Things to know before intalling a solar pv system

Installing a Solar PV system in your home

There are a wide variety of questions our clients have asked us about over the years, so in this article, we aim to help and advise you with some key points you should be aware of BEFORE you buy.

Our free local site survey will determine which system is best suited to your specific needs of those of your property. It is very rare for properties in the Cambridgeshire area to be affected by more than one of these factors which is why we are confident that any solar PV system we specify will be perfect for you.

What you need to know about Solar pv energy

In the UK, our climate is seasonal so the strength of sunlight will vary throughout the year, as does the temperature. Both these factors affect the ability of a solar PV panel to produce electricity.

Here are some important factors that will affect solar PV power generation.

Sunlight: How much do you get?

Your location will determine how much sunlight you receive. The Southwest gets more than the Scottish Highlands for instance. The Government publishes estimates of the output of solar systems across the country using your post code along with the orientation of your pv system relative to South, plus the angle of the roof.

This gives you a reliable indication of the output of your system, the Feed in Tariff (FiT) payments you will receive and the return you can expect from your Solar PV investment.

Sunlight and Solar radiation in different UK regions and times of year.

Solar radiation map of the UK

Daily sunlight intensity over a year

Solar radiation map UK

Solar Intensity Map

Average annual rainfall:

When it’s raining heavily the sunlight has very little chance of penetrating both cloud cover and a virtual water barrier to reach the Solar panels and generated electricity.

Cloud cover:

Cloudy and rainy regions will receive less sunlight than those without rain & clouds. This doesn’t automatically mean that Solar PV panels are a non-starter though as Solar PV panels will typically produce electricity from “diffuse” sunlight even if this is only 20% of optimum levels.

Air density:

Higher altitudes have better exposure to sunlight than those at sea-level. This is simply because the air is thinner at higher altitudes so sunlight is less scattered.

Average annual temperatures: Hotter is not always better

The silicon cells in solar PV panels are semi-conductors. These are more efficient at lower temperatures, so if you live in a very hot area (in summer) this may be a factor to consider. A 5 degree increase above 25 degrees will lead to a 1% reduction in output.  So in the Gulf states where temperatures can exceed 40 degrees they always install additional panels to compensate for this.

Wind: Ensure panels are properly mounted

If you are in an exposed, windy spot, mounting the solar PV array properly is paramount. Wind can damage both the equipment and reduce energy output and therefore your financial returns.  So again, ensure you use an experienced installation company who offer solid guarantees on their work.  We calculate the wind-loading forces on solar arrays to ensure they will be stable in any circumstances and install them in accordance with manufacturer’s instructions to minimise the effect of wind, flexing the panels and creating damaging micro-fissures in the solar cells that result in reduced output

Shade: Sunlight impairment reduces output

Are you in a heavily built-up area or one that is overlooked by tall trees or buildings?  When the sun goes behind a tall building, direct sunlight reaching the panels is reduced; this means the output of the system is reduced.  In the winter the numbers of daylight hours are less, further reducing output.

How obstructions impair sunlight reaching your solar pv panels

Sunlight impairment diagram

So is Solar pv right for you?

None of this means that solar pv won’t work for you, but as part of our service, we offer you a free site survey to assess the most suitable system for your specific location.

Possible mounting points for solar PV panels

House roof pv mounting positions

 

Do the numbers stack up for you? Find out here

To determine how suitable your home might be for solar PV & estimate the likely returns, enter your information
into our free and instant online solar PV output calculator.

 

Calculate solar output from any size of solar pv installation
Click to calculate

If you would like to talk to us about a site survey, you can request a call back or simply contact us by email.

 

Commercial Rooftop Solar PV systems.

The case for commercial rooftop solar PV has historically been constrained by concerns about short-term return on the capital employed.  We believe that there is now a clear and compelling economic case for its widespread adoption.

The cost of solar PV equipment has reduced significantly over the past 3 years and even though Feed in Tariffs (FiTs) have also fallen, the potential savings from producing your own electricity versus the rising cost of buying grid electricity have actually increased.

