TcsgenericSolar

CSP power system model with solar field characterized using a table of optical efficiency values

PySAM.TcsgenericSolar.default(config) → TcsgenericSolar

Load defaults for the configuration config. Available configurations are:

• “GenericCSPSystemAllEquityPartnershipFlip”

• “GenericCSPSystemCommercial”

• “GenericCSPSystemLCOECalculator”

• “GenericCSPSystemLeveragedPartnershipFlip”

• “GenericCSPSystemMerchantPlant”

• “GenericCSPSystemNone”

• “GenericCSPSystemSaleLeaseback”

• “GenericCSPSystemSingleOwner”

Note

Some inputs do not have default values and may be assigned a value from the variable’s Required attribute. See variable attribute descriptions below.

PySAM.TcsgenericSolar.from_existing(data, optional config) → TcsgenericSolar

Share data with an existing PySAM class. If optional config is a valid configuration name, load the module’s defaults for that configuration.

PySAM.TcsgenericSolar.new() → TcsgenericSolar

PySAM.TcsgenericSolar.wrap(ssc_data_t) → TcsgenericSolar

Load data from a PySSC object.

Warning

Do not call PySSC.data_free on the ssc_data_t provided to wrap()

TcsgenericSolar is a wrapper for the SSC compute module cmod_tcsgeneric_solar.cpp

Interdependent Variables

The variables listed below are interdependent with other variables. If you change the value of one of these variables, you may need to change values of other variables. The SAM user interface manages these interdependent variables, but in PySAM, it is up to you change the value of all interdependent variables so they are consistent. See Interdependent Variables for examples and details.

• eta_des

• qsf_des

• solarm

• system_capacity

• w_des

Functions

class PySAM.TcsgenericSolar.TcsgenericSolar

This class contains all the variable information for running a simulation. Variables are grouped together in the subclasses as properties. If property assignments are the wrong type, an error is thrown.

assign(dict) → None

Assign attributes from nested dictionary, except for Outputs

nested_dict = { 'weather': { var: val, ...}, ...}

execute(int verbosity) → None

Execute simulation with verbosity level 0 (default) or 1

export() → dict

Export attributes into nested dictionary

get_data_ptr() → Pointer

Get ssc_data_t pointer

replace(dict) → None

Replace attributes from nested dictionary, except for Outputs. Unassigns all values in each Group then assigns from the input dict.

nested_dict = { 'weather': { var: val, ...}, ...}

unassign(name) → None

Unassign a value in any of the variable groups.

value(name, optional value) → None | float | dict | sequence | str

Get or set by name a value in any of the variable groups.

Weather Group

class PySAM.TcsgenericSolar.TcsgenericSolar.Weather

assign(dict) → None

Assign attributes from dictionary, overwriting but not removing values.

Weather_vals = { var: val, ...}

export() → dict

Export attributes into dictionary.

replace(dict) → None

Replace attributes from dictionary, unassigning values not present in input dict.

Weather_vals = { var: val, ...}

azimuth

Azimuth angle of surface/axis

Required: True

Type:

float

file_name

local weather file path

Constraints: LOCAL_FILE

Required: True

Type:

str

tilt

Tilt angle of surface/axis

Required: True

Type:

float

track_mode

Tracking mode

Required: True

Type:

float

GenericSolar Group

class PySAM.TcsgenericSolar.TcsgenericSolar.GenericSolar

assign(dict) → None

Assign attributes from dictionary, overwriting but not removing values.

GenericSolar_vals = { var: val, ...}

export() → dict

Export attributes into dictionary.

replace(dict) → None

Replace attributes from dictionary, unassigning values not present in input dict.

GenericSolar_vals = { var: val, ...}

system_capacity

Nameplate capacity [kW]

Required: True

The value of system_capacity depends on the following variables:

• w_des

Type:

float

TouTranslator Group

class PySAM.TcsgenericSolar.TcsgenericSolar.TouTranslator

assign(dict) → None

Assign attributes from dictionary, overwriting but not removing values.

TouTranslator_vals = { var: val, ...}

export() → dict

Export attributes into dictionary.

replace(dict) → None

Replace attributes from dictionary, unassigning values not present in input dict.

TouTranslator_vals = { var: val, ...}

weekday_schedule

12x24 Time of Use Values for week days

Required: True

Type:

sequence[sequence]

weekend_schedule

12x24 Time of Use Values for week end days

Required: True

Type:

sequence[sequence]

Type260 Group

class PySAM.TcsgenericSolar.TcsgenericSolar.Type260

assign(dict) → None

Assign attributes from dictionary, overwriting but not removing values.

