diff --git a/ssc/cmod_fresnel_physical.cpp b/ssc/cmod_fresnel_physical.cpp index bee6d49b3..d31d71cef 100644 --- a/ssc/cmod_fresnel_physical.cpp +++ b/ssc/cmod_fresnel_physical.cpp @@ -95,11 +95,11 @@ static var_info _cm_vtab_fresnel_physical[] = { { SSC_INPUT, SSC_NUMBER, "p_start", "Collector startup energy, per SCA", "kWhe", "", "Solar_Field", "*", "", "" }, { SSC_INPUT, SSC_NUMBER, "L_rnr_pb", "Length of runner pipe in power block", "m", "", "Solar_Field", "*", "", "" }, - { SSC_INPUT, SSC_NUMBER, "use_abs_or_rel_mdot_limit", "Use mass flow abs (0) or relative (1) limits", "", "", "solar_field", "?=0", "", "" }, - { SSC_INPUT, SSC_NUMBER, "m_dot_htfmin", "Minimum loop HTF flow rate", "kg/s", "", "solar_field", "use_abs_or_rel_mdot_limit=0", "", "" }, - { SSC_INPUT, SSC_NUMBER, "m_dot_htfmax", "Maximum loop HTF flow rate", "kg/s", "", "solar_field", "use_abs_or_rel_mdot_limit=0", "", "" }, - { SSC_INPUT, SSC_NUMBER, "f_htfmin", "Minimum loop mass flow rate fraction of design", "", "", "solar_field", "use_abs_or_rel_mdot_limit=1", "", "" }, - { SSC_INPUT, SSC_NUMBER, "f_htfmax", "Maximum loop mass flow rate fraction of design", "", "", "solar_field", "use_abs_or_rel_mdot_limit=1", "", "" }, + { SSC_INPUT, SSC_NUMBER, "use_abs_or_rel_mdot_limit", "Use mass flow abs (0) or relative (1) limits", "", "", "Solar_Field", "?=0", "", "" }, + { SSC_INPUT, SSC_NUMBER, "m_dot_htfmin", "Minimum loop HTF flow rate", "kg/s", "", "Solar_Field", "use_abs_or_rel_mdot_limit=0", "", "" }, + { SSC_INPUT, SSC_NUMBER, "m_dot_htfmax", "Maximum loop HTF flow rate", "kg/s", "", "Solar_Field", "use_abs_or_rel_mdot_limit=0", "", "" }, + { SSC_INPUT, SSC_NUMBER, "f_htfmin", "Minimum loop mass flow rate fraction of design", "", "", "Solar_Field", "use_abs_or_rel_mdot_limit=1", "", "" }, + { SSC_INPUT, SSC_NUMBER, "f_htfmax", "Maximum loop mass flow rate fraction of design", "", "", "Solar_Field", "use_abs_or_rel_mdot_limit=1", "", "" }, // Collector and Receiver @@ -340,10 +340,10 @@ static var_info _cm_vtab_fresnel_physical[] = { { SSC_OUTPUT, SSC_NUMBER, "q_field_des_actual", "Design-point thermal power from the solar field limited by mass flow", "MW", "", "Receiver", "*", "", "" }, { SSC_OUTPUT, SSC_NUMBER, "q_field_des_ideal", "Design-point thermal power from the solar field with no limit", "MW", "", "Receiver", "*", "", "" }, - { SSC_OUTPUT, SSC_NUMBER, "m_dot_htfmin_actual", "Actual minimum loop HTF flow rate", "kg/s", "", "solar_field", "*", "", "" }, - { SSC_OUTPUT, SSC_NUMBER, "m_dot_htfmax_actual", "Actual maximum loop HTF flow rate", "kg/s", "", "solar_field", "*", "", "" }, - { SSC_OUTPUT, SSC_NUMBER, "f_htfmin_actual", "Actual minimum loop mass flow rate fraction of design", "", "", "solar_field", "*", "", "" }, - { SSC_OUTPUT, SSC_NUMBER, "f_htfmax_actual", "Actual maximum loop mass flow rate fraction of design", "", "", "solar_field", "*", "", "" }, + { SSC_OUTPUT, SSC_NUMBER, "m_dot_htfmin_actual", "Actual minimum loop HTF flow rate", "kg/s", "", "Solar_Field", "*", "", "" }, + { SSC_OUTPUT, SSC_NUMBER, "m_dot_htfmax_actual", "Actual maximum loop HTF flow rate", "kg/s", "", "Solar_Field", "*", "", "" }, + { SSC_OUTPUT, SSC_NUMBER, "f_htfmin_actual", "Actual minimum loop mass flow rate fraction of design", "", "", "Solar_Field", "*", "", "" }, + { SSC_OUTPUT, SSC_NUMBER, "f_htfmax_actual", "Actual maximum loop mass flow rate fraction of design", "", "", "Solar_Field", "*", "", "" }, { SSC_OUTPUT, SSC_NUMBER, "field_area", "Solar field area", "acres", "", "Receiver", "*", "", "" }, @@ -472,31 +472,31 @@ static var_info _cm_vtab_fresnel_physical[] = { // Solar Field (from Trough) - { SSC_OUTPUT, SSC_ARRAY, "EqOpteff", "Field optical efficiency before