Also, many businesses are concerned about energy security.  Instability in the former Soviet Union, which supplies a lot of the Gas that Europe burns to produce electricity and the retirement of some of the UK’s coal fired power stations before replacements are built has brought the threat of blackouts which threaten business continuity.

The opportunity in the UK for commercial rooftop solar PV is vast, even without taking into account the inevitable long-term price increases of traditional grid-supplied power. If you factor in the potential to make our existing buildings more energy efficient to reduce electricity consumption, the impact on individual business’s operational costs and “UK plc’s” bottom line are potentially huge.

Generally, there are 2 ways that businesses fund rooftop commercial Solar PV

  1. The building owner/user installs the Solar PV electricity generating system using their capital.

The building owner/user is paid the FiT contract payments and uses the electricity they produce, reducing what they buy from their existing electricity supplier.

Once installed Solar PV generated electricity is a fixed cost, whilst Grid electricity generally increases each year (5%+).  Therefore, the solar PV generated electricity becomes more valuable over time.  Any Electricity not consumed on site is “exported” to the grid and the owner is paid an export tariff under their FiTs contract.

Solar roof top systems make the best business returns when the majority of the electricity produced is consumed on site.  Returns of 10 – 15% are possible from solar roof top projects where 50% or more of the electricity produced is used on site.

Production of on-site electricity also serves to fix that element of operational costs for the 20 year life of the FiT contract and the remaining 10 – 15 years life of the panels.  If the solar roof top system is 50 kWp or smaller, installation is deemed permitted development, not needing planning permission.  However, if planning is required it is unlikely to be refused as Government climate change strategy encourages the installation of solar PV roof top systems.

For example if a 50 kWp system is installed on a farm, where some farm buildings have been converted for mixed use as offices, workshop, or light industrial as well as traditional pig, poultry or dairy farming, this mixed use will mean demand is spread over the day and across the year.

A 50 kWp system using tier 1 equipment will cost approx £50,000 and generate approx 50,000 kWh of electricity a year.

Income from Solar PV generated electricity 
FiT generation tariff income on 100% of output @4.39p/kWhr 2195
FiT export tariff income, on 25% of output @ 4.91p/kWhr 632
Value of 75% of Solar PV electricity @ 13.0p/kWhr*** 4875
System value 1st year 7702
Return on investment 1st year 15.40%

 

*** business uses 75% of system output, therefore not buying same from grid supplier @ 13p/kWhr.

  1. An investor installs the solar PV system; NO capital investment for the building owner.

In this case an investor installs the solar PV system and takes the FiTs payments.  The investor sells the electricity generated by the PV system to the building owner/users at a lower price than they buy electricity from their main grid connected supplier.  Government FiTs contracts are index linked to RPI inflation for 20 yrs, contracts between investor and consumer are typically 20 – 25 yrs.

This solution allows businesses to immediately benefit from reduced electricity bills, index-linked to inflation, and reduced supply risk – without any capital investment or maintenance overhead whatsoever.

If the building owner pays 13p/kWhr for electricity from their grid supplier and 6.5p/kWhr for the Solar PV generated electricity this will mean that they save 50% of their electricity cost on every unit they buy from the investor as soon as the system is operational.

If the investor is producing 75% of all the building occupier’s electricity needs they will make an immediate saving of £2437 a year.  This will continue for the life of the panels, at least 25 years, a total saving of at least £60,000, not allowing for inflation on the cost of the supplier’s electricity.

 

Income from Solar PV generated electricity

Building users saving Building users 25 yr saving
FiT generation tariff income on 100% of output 2195
FiT export tariff income, on 25% of output. 632
Income from sale/use of 75% of Solar PV electricity @ 6.5p/kWhr 2437 2437 60937
System net value 1st year 5264
Return on investment 1st year 10.53%

(The output figures and possible cost of electricity are for illustrative purposes only)

To take advantage of a solar investment opportunity, call us now on 01480 819740, or request a callback using our form.


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