Pvwattsv5

PVWatts photovoltaic system model with simple inputs

PySAM.Pvwattsv5.default(config) Pvwattsv5

Load defaults for the configuration config. Available configurations are:

  • None

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.Pvwattsv5.from_existing(data, optional config) Pvwattsv5

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

PySAM.Pvwattsv5.new() Pvwattsv5
PySAM.Pvwattsv5.wrap(ssc_data_t) Pvwattsv5

Load data from a PySSC object.

Warning

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

Pvwattsv5 is a wrapper for the SSC compute module cmod_pvwattsv5.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.

  • None

Functions

class PySAM.Pvwattsv5.Pvwattsv5

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 = { 'Lifetime': { 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 = { 'Lifetime': { 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.

Lifetime Group

class PySAM.Pvwattsv5.Pvwattsv5.Lifetime
assign(dict) None

Assign attributes from dictionary, overwriting but not removing values.

Lifetime_vals = { var: val, ...}

export() dict

Export attributes into dictionary.

replace(dict) None

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

Lifetime_vals = { var: val, ...}

analysis_period

Analysis period [years]

Required: Required if system_use_lifetime_output=1

Type:

float

dc_degradation

Annual DC degradation for lifetime simulations [%/year]

Required: Required if system_use_lifetime_output=1

Type:

sequence

system_use_lifetime_output

Run lifetime simulation [0/1]

INOUT: This variable is both an input and an output to the compute module.

Required: False. Automatically set to 0 if not assigned explicitly or loaded from defaults.

Type:

float

SolarResource Group

class PySAM.Pvwattsv5.Pvwattsv5.SolarResource
assign(dict) None

Assign attributes from dictionary, overwriting but not removing values.

SolarResource_vals = { var: val, ...}

export() dict

Export attributes into dictionary.

replace(dict) None

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

SolarResource_vals = { var: val, ...}

solar_resource_data

Weather data

Info: dn,df,tdry,wspd,lat,lon,tz

Required: False for configuration with default inputs. May be required if a variable dependent on its value changes. Example: For the Detailed PV - Single Owner configuration, only Subarray 1 is enabled in the configuration defaults, so Subarray 2 inputs would not be required; if Subarray 2 is enabled, then Subarray 2 inputs is required.

Type:

dict

solar_resource_file

Weather file path

Required: False for configuration with default inputs. May be required if a variable dependent on its value changes. Example: For the Detailed PV - Single Owner configuration, only Subarray 1 is enabled in the configuration defaults, so Subarray 2 inputs would not be required; if Subarray 2 is enabled, then Subarray 2 inputs is required.

Type:

str

SystemDesign Group

class PySAM.Pvwattsv5.Pvwattsv5.SystemDesign
assign(dict) None

Assign attributes from dictionary, overwriting but not removing values.

SystemDesign_vals = { var: val, ...}

export() dict

Export attributes into dictionary.

replace(dict) None

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

SystemDesign_vals = { var: val, ...}

array_type

Array type [0/1/2/3/4]

Info: Fixed OR,Fixed Roof,1Axis,Backtracked,2Axis

Constraints: MIN=0,MAX=4,INTEGER

Required: True

Type:

float

azimuth

Azimuth angle [deg]

Options: E=90,S=180,W=270

Constraints: MIN=0,MAX=360

Required: array_type<4

Type:

float

batt_simple_enable

Enable Battery [0/1]

Constraints: BOOLEAN

Required: False. Automatically set to 0 if not assigned explicitly or loaded from defaults.

Type:

float

dc_ac_ratio

DC to AC ratio [ratio]

Constraints: POSITIVE

Required: False. Automatically set to 1.1 if not assigned explicitly or loaded from defaults.

Type:

float

gcr

Ground coverage ratio [0..1]

Constraints: MIN=0.01,MAX=0.99

Required: False. Automatically set to 0.4 if not assigned explicitly or loaded from defaults.

Type:

float

inv_eff

Inverter efficiency at rated power [%]

Constraints: MIN=90,MAX=99.5

Required: False. Automatically set to 96 if not assigned explicitly or loaded from defaults.

Type:

float

losses

System losses [%]

Info: Total system losses

Constraints: MIN=-5,MAX=99

Required: True

Type:

float

module_type

Module type [0/1/2]

Info: Standard,Premium,Thin film

Constraints: MIN=0,MAX=2,INTEGER

Required: False. Automatically set to 0 if not assigned explicitly or loaded from defaults.

Type:

float

system_capacity

System size (DC nameplate) [kW]

Required: True

Type:

float

tilt

Tilt angle [deg]

Options: H=0,V=90

Constraints: MIN=0,MAX=90

Required: array_type<4

Type:

float

Shading Group

class PySAM.Pvwattsv5.Pvwattsv5.Shading
assign(dict) None

Assign attributes from dictionary, overwriting but not removing values.

Shading_vals = { var: val, ...}

export() dict

Export attributes into dictionary.

replace(dict) None

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

Shading_vals = { var: val, ...}

shading_azal

Azimuth x altitude beam shading losses [%]

Required: False for configuration with default inputs. May be required if a variable dependent on its value changes. Example: For the Detailed PV - Single Owner configuration, only Subarray 1 is enabled in the configuration defaults, so Subarray 2 inputs would not be required; if Subarray 2 is enabled, then Subarray 2 inputs is required.

