Expand this panel to load/save file or profile
Here you can save your input parameters to repeat the simulation later, or load the previously saved input parameters.There are also some profiles if you want to use them.
or


Successful data load of 'Madrid - Wpool-pumping - Track1H' profile.

Geographical data


Project name:
Location:
 
Horizon

Irradiation and ambient temperature

Meteo data selection
 
Start year: End year:
Month Maximum daily temp. [oC] Minimum daily temp. [oC]
January
February
March
April
May
June
July
August
September
October
November
December
Month Mean daily irradiation [Wh/m2] Difuse/Global irradiation [ratio]
January
February
March
April
May
June
July
August
September
October
November
December

Synthetized series from monthly mean daily values







Typical Metheorological Year TMY, hourly series

Start year: End year: TMY given relative to TimeZone UTC+ Apply an additional offset (minutes):
Load data input from local file:






PV Modules

PV Modules

   
 
Relative gain (percentage) under low irradiances:
Tip: Remember to set the 'Simulate bifaciality' option!

PV Generators

System parameters
Structural parameters
 

Converters

Converters
Inverter parameters:
Nominal power [kW]:
Maximum power (kW):
Auxiliary consumptions (kW):
Power efficiency curve:  
Inverter
Points of its efficiency curve:
Inverter parameters:
Nominal power [kW]:
Maximum power (kW):
Auxiliary consumptions (kW):
Power efficiency curve:  
Inverter
Search inverters

Fill technical inverter/variator data in, or search a suitable variator from OMRON manufacturer and then copy its technical data:



Wiring

Wiring
DC wiring losses between PV generator and inverter (%):
AC wiring losses between inverter and MV transformer (%):
AC wiring losses between MV and HV transformers (%):
AC wiring losses between HV transformer and the PPC (%):

Pumping

Type of PV system:
Type of pumping:
Groups of pumping:
System
System:
Hst + Hpool [m]:
Hfriction + drawdown [m]:
Design flow [m3/h]:
First month of irrigation:
Last month of irrigation:
Pumped liquid:
Liquid density [Kg/m3]:
Search suitable pumps
Populate technical pump and motor data, or search a suitable pump from Caprari manufacturer and copy its technical data:
Type of pump:
Pump
Pump:
Number of pumps:
Working frequency:
Model:
Pump curve
Q [m3/h]: H [m]
Shaft power curve
Q [m3/h]: P2 [kW]
Motor
Pump motor:  
Model:
Rated shaft power [kW]:
Rated speed used for pump data [rpm]:
Minimum speed, relative to the rated speed, for water cooling [%]:
Maximum speed, relative to the rated speed:
Mains frequency (Hz):
Rated voltage:
Motor power efficiency curve
P2 [kW] Efficiency [%]

Options

Options
Analysis type:
Optimum Slope:
Soiling impact (%):
Spectral response:
Diffuse radiation modeling:
Monthly diffuse correlation:  
Daily diffuse correlation:  
Hourly diffuse correlation:  
Shading model:
Cell temperature model:
IAM model:
Minimum irradiance (W/m2):
Ground Reflectance:

Simulate bifaciality:
Spectral response model (back-side of the bifacial modules):
IAM model (back-side of the bifacial modules):
Soiling impact (back-side of the bifacial modules) [%]:
Relative yields:
Get extended detailed results:

Time parameters

Time
Simulation days:
Simulation step (minutes):
Time reference:

Report

Simulation results


1-Simulation or combined N-simulations


You'll find here your simulations results when you click the Simulate! button



© 2021 - PV irrigation system simulation has been partially supported by the European Commission with the H2020 project MASLOWATEN www.maslowaten.eu