defocus", "", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "SCAs_def", "Field fraction of focused SCAs", "", "", "solar_field", "sim_type=1", "", "" }, - - { SSC_OUTPUT, SSC_ARRAY, "q_inc_sf_tot", "Field thermal power incident", "MWt", "", "solar_field", "*", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "q_dot_rec_inc", "Receiver thermal power incident", "MWt", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "q_dot_rec_thermal_loss", "Receiver thermal losses", "MWt", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "q_dot_rec_abs", "Receiver thermal power absorbed", "MWt", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "rec_thermal_eff", "Receiver thermal efficiency", "", "", "solar_field", "sim_type=1", "", "" }, - - { SSC_OUTPUT, SSC_ARRAY, "q_dot_piping_loss", "Field piping thermal losses", "MWt", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "e_dot_field_int_energy", "Field change in material/htf internal energy", "MWt", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "q_dot_htf_sf_out", "Field thermal power leaving in HTF", "MWt", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "q_dot_freeze_prot", "Field freeze protection required", "MWt", "", "solar_field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "EqOpteff", "Field optical efficiency before defocus", "", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "SCAs_def", "Field fraction of focused SCAs", "", "", "Solar_Field", "sim_type=1", "", "" }, + + { SSC_OUTPUT, SSC_ARRAY, "q_inc_sf_tot", "Field thermal power incident", "MWt", "", "Solar_Field", "*", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "q_dot_rec_inc", "Receiver thermal power incident", "MWt", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "q_dot_rec_thermal_loss", "Receiver thermal losses", "MWt", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "q_dot_rec_abs", "Receiver thermal power absorbed", "MWt", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "rec_thermal_eff", "Receiver thermal efficiency", "", "", "Solar_Field", "sim_type=1", "", "" }, + + { SSC_OUTPUT, SSC_ARRAY, "q_dot_piping_loss", "Field piping thermal losses", "MWt", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "e_dot_field_int_energy", "Field change in material/htf internal energy", "MWt", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "q_dot_htf_sf_out", "Field thermal power leaving in HTF", "MWt", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "q_dot_freeze_prot", "Field freeze protection required", "MWt", "", "Solar_Field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "m_dot_loop", "Receiver mass flow rate", "kg/s", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "m_dot_field_recirc", "Field total mass flow recirculated", "kg/s", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "m_dot_field_delivered", "Field total mass flow delivered", "kg/s", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "T_field_cold_in", "Field timestep-averaged inlet temperature", "C", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "T_rec_cold_in", "Loop timestep-averaged inlet temperature", "C", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "T_rec_hot_out", "Loop timestep-averaged outlet temperature", "C", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "T_field_hot_out", "Field timestep-averaged outlet temperature", "C", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "deltaP_field", "Field pressure drop", "bar", "", "solar_field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "m_dot_loop", "Receiver mass flow rate", "kg/s", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "m_dot_field_recirc", "Field total mass flow