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Master designing of ” Grid-Tied , Off-grid and Irrigation pumping systems ” with a licensed and Latest PVsyst version.

What you will learn

Designing On-grid solar systems

Designing Off-grid (stand-alone) solar systems

Designing irrigation pumping solar systems

Designing all solar systems with preliminary design tools.

Learning more about the databases of PVsyst

Studying all geographical sites parameters

Import sites from google maps to the PVsyst interface

Adding new sites and import environmental and irradiation data

Studying databases of all solar system components

PV solar panels parameters in PVsyst databases

Stand-alone inverters parameters in PVsyst databases

Deep-cycle solar batteries parameters in PVsyst databases

Charge controllers parameters in PVsyst databases

On-grid inverters parameters in PVsyst databases

Solar pumping controllers (VFD inverters)parameters in PVsyst databases

Surface & submersible pumps parameters in PVsyst databases

Diesel Generators (Genset) in PVsyst as a Backup intervention systems

Adding new components to PVsyst databases

Economic evaluation

Designing large mega-scale PV projects

Ability to get final technical report of the PV station from PVsyst

System Design Board

System sizing: Visual tool

3D Shading Scene

Simulation and results report

Grid Storage

Meteonorm included โ€“ 7.2

PV modules and Model Management, Inverters

Bifacial calculations

Pricing strategy:

Advanced financial analysis

Profitability analysis

Description

A powerful software for your photovoltaic systems

PVsyst is designed to be used by architects, engineers, and researchers.

It is also a very useful educative tool. It includes a detailed contextual Help menu that explains the procedures and models that are used, and offers a user-friendly approach with a guide to develop a project.

PVsyst is able to import meteo data, as well as personal data from many different sources also PVsyst presents results in the form of a full report, specific graphs and tables, and data can be exported for use in other software.

PVsyst 7 includes new features, improvements to the user interface and the user experience, and a new licensing system based on yearly subscriptions.

Whatโ€™s new ?

Here are some of the new features which are available in PVsyst 7:

  • Support of 64-bit architectures : extension of PVsyst capabilities of handling large projects and shading scenes
  • Irradiance: new improved treatment of the circumsolar component, impacts on the electrical shadings and vertical Bi-facial systems
  • System : unlimited number of sub-arrays
  • Shadings : conversion of fixed tables to trackers, new trackers with central gap parameter for bifacial
  • Output AC circuit : definition of several MV and HV transformers, with their specifications
  • Live results display : see results values and graphs while the simulation is running
  • Economic evaluation : Levelized Cost of Energy (LCOE), Net Present Value (NPV), multiple loans of multiple types, advanced depreciation configuration
  • Economic evaluation : availability for Stand-alone and Pumping systems
  • Simulation : display of warnings during the simulation and with the results
  • Module Layout : great improvements in submodule shading calculations accuracy, print of the layout has also been improved and can now be printed in the report
  • User interface : improvements of the user interface and user experience
  • Localization : full-software translation coverage (except the Help), Turkish and Korean languages available


Software features:-

System Design Board

The system design is based on a quick and simple procedure:

  • Specify the desired power or available area
  • Choose the PV module from the internal database
  • Choose the inverter from the internal database

and PVsyst will propose an array/system configuration, that allows you to conduct a preliminary simulation.

The software embeds a color-coded warning / errors messaging system. If thereโ€™s a mismatch, issue, warning with your design, you will be warned within the proper frame.

System sizing: Visual tool

A specific tool gathers all constraints for the sizing of the system :

For the number of modules in a series: the upper diagram shows the I/V curve of the PV array, together with the MPPT range, voltage, power, and current limits of the inverter.

  • For the inverter sizing: the second graph displays the annual distribution of the array power, with the array and inverter nominal power
  • The optimal sizing of the inverter is based on the acceptable overload loss throughout the year. It usually leads to over-size the power ratio (array nominal power by respect to the inverter nom. AC power), by a factor of 1.25. After a good system sizing, you can define different losses like far and near shadings using a full 3D editor for the definition of the environmental and near shading conditions. Specialized tools are also provided for the evaluation of the wiring losses (and other losses like the module quality), the mismatch between modules, soiling, thermal behavior according to the mechanical mounting, system unavailability, etc.

