Variables
Functions
We provide the following methods to provide a compositional approach for defining common variables used in power flow models. These methods should always be defined over "GenericPowerModel", from the base PowerModels.jl.
PowerModelsACDC.variable_acside_current — Methodvariable: iconv_ac[j] and iconv_ac_sq[j] for j in convdc for ACR formulation
PowerModelsACDC.variable_acside_current — Methodvariable: iconv_ac[j] for j in convdc
PowerModelsACDC.variable_acside_current — Methodvariable: iconv_ac[j] and iconv_ac_sq[j] for j in convdc
PowerModelsACDC.variable_acside_current_ne — Methodvariable: iconv_ac_ne[j] for j in candidate convdc
PowerModelsACDC.variable_acside_current_ne — Methodvariable: iconv_ac_ne[j] and iconv_ac_sq_ne[j] for j in candidate convdc
PowerModelsACDC.variable_conv_reactor_active_power_from — Methodvariable: pconv_pr_from[j] for j in convdc
PowerModelsACDC.variable_conv_reactor_active_power_from_ne — Methodvariable: pconv_pr_from_ne[j] for j in candidate convdc
PowerModelsACDC.variable_conv_reactor_current_sqr — Methodvariable: irc_sq[j] for j in convdc
PowerModelsACDC.variable_conv_reactor_current_sqr_ne — Methodvariable: irc_sq_ne[j] for j in candidate convdc
PowerModelsACDC.variable_conv_reactor_reactive_power_from — Methodvariable: qconv_pr_from[j] for j in convdc
PowerModelsACDC.variable_conv_reactor_reactive_power_from_ne — Methodvariable: qconv_pr_from_ne[j] for j in candidate convdc
PowerModelsACDC.variable_conv_transformer_active_power_to — Methodvariable: pconv_grid_ac_to[j] for j in convdc
PowerModelsACDC.variable_conv_transformer_active_power_to_ne — Methodvariable: pconv_grid_ac_to_ne[j] for j in candidate convdc
PowerModelsACDC.variable_conv_transformer_current_sqr — Methodvariable: itf_sq[j] for j in convdc
PowerModelsACDC.variable_conv_transformer_current_sqr_ne — Methodvariable: itf_sq_ne[j] for j in candidate convdc
PowerModelsACDC.variable_conv_transformer_reactive_power_to — Methodvariable: qconv_grid_ac_to[j] for j in convdc
PowerModelsACDC.variable_conv_transformer_reactive_power_to_ne — Methodvariable: qconv_grid_ac_to_ne[j] for j in candidate convdc
PowerModelsACDC.variable_converter_active_power — Methodvariable: pconv_ac[j] for j in convdc
PowerModelsACDC.variable_converter_active_power_ne — Methodvariable: pconv_ac_ne[j] for j in candidate convdc
PowerModelsACDC.variable_converter_filter_voltage_angle — Methodvariable: vaf[j] for j in convdc
PowerModelsACDC.variable_converter_filter_voltage_angle_ne — Methodvariable: vaf_ne[j] for j in candidate convdc
PowerModelsACDC.variable_converter_filter_voltage_cross_products — Methodvariable: wrf_ac[j] and wif_ac for j in convdc
PowerModelsACDC.variable_converter_filter_voltage_cross_products_ne — Methodvariable: wrf_ac_ne[j] and wif_ac for j in candidate convdc
PowerModelsACDC.variable_converter_filter_voltage_imaginary — Methodimaginary part of the voltage variable vif[j] for j in convdc
PowerModelsACDC.variable_converter_filter_voltage_magnitude — Methodvariable: vmf[j] for j in convdc
PowerModelsACDC.variable_converter_filter_voltage_magnitude_ne — Methodvariable: vmf_ne[j] for j in candidate convdc
PowerModelsACDC.variable_converter_filter_voltage_magnitude_sqr — Methodvariable: wf_ac for j in convdc
PowerModelsACDC.variable_converter_filter_voltage_magnitude_sqr_ne — Methodvariable: wf_ac_ne for j in candidate convdc
PowerModelsACDC.variable_converter_filter_voltage_real — Methodreal part of the voltage variable vrf[j] for j in convdc
PowerModelsACDC.variable_converter_firing_angle — Methodvariable: pconv_dc[j] for j in convdc
PowerModelsACDC.variable_converter_firing_angle_ne — Methodvariable: pconv_dc_ne[j] for j in candidate convdc
PowerModelsACDC.variable_converter_internal_voltage_angle — Methodvariable: vac[j] for j in convdc
