Substructure for Solar Power Plants
The PEG® Version with Conventional PV Module Alignment
Simplified Design
PEG® SD Advantages at a Glance
- Up to 16 degrees slope inclination
- Light weight substructure reducing material, logistics and installation costs, increasing the installation speed and offering lower carbon footprint
- Simple and fast installation reduces labor and machinery costs by more than 60%
- Highly efficient area utilization of 1.6 MWp per hectare
- Flat module angles avoid shading effects and allow maximum space efficiency
- Lower height vs other FT systems increasing installation safety and speed, reducing installation costs and increases the land use.
- No foundations required, allowing cheaper and faster installation and disassembly at the end of the project life
- No heavy machines required
Efficiency Improvement
Cost Reduction
Successful Installation also in winter
Despite heavy snow and rainfall, constantly changing between freezing and thawing temperatures the work at the PEG® SD site in Rottendorf continued without interruptions. The crucial point leading to a successful installation in time lies in the fact that you do not need heavy machinery when installing PEG® mounting system as well as in the light weight components of PEG® (not more than 3 kg/6.6lbs per part).
Josh Unger, Director of Unger Solar: “With the Rottendorf project we could show it once again. With a „normal“ substructure and in these weather conditions I would not have asked my employees to work on site at Rottendorf in January 2021.”
Hillside Construction
Downloads
Overview
PEG® SD
Form for statics
PV substructure
Sales
Henner Jahnke
Chief Sales Officer
Herbert Heidel
Europe, Middle east
Matthew Lusk
North & South America, Caribbean
Amit Chheda
Rooftop & cabling - Asia, India
Yoni Ben Mazia
Israel, Australia
Abhishek Deshpande
Strategic Business Development Manager
Internal Sales Service & Project Management
Andrea Vidoni
Worldwide
Peter Dashwood-Howard
Worldwide
* Explanation of key figures:
MWp/ha: Referring to the complete DC area, including the gaps between the DC blocks/tables
kWp/man-hour: Time for complete installation of a PEG solar power plant incl. inverter stations
MWp/container: Only the substructure
Machine costs: Referring to all machines for the installation of the DC system, compared to a conventional substructure
Labor costs: Labor for complete installation of the PEG solar power plant, incl. inverter stations, compared to a conventional substructure
Logistic costs: All, including machinery and labour, to the site and onsite, compared to a conventional substructure
All figures are indicative, may differ regionally and assuming the use of 380-400W modules
Pictures:
Jurchen Technology GmbH, Meralli Projects PTY Ltd, Belectric GmbH, Volta Solar BV
All data may subject to alterations and errors.