Type260_vals = { var: val, ...}

export() → dict

Export attributes into dictionary.

replace(dict) → None

Replace attributes from dictionary, unassigning values not present in input dict.

Type260_vals = { var: val, ...}

OpticalTable

Optical table [none]

Required: True

Type:

sequence[sequence]

PC_T_corr

Power conversion temperature correction mode (1=wetb, 2=dryb) [none]

Constraints: INTEGER

Required: True

Type:

float

T_pcdes

Power conversion reference temperature [C]

Required: True

Type:

float

T_sfdes

Solar field design point temperature (dry bulb) [C]

Required: True

Type:

float

Wpar_prodD_coefs

DNI-based production parasitic adjustment coefs. [m2/W]

Required: True

Type:

sequence

Wpar_prodQ_coefs

Part-load production parasitic adjustment coefs. [1/MWe]

Required: True

Type:

sequence

Wpar_prodT_coefs

Temp.-based production parasitic adjustment coefs. [1/C]

Required: True

Type:

sequence

diswos

Time-of-dispatch control for without-solar conditions [none]

Required: True

Type:

sequence

disws

Time-of-dispatch control for with-solar conditions [none]

Required: True

Type:

sequence

etaQ_coefs

Part-load power conversion efficiency adjustment coefficients [1/MWt]

Required: True

Type:

sequence

etaT_coefs

Temp.-based power conversion efficiency adjustment coefs. [1/C]

Required: True

Type:

sequence

eta_des

Design power cycle gross efficiency [none]

Required: True

The value of the following variables depends on eta_des:

• qsf_des

Type:

float

eta_lhv

Fossil backup lower heating value efficiency [none]

Required: True

Type:

float

eta_opt_gen

General/other optical derate [none]

Required: True

Type:

float

eta_opt_soil

Soiling optical derate factor [none]

Required: True

Type:

float

exergy_table

Exergy table [none]

Required: True

Type:

sequence[sequence]

f_Wpar_fixed

Fixed capacity-based parasitic loss fraction [MWe/MWcap]

Required: True

Type:

float

f_Wpar_prod

Production-based parasitic loss fraction [MWe/MWe]

Required: True

Type:

float

f_charge

Storage charging energy derate [none]

Required: True

Type:

float

f_disch

Storage discharging energy derate [none]

Required: True

Type:

float

f_etes_0

Initial fractional charge level of thermal storage (0..1) [none]

Required: True

Type:

float

f_sfhl_ref

Reference solar field thermal loss fraction [MW/MWcap]

Required: True

Type:

float

f_startup

Equivalent full-load hours required for power system startup [hours]

Required: True

Type:

float

f_teshl_ref

Reference heat loss from storage per max stored capacity [kWt/MWhr-stored]

Required: True

Type:

float

f_wmax

Maximum over-design power cycle operation fraction [none]

Required: True

Type:

float

f_wmin

Minimum part-load power cycle operation fraction [none]

Required: True

Type:

float

fdisp

Fossil backup output control factors [none]

Required: True

Type:

sequence

hrs_tes

Equivalent full-load hours of storage [hours]

Required: True

Type:

float

ibh

Beam-horizontal irradiation [kJ/hr-m^2]

Required: True

Type:

float

ibn

Beam-normal (DNI) irradiation [kJ/hr-m^2]

Required: True

Type:

float

interp_arr

Interpolate the array or find nearest neighbor? (1=interp,2=no) [none]

Constraints: INTEGER

Required: True

Type:

float

irr_des

Irradiation design point [W/m2]

Required: True

Type:

float

istableunsorted

Is optical table unsorted format? [none]

Required: True

Type:

float

itoth

Total horizontal irradiation [kJ/hr-m^2]

Required: True

Type:

float

latitude

Site latitude

Required: True

Type:

float

longitude

Site longitude

Required: True

Type:

float

ntod

Number of time-of-dispatch periods in the dispatch schedule [none]

Required: True

Type:

float

qdisp

TOD power output control factors [none]

Required: True

Type:

sequence

qsf_des

Solar field thermal production at design [MWt]

Required: True

The value of qsf_des depends on the following variables:

• eta_des

• solarm

• w_des

Type:

float

rad_type

Solar resource radiation type (1=DNI,2=horiz.beam,3=tot.horiz) [none]

Constraints: INTEGER

Required: True

Type:

float

sfhlQ_coefs

Irr-based solar field thermal loss adjustment coefficients [1/MWt]