PowerModelsACDC.variable_converter_internal_voltage_angle_ne — Methodvariable: vac_ne[j] for j in candidate convdc
PowerModelsACDC.variable_converter_internal_voltage_cross_products — Methodvariable: wrc_ac[j] and wic_ac[j] for j in convdc
PowerModelsACDC.variable_converter_internal_voltage_cross_products_ne — Methodvariable: wrc_ac_ne[j] and wic_ac_ne[j] for j in candidate convdc
PowerModelsACDC.variable_converter_internal_voltage_imaginary — Methodimaginary part of the voltage variable vic[j] for j in convdc
PowerModelsACDC.variable_converter_internal_voltage_magnitude — Methodvariable: vmc[j] for j in convdc
PowerModelsACDC.variable_converter_internal_voltage_magnitude_ne — Methodvariable: vmc_ne[j] for j in candidate convdc
PowerModelsACDC.variable_converter_internal_voltage_magnitude_sqr — Methodvariable: wc_ac[j] for j in convdc
PowerModelsACDC.variable_converter_internal_voltage_magnitude_sqr_ne — Methodvariable: wc_ac_ne[j] for j in candidate convdc
PowerModelsACDC.variable_converter_internal_voltage_real — Methodreal part of the voltage variable vrc[j] for j in convdc
PowerModelsACDC.variable_converter_ne — Methodvariable: 0 <= convdc_ne[c] <= 1 for c in `candidate converters
PowerModelsACDC.variable_converter_reactive_power — Methodvariable: qconv_ac[j] for j in convdc
PowerModelsACDC.variable_converter_reactive_power_ne — Methodvariable: qconv_ac_ne[j] for j in candidate convdc
PowerModelsACDC.variable_converter_to_grid_active_power — Methodvariable: pconv_grid_ac[j] for j in convdc
PowerModelsACDC.variable_converter_to_grid_active_power_ne — Methodvariable: pconv_grid_ac_ne[j] for j in candidate convdc
PowerModelsACDC.variable_converter_to_grid_reactive_power — Methodvariable: qconv_grid_ac[j] for j in convdc
PowerModelsACDC.variable_converter_to_grid_reactive_power_ne — Methodvariable: qconv_grid_ac_ne[j] for j in candidate convdc
PowerModelsACDC.variable_cos_voltage_ne — Methodvariable: cos voltage fro LPAC
PowerModelsACDC.variable_dc_converter — MethodAll converter variables
PowerModelsACDC.variable_dc_converter_ne — MethodAll converter variables
PowerModelsACDC.variable_dcside_power — Methodvariable: pconv_dc[j] for j in convdc
PowerModelsACDC.variable_dcside_power_ne — Methodvariable: pconv_dc_ne[j] for j in candidate convdc
PowerModelsACDC.variable_voltage_slack — Methodvariable: w_du[j] for j in candidate convdc
PowerModelsACDC.variable_active_dcbranch_flow — Methodvariable: p_dcgrid[l,i,j] for (l,i,j) in arcs_dcgrid
PowerModelsACDC.variable_active_dcbranch_flow_ne — Methodvariable: p_dcgrid[l,i,j] for (l,i,j) in arcs_dcgrid
PowerModelsACDC.variable_branch_ne — Methodvariable: 0 <= convdc_ne[c] <= 1 for c in `candidate converters
PowerModelsACDC.variable_dcbranch_current — Methodvariable: DC branch currents - not used
PowerModelsACDC.variable_dcbranch_current_ne — Methodvariable: DC branch currents - not used
PowerModelsACDC.variable_dcbranch_current_sqr — Methodvariable: ccm_dcgrid[l] for (l) in branchdc
PowerModelsACDC.variable_dcbranch_current_sqr_ne — Methodvariable: ccm_dcgrid[l] for (l) in branchdc
PowerModelsACDC.variable_dcgrid_voltage_magnitude — Methodvariable: vdcm[i] for i in dcbuses
PowerModelsACDC.variable_dcgrid_voltage_magnitude — Methodvariable: vdcm[i] for i in dcbuses
PowerModelsACDC.variable_dcgrid_voltage_magnitude_ne — Methodvariable: vdcm[i] for i in ne_dcbuses
PowerModelsACDC.variable_dcgrid_voltage_magnitude_ne — Methodvariable: vdcm[i] for i in ne_dcbuses
PowerModelsACDC.variable_dcgrid_voltage_magnitude_sqr — Methodvariable: vdcm[i] for i in dcbuses
PowerModelsACDC.variable_dcgrid_voltage_magnitude_sqr_du — Methodvariable: wdcm[i] for i in ne_dcbuses
PowerModelsACDC.variable_dcgrid_voltage_magnitude_sqr_ne — Methodvariable: wdcm[i] for i in ne_dcbuses