Green Energy Solutions In Collaboration With Go Green Syria & Farran Group
Commercial/offices & civil buildings combined with self-efficient solar pv power supply
For Commercial Government Projects
We can integrate solar pv to any existing commercial or civil building allowing each building to be self-efficient with green energy supply with battery storage or with direct feed into the electricity grid.
Hospitals, Medical Centers, Schools, Universities, Sports Centers, Leisure Centers & Shopping Centers
Integrating solar pv into buildings such as hospitals, medical centers and schools allows vital services to be received by the public without power supply interruptions. Integration can be applied to existing structures or integrated as part of the architectural design of a new building.
Meeting Government Green Energy Road Map
From -200MW- 1,000MW
Government Green Energy Road Map
Many Governments have a major shortage of electricity supply and in many countries where there are many rural areas where power supply cannot be applied, solar pv is the perfect solution in applying solar pv farms in different locations in a country so as to allow all its citizens to access green power supply.
SOLAR/PV GREEN ENERGY SOLUTION
Residential accommodation combined with self efficient solar pv power supply
SOLAR /PV FOR RESIDENTIAL USE
Solar PV is used primarily for grid-connected electricity to operate residential appliances, commercial equipment, lighting and air conditioning for all types of buildings. Through stand-alone systems and the use of batteries, it is also well suited for remote regions where there is no electricity source. Solar PV panels can be ground mounted, installed on building rooftops or designed into building materials at the point of manufacturing.
The efficiency of solar PV is well suited to hotter climates and also can be adapted to increase efficiency in colder temperatures and is also particularly well-suited for colder climate countries. A number of technologies are available which offer different solar conversion efficiencies and pricing.
Solar PV modules can be grouped together as an array of series and parallel connected modules to provide any level of power requirements, from mere watts (W) to kilowatt (kW) and megawatt (MW) size.
For residential, commercial or industrial buildings use, the size of the solar array, battery bank, and AC inverter required for a typical solar PV application depends on a number of factors, such as the amount of electricity you use, the amount of sunlight at the site, the number of days without backup that you require, and the peak electricity demand at any given time. Sufficient battery storage can easily allow a solar PV system to operate fully independently of a utility or gen-set back-up.
On the technology side, any excess power produced allows you to interconnect your PV system to your local utility company -- there are no technical barriers. There may be regulations, however, that you will need to work through with your utility, in order for them to allow you to generate your own electricity. Most solar PV equipment can be easily checked to ensure that it meets the provisions of the Code for safety purposes.
PV modules should be oriented between south-east and south-west (due south is best). Modules generally need an unobstructed view of the sun all the year. Systems can be sized to provide 100 percent of your electricity consumption at a cottage or campsite, or as a supplement to conventional utility electricity or gen-set electricity. A tracking system can orient the solar array to maximize its electricity production throughout the day and the year by tracking the movement of the sun, though this is typically not practical for most applications.