Required: True

Type:

sequence

sfhlT_coefs

Temp.-based solar field thermal loss adjustment coefficients [1/C]

Required: True

Type:

sequence

sfhlV_coefs

Wind-based solar field thermal loss adjustment coefficients [1/(m/s)]

Required: True

Type:

sequence

solarm

Solar multiple [none]

Required: True

The value of the following variables depends on solarm:

• qsf_des

Type:

float

storage_config

Thermal storage configuration [none]

Required: True

Type:

float

tdb

Ambient dry-bulb temperature [C]

Required: True

Type:

float

teshlT_coefs

Temp.-based thermal loss adjustment - constant coef. [1/C]

Required: True

Type:

sequence

teshlX_coefs

Charge-based thermal loss adjustment - constant coef. [1/MWhr-stored]

Required: True

Type:

sequence

theta_dep

Solar elevation angle at which the solar field begins operating [deg]

Required: True

Type:

float

theta_stow

Solar elevation angle at which the solar field stops operating [deg]

Required: True

Type:

float

timezone

Site timezone [hr]

Required: True

Type:

float

twb

Ambient wet-bulb temperature [C]

Required: True

Type:

float

vwind

Wind velocity [m/s]

Required: True

Type:

float

w_des

Design power cycle gross output [MWe]

Required: True

The value of the following variables depends on w_des:

• qsf_des

• system_capacity

Type:

float

AdjustmentFactors Group

class PySAM.AdjustmentFactors.AdjustmentFactors

assign() → None

Assign attributes from dictionary

export() → Dict

Export attributes into dictionary

constant

AC Constant loss adjustment [%]

dc_constant

DC Constant loss adjustment [%]

dc_en_hourly

Enable DC hourly-based adjustment factors [0/1]

dc_en_periods

Enable DC period-based adjustment factors [0/1]

dc_en_timeindex

Enable DC lfetime adjustment factors [0/1]

dc_hourly

DC Hourly Adjustment Factors [%]

dc_periods

DC Period-based Adjustment Factors [%]

dc_timeindex

DC Lifetime Adjustment Factors [%]

en_hourly

Enable AC hourly-based adjustment factors [0/1]

en_periods

Enable AC period-based adjustment factors [0/1]

en_timeindex

Enable AC lfetime adjustment factors [0/1]

hourly

AC Hourly Adjustment Factors [%]

periods

AC Period-based Adjustment Factors [%]

sf_constant

DC Constant loss adjustment [%]

sf_en_hourly

Enable SF hourly-based adjustment factors [0/1]

sf_en_periods

Enable SF period-based adjustment factors [0/1]

sf_en_timeindex

Enable SF lfetime adjustment factors [0/1]

sf_hourly

SF Hourly Adjustment Factors [%]

sf_periods

SF Period-based Adjustment Factors [%]

sf_timeindex

SF Lifetime Adjustment Factors [%]

timeindex

AC Lifetime Adjustment Factors [%]

Outputs Group

class PySAM.TcsgenericSolar.TcsgenericSolar.Outputs

assign(dict) → None

Assign attributes from dictionary, overwriting but not removing values.

Outputs_vals = { var: val, ...}

export() → dict

Export attributes into dictionary.

replace(dict) → None

Replace attributes from dictionary, unassigning values not present in input dict.

Outputs_vals = { var: val, ...}

annual_energy

Annual Energy [kWh]

Type:

float

annual_energy_distribution_time

Annual energy production as function of time [kW]

Type:

sequence[sequence]

annual_fuel_usage

Annual fuel usage [kWh]

Type:

float

annual_q_dump_tot

Total dumped energy [MWht]

Type:

float

annual_q_fossil

Thermal energy supplied from aux firing [MWht]

Type:

float

annual_q_from_tes

Thermal energy from storage [MWht]

Type:

float

annual_q_hl_sf

Solar field thermal losses [MWht]

Type:

float

annual_q_hl_tes

Thermal losses from storage [MWht]

Type:

float

annual_q_sf

Solar field delivered thermal power [MWht]

Type:

float

annual_q_startup

Power conversion startup energy [MWht]

Type:

float

annual_q_to_pb

Thermal energy to the power conversion system [MWht]

Type:

float

annual_q_to_tes

Thermal energy into storage [MWht]

Type:

float

annual_w_gr

Total gross power production [kWh]

Type:

float

beam

Resource Beam normal irradiance [W/m2]

