OFF GRID SYSTEMS

Off-grid projects are those where all the energy needed in places where the grid is not available is supplied from the sun. In these systems, electric energy generated by photovoltaic (PV) panels is stored in batteries and the user's energy needs (day-night) are met from these batteries. The capacity of the system can be sized to meet the user's needs throughout the autonomy period (the period when electricity cannot be generated from the sun). It is very important to conduct a professional study here. It is necessary to analyze well the energy consumption of the appliances and how much energy they consume. If necessary, the backup time can be kept a little longer to prevent power outages even on days when there is no sun. These systems result in very sensible commercial outcomes compared to generators and can pay back the investment in a very short time.

Advantages of Off-Grid Systems

Off-grid systems are becoming increasingly popular today as they have the ability to store energy generated for later use, unlike the "use it or lose it" scenario in grid-connected on-grid systems.

Location Independent

Being independent of the grid allows for electricity generation and storage in any desired location.

Uninterrupted Power

Being independent of the grid ensures a continuous and uninterrupted flow of electricity without being affected by power outages.

No Permit Required

There is no need to obtain permission from the relevant electricity distribution company for installation as with on-grid systems.

Fixed Cost

The initial investment cost fixed during installation is not affected by electricity price increases experienced over the years.

Off-Grid Business Implementation Stages

01

Field Survey

During the survey, data such as environmental shading factors, direction analysis, and infrastructure calculations are examined. Before implementing the project in the field, a survey is conducted to ensure that the installed system is more economical and robust.

02

Project Design

Based on the measurements and information obtained during the Field Survey, necessary electrical and mechanical projects required for the GES, along with the layout plan, are prepared. System design is carried out considering current carrying, voltage drop, and grounding calculations.

03

Logistics & Transportation

A plan and program are made for delivering all products packaged for land transportation from the factory to the installation site.

04

Carrier System Assembly

Assembly is carried out according to the specified conditions in the project, taking into account the direction, angle, and placement data, based on environmental data such as seismic load, snow load, wind. In the design of the carrier construction, additional weights and the existing structure of the ground are taken into account.

05

Panel Installation

Panel installation according to the design is done by our experienced team with correct electrical connections, without damaging the panels, at the most optimum time, and with necessary safety measures.

06

Inverter Installation

After mounting the inverters in the appropriate places during the design phase, panel-inverter interconnections are made. Following this, sensor and remote monitoring connections are established with inverter settings.

07

Wiring

AC wiring between the inverters and the main GES panel is carried out according to standards using a design that minimizes the risk of faults.

08

Commissioning

Once all connections and assemblies are completed, the GES undergoes necessary tests, is commissioned after the approval of relevant authorities, and its connection to the grid is completed, and it is handed over to the investor.

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