The half-bridge-based modular multilevel converter (MMC) has emerged as the favored converter topology for voltage-source HVDC applications. The submodules within the converter can be constructed with either individual insulated-gate bipolar transistor (IGBT) modules or with series-connected IGBTs, which allows for different redundancy strategies to be employed. The main contribution of this paper is that an analytical method was proposed to analyze the reliability of MMCs with the consideration of submodule arrangements and redundancy strategies. Based on the analytical method, the relative merits of two approaches to adding redundancy, and variants created by varying the submodule voltage, are assessed in terms of overall converter reliability. Case studies were conducted to compare the reliability characteristics of converters constructed using the two submodule topologies. It is found that reliability of the MMC with series-connected IGBTs is higher for the first few years but then decreases rapidly. By assigning a reduced nominal voltage to the series valve submodule upon IGBT module failure, the need to install redundant submodules is greatly reduced
Due to the demand for high reliability, modular multilevel converters (MMCs) are designed with redundant submodules. Redundant submodules can be integrated into the converter by employing different redundancy schemes: the conventional active scheme, the load-sharing active scheme, and the passive scheme. Different schemes have different impacts on the improvement of converter reliability. The contributions of this paper include that an analytical method is proposed to evaluate the reliability of MMCs under different redundancy schemes and the factors' influence on the converter reliability is analyzed to determine the proper redundancy scheme. Reliability models of MMCs under different redundancy schemes are built using Markov chains and the iteration method. Based on the proposed models, the effects of redundant schemes are evaluated in terms of the converter reliability. A case study is conducted to validate the feasibility and robustness of proposed models and to specify the conditions in the favor of each redundancy scheme. The benefits of sharing redundancy among arms are also explored from the reliability point of view. If insulated-gate bipolar transistors (IGBTs) and capacitors are dominant components in a submodule in terms of failure rates, the load-sharing active scheme performs better; otherwise, setting the redundant submodules in an idle state is more effective. It is also found that the number of required redundant submodules is greatly reduced by sharing redundancy among arms.
This study presents an analysis of the energy curtailment caused by the DC series-parallel collection systems of HVDC connected offshore wind farms. Wind speed differences between the series connected wind turbines cause unequal voltages at the DC output of the wind turbines. This can lead to unacceptable over-voltage or under-voltage conditions. The over-voltage and under-voltage conditions on the turbine DC outputs can be avoided by curtailing the power outputs of the wind turbines, which will result in loss of wind power. The annual energy curtailment due to the over-voltage limits of turbine DC-DC converters is analysed for a 200 MW DC series-parallel wind farm. The impact of wake effects on the energy curtailment losses is quantified and demonstrated with a case study.
Purpose:
To describe the multimodal imaging characteristics of flat irregular pigment epithelial detachment (FIPED) in patients with chronic central serous chorioretinopathy and determine the risk factors for vascularized FIPED and to explore the activity of vascularized FIPED before and after half-dose photodynamic therapy.
Methods:
Multimodal imaging data of 185 eyes of 155 consecutive patients with chronic central serous chorioretinopathy included spectral domain optical coherence tomography, fluorescein angiography, and indocyanine green angiography. Optical coherence tomography angiography was available for 56 eyes. Flat irregular PED was classified into two types based on indocyanine green angiography or optical coherence tomography angiography findings: avascular FIPED and vascularized FIPED.
Results:
The avascular FIPED and vascularized FIPED were detected in 127 (68.6%) and 42 (22.7%) eyes, respectively. Age (P = 0.001), visual acuity (P = 0.048), subfoveal choroidal thickness (P = 0.032), height (P < 0.001) and width (P < 0.001) of FIPED, choriocapillary thickness (P = 0.015), and maximum vessel diameter (P = 0.009) beneath the FIPED were significantly different between avascular and vascularized FIPEDs. Old age was an independent risk factor for vascularized FIPED. On optical coherence tomography angiography, all vascularized FIPEDs manifested the pattern of mature choroidal neovascularization (CNV). After half-dose photodynamic therapy, vascularized FIPED remained stable without the reaccumulation of subretinal fluid at the last follow-up.
Conclusion:
In chronic central serous chorioretinopathy, vascularized FIPED was closely associated with Type I CNV. Old age was an independent risk factor for vascularized FIPED. Vascularized FIPED is suggested as “quiescent” CNV, and half-dose photodynamic therapy may be recommended as the first-line therapy in chronic central serous chorioretinopathy complicated with quiescent CNV, except when the activity of CNV becomes evident.
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