Conversion Process Of Dc To Ac And The Way In Which That Pertains To Solar Farm Investment

Whilst discussing a solar farm project you will need to understand the difference between AC (alternating current) and DC (direct current) voltage. Solar power nameplate voltage is designated as direct current (DC). Electric utility company line voltage is designated as alternating current (AC). In rare cases utility line voltage can be designated as direct current.

Since solar panel products are designated in DC, and electric company programs are in alternating current (AC), it is important to understand how to translate dc into alternating current (AC). The general rule of thumb is to multiply the total direct current (DC) watts by eighty five percent to arrive at alternating current (AC) level.

In California there are various programs that solar farms can participate in. After much study, Commercial Solar Design has discovered that the two most profitable solar farm sizes are three megawatt and 20 megawatt. California legislation provides solar farm projects up to 3MW AC (alternating current) with a guaranteed interconnection in addition to a must-take for investor-owned electric companies. Another program; a RAM (reverse auction mechanism) allows for solar farms of up to 20 megawatts AC.

Whenever you are contemplating a solar farm you must decide on whether to utilize a fixed ground mount or single axis tracker system. Commercial solar design advocates for single axis tracker layouts because the increased cost of single-axis tracker is canceled out by the additional revenue generated. The solar farm investment community has an interest in maximizing project return that single axis trackers provide.

One must also take into consideration property use with regard to solar farms. A 1 MW block alternating current (AC) using single axis trackers on flat acreage in Central California will probably be around 805 feet long by 392 ft wide. When you include several MW blocks, spacing, service roads, setbacks along with other criteria, 1MW AC (alternating current) occupies approximately 7 acres.

While considering a solar farm investment you ought to focus on property and dimensions to fit either a 3MW or 20MW AC (alternating current) solar farm project. That equals either a 21 acre or 140 acre parcel.

Another factor regards CUP (conditional use permitting). The vast majority of sites aren't suitable for solar farm projects resulting from numerous factors including; deficiency of a provision for solar farms within a general plan, not situated in an IOU territory, lack of capacity on pre-existing energy lines, land is blanketed with trees and permit will not be issued for clear cutting, area is within a 100 year floodplain,Williamson Act, far too out of the way to access the existing power lines, an area already saturated with solar power electrical power, community objections, and a lot of other factors. Commercial Solar Design makes a specialty of solar farm projects and will help you determine if your solar farm project is realistic.

When you think you've got a parcel suitable to solar farming, today is an excellent time to get moving on organizing your project. Having said that solar farms are certainly not cheap. A proper solar farm investment will be able to return 15% or more. There is actually a Government grant to cover 30% of the project's overall expense. The remaining amount is divided between 35 percent equity position and 35% loans. Commercial Solar Design has designed a very interesting program for landowners who were not able to supply 35% equity. Possibilities are readily available but you need to move quickly to take advantage prior to when other people fill the capacity allotted to solar farm ventures.

Certain Investor Owned Utilities Use The Project Viability Calculator When Negotiating PPAs With Solar Farm Developer Teams
The Project Viability Calculator uses a number of standardized categories and sub-categories that assist in quantifying the strengths and weaknesses of a particular project. Commercial Solar Design specializes in this type of co-developer work.

How To Make Electricity Using Solar Systems And Additionally Learn How To Calculate Right Amount Of Cells For Your Ideal Volts
With the dear need of renewable sources of electric energy today, people all over the world are trying to come up with ways to get the energy.

Solar Cells For Sale- Start Minimizing Your Electricity Bills And Be Green
You may be worried about how little you know when it comes to using solar power for heat and electricity, and how lost you are when it comes to the idea of shopping for cheap solar panels. This doesn't mean you can't shop smart, so try to relax a bit.

Solar Farming : All The Factors Why Solar Farming Is An Outstanding Investment Decision Intended For Vacant Property
A 24 acre solar farm with dual axis tracking and 3 MW of power can expect to see a 25 year profit in the neighborhood of $19,000,000 after payoff.

Decreasing Solar Energy Farm Construction Risks Via Verified Solar Power EPC (Engineering, Procurement, Construction) Techniques Which Improve Viability.
For solar farms to gain a reputation as a predictable investments, utility and solar EPC communities must work to educate investors about how to understand the risk profile. Additionally addressing risk through common accepted means of mitigation is essential.

Just What Is A Smart Microgrid And Just How Does It Connect With Renewable Energy Solutions?
Microgrids operate by coordinating with the utility to improve customer service, but the infrastructure is controlled either in part (as with a community) or wholly (as with a university) by the local entity.

What Are Natural And Renewable Energy Sources
Can it be done? Can the electricity that we use everyday be produced in our very own homes? Is homemade electricity possible? Can homemade electricity be produced such that your electricity bill may be reduced?