Estimating the approximate capacity of the solar PV system you require and can install for your facility should be undertaken keeping in mind your requirements, your constraints, and the amount of sunlight available. We list a few steps that allow a methodical approach to sizing your system.
5 Steps to sizing your rooftop PV plant
- Scoping of the project
- Calculating the amount of solar energy available
- Surveying the site
- Calculating the amount of energy needed
- Sizing the solar system
1. Scoping the project
Clearly laying out what you wish to achieve with your rooftop solar PV installation is critical to designing a plant that fits your needs. Examples of different kinds of needs we encounter in our work include
- Completely supports your daytime electrical needs
- Supports lighting loads
- Supports critical loads during power cuts
- Abates diesel consumption
- Provides power for night-time use
2. Calculating the amount of solar energy available
The amount of solar energy available to you is limited by the amount of sunlight that falls on a solar panel per day. This is expressed in kWh/m2/day. We expect about 4-7 kWh/m2/day of solar insolation in India.
At crystalline panel efficiencies (which are the kind used in rooftop systems due to their higher efficiency), we can generate 4 kWh of power per day from a 1 kWp panel. This is an average measure that can vary across different regions in India. You can find more details on output in different Indian states here.
The approximate solar insolation at your location can be determined from the NASA website. To be absolutely certain of solar insolation at a particular site we would have to place sensors on-site that measure the actual insolation received over a period of time. This is both an expensive and time consuming process.
3. Surveying the site
The site survey establishes the suitability of the roof for installing solar on your commercial/industrial unit. Things to watch out for include
- Space available – 1 kW of panels would require 100-130 SF (about 12m2) of shade-free roof area
- Orientation – A south-facing roof is ideal for those in the northern hemisphere
More information on factors affecting the rooftop solar plant output can be found here.
4. Calculating the amount of energy needed
The amount of energy needed is determined based on the load that needs to be supported. Since we have already determined the scope of the project in step 1 we know what equipment needs to be supported. The load represented by this equipment can be calculated as
Total energy requirement/day (Wh) = Wattage of appliance*No. of appliances*Hours of working
This should be divided by 1,000 to be converted into kWh/day. We can illustrate this formula by calculating the load for a sample home
|Appliance||Number||Wattage||Working Hours||Energy (kWh/day)|
This home would require 10 kWh of power per day to satisfy the load. At this point the plant designer might wish to identify large/variable loads that need not be supported by solar power or that can be operated through some other power source to reduce the investment in the solar system.
5. Sizing the solar system
Let us assume that we have limited the load to be supported by the solar PV plant to this:
|Appliance||Number||Wattage||Working Hrs||Energy (Kwh/day)|
This load requires 1.8 kWh/day.
Adding a 30% safety margin to this, and assuming the insolation to be 4kWh/m2/day, we get
System size = (Energy Requirement*1.3) /insolation level
= 1.8*1.3/4 = 0.585 or 585 Wp.
We calculate the panel requirement for this system size assuming we are using 130 kWp panels at 12V.
No. of panels = System size/Panel Rating
= 585/130 = 4.5
Therefore the system requires 5 panels of 130 Wp at 12V.
At this point the system designer may wish to verify if there is sufficient roof space available for installing five 130 Wp panels. Typically, a 1 kWp system requires 100-130 SF so a 585 Wp (0.585 kWp) system would occupy about 59-76 SF of shade-free roof area.
If sufficient roof space is not available, the system designer could revisit the loads that need to be supported to determine which critical loads can be supported based on the amount of energy generation that the available roof area permits.
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We use a 45% safety margin when calculating the inverter size.
Required Inverter size = Total Wattage of all appliances*(1+45%)
Total wattage of appliances is calculated in this table:
Therefore, required inverter size = 550 * (1+45%) = 798 W
The inverter size is greater than the required solar panel capacity (585 Wp), eliminating the risk of the inverter throttling the panel’s output.
|The solar PV system required to power this load would need 5 x 130 Wp 12V panels and an inverter of at least 800 W.|
If sufficient solar energy is not available
If we find from the above steps that the rooftop system will not be able to generate sufficient energy to support the entire load of your commercial/industrial unit (often due to lack of sufficient rooftop space), we have several options before us:
Solar power for critical loads
In this system the critical loads are identified and solar power with battery backup is used to ensure that the critical loads receive power even during a power cut. More details of this system are provided here.
Solar power for light loads
In this system the rooftop solar system is used to support non-critical loads that are not power hungry, such as lighting. Such a system requires the light points to be wired through a separate circuit that can be powered only through solar. The solar system can be coupled with batteries to provide lighting at night as well.
This system is favoured by consumers who consume a lot of diesel due to load shedding. Here the rooftop solar PV system works along with the diesel generator to support the load, and helps reduce diesel consumption. This system, including its financial returns, is discussed in detail here.
Due to the complexity in matching the load that can be powered with the power generating potential of the rooftop we recommend that the final decision on sizing of your rooftop system be taken after consulting with an experienced rooftop solar installer.
- What are the Indian policies and regulations (subsidies, incentives, permissions) that I should consider for my rooftop solar systems?
- Do I have to build my own rooftop plant or can I just buy solar power?
- Does rooftop solar PV generate power during a power failure?
- What is the capacity of the solar power system I require for my facility?
- What are the Warranties and Certifications I should look for in my rooftop PV system?