recirculated", "kg/s", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "m_dot_field_delivered", "Field total mass flow delivered", "kg/s", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "T_field_cold_in", "Field timestep-averaged inlet temperature", "C", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "T_rec_cold_in", "Loop timestep-averaged inlet temperature", "C", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "T_rec_hot_out", "Loop timestep-averaged outlet temperature", "C", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "T_field_hot_out", "Field timestep-averaged outlet temperature", "C", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "deltaP_field", "Field pressure drop", "bar", "", "Solar_Field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "W_dot_sca_track", "Field collector tracking power", "MWe", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "W_dot_field_pump", "Field htf pumping power", "MWe", "", "solar_field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "W_dot_sca_track", "Field collector tracking power", "MWe", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "W_dot_field_pump", "Field htf pumping power", "MWe", "", "Solar_Field", "sim_type=1", "", "" }, // power block @@ -604,7 +604,7 @@ static var_info _cm_vtab_fresnel_physical[] = { //{ SSC_OUTPUT, SSC_NUMBER, "W_dot_par_tot_haf", "Adjusted parasitic power", "kWe", "", "system", "*", "", "" }, //{ SSC_OUTPUT, SSC_NUMBER, "q_dot_defocus_est", "Thermal energy intentionally lost by defocusing", "MWt", "", "system", "*", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "recirculating", "Field recirculating (bypass valve open)", "-", "", "solar_field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "recirculating", "Field recirculating (bypass valve open)", "-", "", "Solar_Field", "sim_type=1", "", "" }, { SSC_OUTPUT, SSC_ARRAY, "pipe_tes_diams", "Pipe diameters in TES", "m", "", "TES", "sim_type=1", "", "" }, { SSC_OUTPUT, SSC_ARRAY, "pipe_tes_wallthk", "Pipe wall thickness in TES", "m", "", "TES", "sim_type=1", "", "" }, { SSC_OUTPUT, SSC_ARRAY, "pipe_tes_lengths", "Pipe lengths in TES", "m", "", "TES", "sim_type=1", "", "" }, diff --git a/ssc/cmod_fresnel_physical_iph.cpp b/ssc/cmod_fresnel_physical_iph.cpp index 164d749b0..764eaba89 100644 --- a/ssc/cmod_fresnel_physical_iph.cpp +++ b/ssc/cmod_fresnel_physical_iph.cpp @@ -96,11 +96,11 @@ static var_info _cm_vtab_fresnel_physical_iph[] = { { SSC_INPUT, SSC_NUMBER, "p_start", "Collector startup energy, per SCA", "kWhe", "", "Solar_Field", "*", "", "" }, { SSC_INPUT, SSC_NUMBER, "L_rnr_pb", "Length of runner pipe in power block", "m", "", "Solar_Field", "*", "", "" }, - { SSC_INPUT, SSC_NUMBER, "use_abs_or_rel_mdot_limit", "Use mass flow abs (0) or relative (1) limits", "", "", "solar_field", "?=0", "", "" }, - { SSC_INPUT, SSC_NUMBER, "m_dot_htfmin", "Minimum loop HTF flow rate", "kg/s", "", "solar_field", "use_abs_or_rel_mdot_limit=0", "", "" }, - { SSC_INPUT, SSC_NUMBER, "m_dot_htfmax", "Maximum loop HTF flow rate", "kg/s", "", "solar_field", "use_abs_or_rel_mdot_limit=0", "", "" }, - { SSC_INPUT, SSC_NUMBER, "f_htfmin", "Minimum loop mass flow rate fraction of design", "", "", "solar_field", "use_abs_or_rel_mdot_limit=1", "", "" }, - { SSC_INPUT, SSC_NUMBER, "f_htfmax", "Maximum loop mass flow rate fraction of design", "", "", "solar_field", "use_abs_or_rel_mdot_limit=1", "", "" }, + { SSC_INPUT, SSC_NUMBER, "use_abs_or_rel_mdot_limit", "Use mass flow abs (0) or relative (1) limits", "", "", "Solar_Field", "?