Type:

sequence[sequence]

shading_diff

Diffuse shading loss [%]

Required: False for configuration with default inputs. May be required if a variable dependent on its value changes. Example: For the Detailed PV - Single Owner configuration, only Subarray 1 is enabled in the configuration defaults, so Subarray 2 inputs would not be required; if Subarray 2 is enabled, then Subarray 2 inputs is required.

Type:

float

shading_en_azal

Enable azimuth x altitude beam shading losses [0/1]

Options: 0=false,1=true

Constraints: BOOLEAN

Required: False. Automatically set to 0 if not assigned explicitly or loaded from defaults.

Type:

float

shading_en_diff

Enable diffuse shading loss [0/1]

Options: 0=false,1=true

Constraints: BOOLEAN

Required: False. Automatically set to 0 if not assigned explicitly or loaded from defaults.

Type:

float

shading_en_mxh

Enable month x Hour beam shading losses [0/1]

Options: 0=false,1=true

Constraints: BOOLEAN

Required: False. Automatically set to 0 if not assigned explicitly or loaded from defaults.

Type:

float

shading_en_string_option

Enable shading string option [0/1]

Options: 0=false,1=true

Constraints: BOOLEAN

Required: False. Automatically set to 0 if not assigned explicitly or loaded from defaults.

Type:

float

shading_en_timestep

Enable timestep beam shading losses [0/1]

Options: 0=false,1=true

Constraints: BOOLEAN

Required: False. Automatically set to 0 if not assigned explicitly or loaded from defaults.

Type:

float

shading_mxh

Month x Hour beam shading losses [%]

Required: False for configuration with default inputs. May be required if a variable dependent on its value changes. Example: For the Detailed PV - Single Owner configuration, only Subarray 1 is enabled in the configuration defaults, so Subarray 2 inputs would not be required; if Subarray 2 is enabled, then Subarray 2 inputs is required.

Type:

sequence[sequence]

shading_string_option

Shading string option

Options: 0=shadingdb,1=average,2=maximum,3=minimum

Constraints: INTEGER,MIN=-1,MAX=4

Required: False. Automatically set to -1 if not assigned explicitly or loaded from defaults.

Type:

float

shading_timestep

Timestep beam shading losses [%]

Required: False for configuration with default inputs. May be required if a variable dependent on its value changes. Example: For the Detailed PV - Single Owner configuration, only Subarray 1 is enabled in the configuration defaults, so Subarray 2 inputs would not be required; if Subarray 2 is enabled, then Subarray 2 inputs is required.

Type:

sequence[sequence]

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.Pvwattsv5.Pvwattsv5.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, ...}

ac

AC inverter power [W]

Type:

sequence

ac_annual

Annual AC system output [kWh]

Type:

float

ac_monthly

AC system output [kWh]

Type:

sequence

annual_energy

Annual energy [kWh]

Type:

float

annual_energy_distribution_time

Annual energy production as function of time [kW]

Type:

sequence[sequence]

aoi

Angle of incidence [deg]

Type:

sequence

capacity_factor

Capacity factor [%]

Type:

float

city

City

Type:

str

dc

DC array power [W]

Type:

sequence

dc_monthly

DC array output [kWh]

Type:

sequence

df

Diffuse irradiance [W/m2]

Type:

sequence

dn

Beam irradiance [W/m2]

Type:

sequence

elev

Site elevation [m]

Type:

float

gen

AC system power (lifetime) [kWh]

Type:

sequence

gh

Global horizontal irradiance [W/m2]

Type:

sequence

inverter_count

Inverter count

Type:

float

inverter_efficiency

Inverter efficiency at rated power [%]

Type:

float

kwh_per_kw

Energy yield [kWh/kW]

Type:

float

lat

Latitude [deg]

Type:

float

location

Location ID

Type:

str

lon

Longitude [deg]

Type:

float

monthly_energy

Monthly energy gross [kWh]

Type:

sequence

percent_complete

Estimated percent of total comleted simulation [%]

Type:

float

poa

Plane of array irradiance [W/m2]

Type:

sequence

poa_monthly

Plane of array irradiance [kWh/m2]

Type:

sequence

shad_beam_factor

Shading factor for beam radiation

Type:

sequence

solrad_annual

Daily average solar irradiance [kWh/m2/day]

Type:

float

solrad_monthly

Daily average solar irradiance [kWh/m2/day]

Type:

sequence

state

State

Type:

str

sunup

Sun up over horizon [0/1]

Type:

sequence

tamb

Ambient temperature (dry bulb temperature) [C]

Type:

sequence

tcell

Module temperature [C]

Type:

sequence

tpoa

Transmitted plane of array irradiance [W/m2]

Type:

sequence

ts_shift_hours

Time offset for interpreting time series outputs [hours]

Type:

float

tz

Time zone [hr]

Type:

float

wspd

Wind speed [m/s]

Type:

sequence