Type:

sequence

capacity_factor

Capacity factor [%]

Type:

float

conversion_factor

Gross to Net Conversion Factor [%]

Type:

float

diff

Resource Diffuse horizontal irradiance [W/m2]

Type:

sequence

e_in_tes

TES thermal energy available [MWht]

Type:

sequence

enet

Cycle electrical power output (net) [MWe]

Type:

sequence

eta_cycle

Cycle efficiency (gross)

Type:

sequence

eta_opt_sf

Field collector optical efficiency [none]

Type:

sequence

f_effpc_qtpb

Cycle efficiency load-based correction

Type:

sequence

f_effpc_tamb

Cycle efficiency temperature-based correction

Type:

sequence

f_sfhl_qdni

Field thermal power load-based loss correction [none]

Type:

sequence

f_sfhl_tamb

Field thermal power temp.-based loss correction [none]

Type:

sequence

f_sfhl_vwind

Field thermal power wind-based loss correction [none]

Type:

sequence

gen

System power generated [kW]

Type:

sequence

global

Resource Global horizontal irradiance [W/m2]

Type:

sequence

hour

Resource Hour of Day

Type:

sequence

kwh_per_kw

First year kWh/kW [kWh/kW]

Type:

float

month

Resource Month

Type:

sequence

monthly_energy

Monthly Energy Gross [kWh]

Type:

sequence

monthly_q_dump_tot

Total dumped energy [MWt]

Type:

sequence

monthly_q_fossil

Thermal energy supplied from aux firing [MWt]

Type:

sequence

monthly_q_from_tes

Thermal energy from storage [MWt]

Type:

sequence

monthly_q_hl_sf

Solar field thermal losses [MWt]

Type:

sequence

monthly_q_hl_tes

Thermal losses from storage [MWt]

Type:

sequence

monthly_q_sf

Solar field delivered thermal power [MWt]

Type:

sequence

monthly_q_startup

Power conversion startup energy [MWt]

Type:

sequence

monthly_q_to_pb

Thermal energy to the power conversion system [MWt]

Type:

sequence

monthly_q_to_tes

Thermal energy into storage [MWt]

Type:

sequence

monthly_w_gr

Total gross power production [kWh]

Type:

sequence

pres

Resource Pressure [mbar]

Type:

sequence

q_dump_teschg

Cycle thermal energy dumped - solar field [MWt]

Type:

sequence

q_dump_tesfull

Cycle thermal energy dumped - TES is full [MWt]

Type:

sequence

q_dump_tot

Cycle thermal energy dumped total [MWt]

Type:

sequence

q_dump_umin

Cycle thermal energy dumped - min. load requirement [MWt]

Type:

sequence

q_fossil

Fossil thermal power produced [MWt]

Type:

sequence

q_from_tes

TES thermal energy from storage [MWt]

Type:

sequence

q_gas

Fossil fuel used [MWt]

Type:

sequence

q_hl_sf

Field thermal power loss total [MWt]

Type:

sequence

q_hl_tes

TES thermal losses from tank(s) [MWt]

Type:

sequence

q_inc

Field thermal power incident [MWt]

Type:

sequence

q_sf

Field thermal power total produced [MWt]

Type:

sequence

q_startup

Cycle thermal startup energy [MWt]

Type:

sequence

q_to_pb

Cycle thermal power input [MWt]

Type:

sequence

q_to_tes

TES thermal energy into storage [MWt]

Type:

sequence

solazi

Resource Solar Azimuth [deg]

Type:

sequence

solzen

Resource Solar Zenith [deg]

Type:

sequence

system_heat_rate

System heat rate [MMBtu/MWh]

Type:

float

tdry

Resource Dry bulb temperature [C]

Type:

sequence

twet

Resource Wet bulb temperature [C]

Type:

sequence

w_gr

Cycle electrical power output (gross) [MWe]

Type:

sequence

w_gr_fossil

Cycle electrical power output (gross, fossil share) [MWe]

Type:

sequence

w_gr_solar

Cycle electrical power output (gross, solar share) [MWe]

Type:

sequence

w_par_fixed

Fixed parasitic losses [MWh]

Type:

sequence

w_par_offline

Offline parasitics [MWh]

Type:

sequence

w_par_online

Online parasitics [MWh]

Type:

sequence

w_par_prod

Production-based parasitic losses [MWh]

Type:

sequence

w_par_tot

Total parasitic losses [MWh]

Type:

sequence

wspd

Resource Wind Speed [m/s]

Type:

sequence