=0", "", "" }, + { SSC_INPUT, SSC_NUMBER, "m_dot_htfmin", "Minimum loop HTF flow rate", "kg/s", "", "Solar_Field", "use_abs_or_rel_mdot_limit=0", "", "" }, + { SSC_INPUT, SSC_NUMBER, "m_dot_htfmax", "Maximum loop HTF flow rate", "kg/s", "", "Solar_Field", "use_abs_or_rel_mdot_limit=0", "", "" }, + { SSC_INPUT, SSC_NUMBER, "f_htfmin", "Minimum loop mass flow rate fraction of design", "", "", "Solar_Field", "use_abs_or_rel_mdot_limit=1", "", "" }, + { SSC_INPUT, SSC_NUMBER, "f_htfmax", "Maximum loop mass flow rate fraction of design", "", "", "Solar_Field", "use_abs_or_rel_mdot_limit=1", "", "" }, // Collector and Receiver @@ -330,10 +330,10 @@ static var_info _cm_vtab_fresnel_physical_iph[] = { { SSC_OUTPUT, SSC_NUMBER, "eff_des_SS", "Steady State field total efficiency", "", "", "Receiver", "*", "", "" }, { SSC_OUTPUT, SSC_NUMBER, "W_dot_pump_des_SS", "Steady State field pumping power", "MWe", "", "Receiver", "*", "", "" }, - { SSC_OUTPUT, SSC_NUMBER, "m_dot_htfmin_actual", "Actual minimum loop HTF flow rate", "kg/s", "", "solar_field", "*", "", "" }, - { SSC_OUTPUT, SSC_NUMBER, "m_dot_htfmax_actual", "Actual maximum loop HTF flow rate", "kg/s", "", "solar_field", "*", "", "" }, - { SSC_OUTPUT, SSC_NUMBER, "f_htfmin_actual", "Actual minimum loop mass flow rate fraction of design", "", "", "solar_field", "*", "", "" }, - { SSC_OUTPUT, SSC_NUMBER, "f_htfmax_actual", "Actual maximum loop mass flow rate fraction of design", "", "", "solar_field", "*", "", "" }, + { SSC_OUTPUT, SSC_NUMBER, "m_dot_htfmin_actual", "Actual minimum loop HTF flow rate", "kg/s", "", "Solar_Field", "*", "", "" }, + { SSC_OUTPUT, SSC_NUMBER, "m_dot_htfmax_actual", "Actual maximum loop HTF flow rate", "kg/s", "", "Solar_Field", "*", "", "" }, + { SSC_OUTPUT, SSC_NUMBER, "f_htfmin_actual", "Actual minimum loop mass flow rate fraction of design", "", "", "Solar_Field", "*", "", "" }, + { SSC_OUTPUT, SSC_NUMBER, "f_htfmax_actual", "Actual maximum loop mass flow rate fraction of design", "", "", "Solar_Field", "*", "", "" }, { SSC_OUTPUT, SSC_NUMBER, "T_loop_out_des_SS", "Steady State loop design outlet temperature", "C", "", "Receiver", "*", "", "" }, @@ -448,32 +448,32 @@ static var_info _cm_vtab_fresnel_physical_iph[] = { // Solar Field - { SSC_OUTPUT, SSC_ARRAY, "EqOpteff", "Field optical efficiency before defocus", "", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "SCAs_def", "Field fraction of focused SCAs", "", "", "solar_field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "EqOpteff", "Field optical efficiency before defocus", "", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "SCAs_def", "Field fraction of focused SCAs", "", "", "Solar_Field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "q_inc_sf_tot", "Field thermal power incident", "MWt", "", "solar_field", "*", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "q_dot_rec_inc", "Receiver thermal power incident", "MWt", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "q_dot_rec_thermal_loss", "Receiver thermal losses", "MWt", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "q_dot_rec_abs", "Receiver thermal power absorbed", "MWt", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "rec_thermal_eff", "Receiver thermal efficiency", "", "", "solar_field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "q_inc_sf_tot", "Field thermal power incident", "MWt", "", "Solar_Field", "*", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "q_dot_rec_inc", "Receiver thermal power incident", "MWt", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "q_dot_rec_thermal_loss", "Receiver thermal losses", "MWt", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "q_dot_rec_abs", "Receiver thermal power absorbed", "MWt", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "rec_thermal_eff", "Receiver thermal efficiency", "", "", "Solar_Field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "q_dot_piping_loss", "Field