3D Shading Scene

  • User-friendly object manipulation and creation
  • Easy import from external CAD tools (Sketchup, Helios3D, AutoCAD, etc)
  • Quick design: sheds layout, zones of tables
  • Orientation identification and scene validation tools
  • Sun Point of View Simulation
  • Multithreaded shading calculations

Simulation and results report

The simulation calculates the distribution of energies throughout the year.

Main results:


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  1. The total energy production [MWh/y] is essential for the evaluation of the PV systemโ€™s profitability.
  2. The Performance Ratio (PR [%]) describes the quality of the system itself.
  3. The specific energy [kWh/kWp] is an indicator of production based on the available irradiation (location and orientation).
  • Shows the main energies and gains/losses involved in the simulation,
  • Powerful tool for a quick analysis of the systemโ€™s behavior, and potential improvements in the design.

Grid Storage

Storage in a grid system is a complex feature, as it may have different objectives, which lead to different strategies and different PV system configurations. Up to now, we have developed 3 strategies in PVsyst:

  • the storage for enhancing the self-consumption of the PV system owner.
  • a storage for ensuring peak shaving, when the possible power injected into the grid is limited.
  • a storage for the continuity of the userโ€™s electricity feeding, when the grid is weak and often unavailable.

In each case the energy fluxes are different and lead to different simulation results.
As an example we show the energies involved in a self-consumption PV system.

Meteonorm included โ€“ 7.2

  • Direct search for a location using OpenLayers and GeoNames
  • Full Meteonorm v7.2 interpolation program for any location on earth

PV modules and Model Management, Inverters

PV modules and model Management

  • Sandia model implementation and comparison with PVsyst model
  • Tools for optimization parameters (low-light, I/V curve)
  • New parameters (tolerance, IAM profile, Vmax UL)
  • Optimizers (SolarEdge and Maxim)

Inverters

  • New parameters (Transfo, CEC efficiency)
  • Multi-MPPT with asymmetric inputs (unbalanced) and advanced Power Sharing
  • Improvement of choice by manufacturer

Ageing

Multi-year batch simulation:

  • For different operating years, same meteo data
  • For a set of yearly meteo data files
  • Results and graphs on the report

Bifacial calculations

Bifacial model for tracking 1-axis systems (unlimited trackers)

  • Improved the import parameters from the โ€œrealโ€ system defined in 3D
  • Conceptual error in the model, which lead to an underestimation of the rear side irradiance by a factor of 1/GCR (i.e. a factor of 2 or more!)
  • Add the contribution of the Diffuse seen from the rear side.
  • Albedo in monthly values.Seasonal orientation: possibility of negative summer tilt for low Latitudes

Batch calculations

Batch mode and sheds optimization tool

  • Modification of the pitch as parameter
  • Bi-facial: height above ground as parameter

Economic evaluation

System cost evaluation:

  • CAPEX (installation cost)
  • OPEX (operating costs)
  • Abiltiy to define customized costs according to own system

Pricing strategy:

  • Detailed feed-in tariffs definition: fixed, variable or customized, hourly or seasonal variations
  • Selling policy: connection tax, yearly tariff variation, duration of tariff warranty
  • Parameters for self consumption economy

Advanced financial analysis:

  • Investment funds distribution: own funds, loans or subsidies
  • NPV (Net Present Value) and LCOE (Levelized Cost of Energy) calculation
  • Inflation, discount rate and detailed depreciation management

Profitability analysis :

  • Yearly balance, payback period and return on investment rate
  • Graphical results: tables, plots and pie charts
English
language

Content

PART 1 : Introduction

Introduction
Setup of PVsyst version 7 with License activation
pvsyst main interface toolboxes overview lect 3

PART 2 : PVsyst Databases

add new site to PVsyst geographic database
PV Modules in PVsyst Databases
Solar charge controllers in PVsyst
Batteries in PVsyst databases
Grid connected inverters databases SMA 10kwatt Tri-power
Diesel Generators in PVsyst databases
Water Pumps in PVsyst databases
Controllers for pumping (pumps inverters) in PVsyst databases

PART 3 : Preliminary Designing

Preliminary Design Off-grid solar systems

PART 4 : Project Design

Off-grid system designing
Grid-tied (ongrid) solar systems designing
Irrigation solar pumping system designing

PART 5 : Financial & Economic Evaluation

Add manufacturers and retailers to PVsyst databases
Adding prices to PVsyst components

PART 6 : Mega-scale designing with Economic Evaluation

2 Mega Grid -tied solar system with self-consumption and Economic evaluation