房不同时期服务器投入运行数量,调整高压直流和光伏发电混合模式,解决光伏发电功率和负载不均衡的问题。展开更多
文摘Background: Flow FL-100 is a transcranial direct current stimulation (tDCS) device self-administered by a patient at home in combination with a software application delivered wellbeing behaviour therapy training. tDCS has evidence of effectiveness in treating symptoms of depression. Purpose/Aim: This post marketing study evaluated the effect of Flow on depression for primary care general practice patients with depression symptoms. Methods: Open-label patient cohort design with no control group. Inclusion criteria were aged 18 years or over and reporting depression symptoms. Participants self-administered five 30 minute tDCS sessions per week for the first three weeks, and then 3 sessions per week following this. Three, six and ten week assessment with participant self-report measure: Montgomery- Åsberg Depression Rating Scale (MADRS-S). Results: MADRS-S remission rates were between 29% - 30% at three weeks, 33% - 34% at six-weeks and 50% at 10-weeks treatment. There was a significant improvement in MADRS-S with large effect sizes at all time points. Conclusions: Flow tDCS can be delivered through a primary healthcare general practice service and patients will choose to use. Flow tDCS provides an effective depression treatment in addition and as an alternative to antidepressants and psychotherapy. tDCS has evidence as an effective depression treatment, and the widespread availability of tDCS in primary care general practice should be considered.
文摘随着高压直流输电工程的不断投产,以及风电项目的增多,越来越多的风电场出现在电网换相换流器高压直流输电(line-commutated-converter based high voltage direct current,LCC-HVDC)受端换流站近区,两者构成的系统存在振荡风险。为此,该文针对直流受端馈入站与近区风电场系统的振荡特性展开研究。首先,建立并验证系统的状态空间模型,基于该模型计算出系统特征值,确定LCC-HVDC与风电场共同参与的振荡主导模式并进行参与因子分析。进一步地,通过对比是否接入LCC-HVDC的主导模式,得到LCC-HVDC的接入会削弱系统阻尼的结论。最后,从系统额定容量、交流系统短路比、风电场并网线路长度等方面探究系统稳定性的影响因素,并分析系统的不同短路比、潮流比对风机网侧换流器(grid-side converter,GSC)外环控制和换流站定电流控制器性能的影响。
文摘该文基于系列文章1建立的电网换相换流器型高压直流(line commutated converter-based high voltage direct current,LCC-HVDC)阻抗模型,开展新能源基地经LCC-HVDC送出系统阻抗特性和振荡机理分析。首先,研究LCC-HVDC送端交流端口阻抗与阀本体交流阻抗、交流滤波器阻抗间的构成关系,分析直流线路、受端换流站、受端电网强度对送端换流站阀本体交流阻抗的主导影响;然后,研究送端换流站直流电流环对阀本体交流阻抗的重叠效应,分析送端换流站交流端口阻抗次/超同步频段负阻尼特性形成机理,并论述受端换流站和受端电网强度对送端交流端口阻抗特性的交互影响;接下来,建立新能源基地经LCC-HVDC送出系统等值模型,研究送端系统振荡边界条件,阐明LCC-HVDC对新能源并网点阻抗特性影响的变化规律,揭示直驱风机(permanent magnet synchronous generator,PMSG)、双馈风机(doubly-fed induction generator,DFIG)、光伏(photovoltaic,PV)不同类型新能源基地经LCC-HVDC送出系统次/超同步振荡机理;最后,不同类型新能源基地经LCC-HVDC送出系统仿真结果验证了该文提出的次/超同步振荡机理的正确性和通用性。
基金supported by Réseau de Transport d’électricitéof France。
文摘This paper performs a study on three-way subsynchronous torsional interactions(SSTI)between a hybrid dual-infeed high-voltage direct current(HVDC)system and a nuclear generator.The test case is based on the French IFA2000 line commutated converter(LCC)HVDC(2 GW)and the new Eleclink modular multilevel converter(MMC)HVDC(1 GW)interacting with the Gravelines generator(1 GW).The analysis is performed by the means of the eigenvalue stability assessment on an analytical model,while the accuracy of the conclusions is verified using the detailed non-linear electromegnetic transient program(EMTP)model.The study shows that the dual-infeed system may introduce higher risk of the SSTI compared with the point-to-point HVDC systems.It shows that MMC operating as static synchronous compensator(STATCOM)may further reduce the torsional damping at 6.3 Hz mode.This conclusion may be unexpected since it is known fact from literature that STATCOM has a beneficial impact on the transient performance of LCC.Further studies show that in a sequential HVDC loading,it may be beneficial to load the MMC HVDC first.Also,the risk of the SSTI may be minimized by changing HVDC controller gains,in particular,by increasing phaselocked-loop(PLL)gains on the LCC rectifier.
文摘随着碳达峰、碳中和国家政策的提出和光伏发电建设成本的降低,各通信运营商将光伏发电作为能源低碳转型和节能增效的重要举措。为了探索光伏在不同通信电源场景的应用,详细阐述-48 V直流嵌入式光伏的接入位置和控制原理,解决传统光伏接入方案实际运行时扰乱蓄电池充放电管理问题。同时,针对大容量互联网数据中心(Internet Data Center,IDC)机房不同时期服务器投入运行数量,调整高压直流和光伏发电混合模式,解决光伏发电功率和负载不均衡的问题。