piping thermal losses", "MWt", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "e_dot_field_int_energy", "Field change in material/htf internal energy", "MWt", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "q_dot_htf_sf_out", "Field thermal power leaving in HTF", "MWt", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "q_dot_freeze_prot", "Field freeze protection required", "MWt", "", "solar_field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "q_dot_piping_loss", "Field piping thermal losses", "MWt", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "e_dot_field_int_energy", "Field change in material/htf internal energy", "MWt", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "q_dot_htf_sf_out", "Field thermal power leaving in HTF", "MWt", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "q_dot_freeze_prot", "Field freeze protection required", "MWt", "", "Solar_Field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "m_dot_loop", "Receiver mass flow rate", "kg/s", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "m_dot_field_recirc", "Field total mass flow recirculated", "kg/s", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "m_dot_field_delivered", "Field total mass flow delivered", "kg/s", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "T_field_cold_in", "Field timestep-averaged inlet temperature", "C", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "T_rec_cold_in", "Loop timestep-averaged inlet temperature", "C", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "T_rec_hot_out", "Loop timestep-averaged outlet temperature", "C", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "T_field_hot_out", "Field timestep-averaged outlet temperature", "C", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "deltaP_field", "Field pressure drop", "bar", "", "solar_field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "m_dot_loop", "Receiver mass flow rate", "kg/s", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "m_dot_field_recirc", "Field total mass flow recirculated", "kg/s", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "m_dot_field_delivered", "Field total mass flow delivered", "kg/s", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "T_field_cold_in", "Field timestep-averaged inlet temperature", "C", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "T_rec_cold_in", "Loop timestep-averaged inlet temperature", "C", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "T_rec_hot_out", "Loop timestep-averaged outlet temperature", "C", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "T_field_hot_out", "Field timestep-averaged outlet temperature", "C", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "deltaP_field", "Field pressure drop", "bar", "", "Solar_Field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "W_dot_sca_track", "Field collector tracking power", "MWe", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "W_dot_field_pump", "Field htf pumping power", "MWe", "", "solar_field", "sim_type=1", "", "" }, - { SSC_OUTPUT, SSC_ARRAY, "recirculating", "Field recirculating (bypass valve open)", "-", "", "solar_field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "W_dot_sca_track", "Field collector tracking power", "MWe", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "W_dot_field_pump", "Field htf pumping power", "MWe", "", "Solar_Field", "sim_type=1", "", "" }, + { SSC_OUTPUT, SSC_ARRAY, "recirculating", "Field recirculating (bypass valve open)", "-", "", "Solar_Field", "sim_type=1", "", "" }, // power block //{ SSC_OUTPUT, SSC_ARRAY, "eta", "PC efficiency: gross", "", "", "powerblock", "sim_type=1", "", "" },