TL;DR On 12 March 2026, Ofgem officially granted Tesla a full retail electricity supply licence. Tesla Electric is coming to the UK. Anyone can sign up - you do not need a Tesla car or a Powerwall. But the more Tesla hardware you have, the more the system works in your favour. Powerwall owners can realistically reduce their annual electricity bill by £700 or more, and earn additional income through a Virtual Power Plant - before Tesla Electric has even launched, using tariffs available today.
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Yes, you can install solar panels on a flat roof. Modern ballasted mounting systems are non-penetrative, so there is no drilling through your roof membrane. Panels are tilted at around 10 degrees and can face south or be mounted east/west depending on your roof shape. No planning permission is needed for most properties. A south-facing system in southern England generates around 900 kWh per kWp per year. Costs start at roughly £1,200 to £1,800 per kWp for domestic systems.
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Care homes have one of the most consistent and unavoidable energy profiles of any building in the UK. Heating runs all day. Lighting runs all night. Medical equipment does not pause. Staff are on site around the clock. There is no quiet period where you can simply switch things off and wait for cheaper rates.
Electricity bills in the UK continue to rise because the market is still heavily influenced by global energy prices, particularly gas. Even though we generate a growing share of electricity from renewables, gas often sets the wholesale price of electricity. When global supply is disrupted or demand increases, prices rise across the board. This has been seen repeatedly in recent years, and it means households remain exposed to factors completely outside their control. As long as the UK relies on gas as a core part of its energy mix, price volatility is likely to remain.
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The UK Government has announced up to £1 billion of investment into community and local energy projects under its “Local Power Plan”, delivered via Great British Energy. The stated aim is to help communities and local authorities own and benefit from clean power projects, with funding expected to be delivered through grants and loans, and further scheme detail due later. (GOV.UK)
Running a charity is a constant balancing act. You're always trying to maximise your impact while keeping a close eye on the budget. Every pound spent on utility bills is a pound less for your core mission. It's frustrating, isn't it? Especially when energy prices feel like a rollercoaster you never signed up for.
For those who have their finger on the pulse of the solar energy market, it's becoming obvious that there is an increasing shift towards the manufacture and use of n-type solar from p-type panels in both commercial and domestic settings, to the point where the former now dominate. But why has this shift come about, and more fundamentally what is the difference between the two?
In the space of just a few years, the average panel we install on domestic projects has shot up from around 315W to at least 375W, with more and more residential modules breaking the 400W barrier.
This is down to a few factors, such as the widespread adoption of new, more efficient technologies, bigger cells and bigger modules:
When researching solar PV, you may have come across the phrase ‘tier 1 solar panels’. It’s used as a selling point by some manufacturers and installers to demonstrate the reliability of their products. But is that really the case?
