(I note that in the alternate universe where Ed Miliband became PM because he didn't eat a bacon sandwich, we could have had this a decade ago. It is embarrassing to be beaten on environmentalist regulatory efficiency by Germany)
British industry and standards bodies think this is an unsafe plan.
Of course they would because it's work being taken away from them but it would be allowing people to plug generators into ring finals with unidirectional breakers. It's not even guaranteed that the circuit is protected by anything newer than fuse wire or an MCB. No guaranteed earth leakage detection. No guaranteed surge protection. Relying on the cheapest inverters to sync frequency accurately. And
I have more faith in German standards and work ethic than our own.
In the US, Utah has allowed balcony solar since May 2025 and Virginia is expected to allow it starting in January 2027 (awaiting the governor's signature).
He also removed the effective ban on onshore wind construction that was introduced a month after he lost the election, restarting after a decade of lost opportunity.
This Trump-level idiocy that is just never mentioned, even as people blame the gas burned in england on windy days as a cost of wind curtailment, when the curtailment is more a like a third of the cost. Burning gas to power people who chose not to build turbines is the other 2/3rds.
In the alternate world that is tens of billions of gas costs avoided to date and tens of billions more in future.
I note that in the alternate universe where Ed Miliband became PM because he didn't eat a bacon sandwich, we could have had this a decade ago
I read what is happening in exactly the opposite way. To me it shows that Milliand and the government at large do very little with no strategic thinking and no plan (same as the guys before in fairness but this government was supposed to be soo different...) and, in this case, is only reacting in a panic after almost 2 years in office to the pressure of "doing something" because of the Iran war, while also being told (slight mitigating circumstances for Milliband) that it mustn't cost anything. I always picture scenes from The Thick of It/ In the Loop when I imagine how they come up with 'ideas'.
Several recent HN posts about "time" and these correlate superbly in relation to the now obvious, to nearly all, global energy issues. Those proactive in a reactive world are often mocked and laughed at until as such passage of time is achieved for those only reactive to learn of the proactive's hindsight choices. For those in the United States aware of the 'behind the scenes' energy grid issues this insight reflects that prices will not be dropping for those electrons we all so depressively require daily just like our air and water. Energy grid decentralization is occurring with the actions of each individual and this article supports exactly that because no one alive can survive in our modern world without those electrons. "Necessity is the mother of invention" only now resonates for some while the futurists here that acted long ago acutely understand this growing trend.
I live in Germany, installed a micro solar system in September 2024. Since then, we've been producing 45% of our electricity consumption ourselves. This has saved us 550€, while the initial cost was around 800€. So this September, after 2 years, the system will have paid for itself.
The UK previously didn't allow small plug in solar panels (the kind that you just plug in to a mains socket) due to, I believe, safety reasons. This has changed within the last few days https://energysavingtrust.org.uk/solar-roadmap/
"Many consumers want to know how long it will take them to make back the upfront costs of solar"
my answer is that the payback is imediate, right from the first moment watching as energy is generated out of thin air, and the sudden relief from getting off the energy angst missery-go-round, and the sheer borring inertness of solar pv as it does the thing with zero detectable effort, is gratifying and relaxing in a way that money never gives.
I will add that solar pv is increadably robust, and damage tollerant as well, you can drive a claw hammer through a panel, and while it does not improve the performance, the degradation is actualy not that much, and it will continue to function for years
Can anybody explain how these plug-in solar panels work? I am suprised that it's possible to just plug them in to your wall socket.
For instance, isn't it complicated to have their output be in perfect sync with the frequency that comes in via the electricity net? Because to me it seems that if they won't, you will have lower benefits or even a net minus after plugging it in.
For european individuals, yes. For european nations, not in the least. They try to avoid independent consumers and producers of energy with all the regulations they can throw to them.
In the US, Distribution costs (the separate charge outside of your energy cost on your utility bill) are also incredibly high and going to keep rising as infrastructure costs mount. In my area, my distribution costs is actually more than my energy cost so the only way I ever think about solar is if I can decouple from the grid completely and get rid of those distribution costs. Got a long lo no ways to go
Practical...if you ignore hot water. Once you add that into the mix, you either need a lot of space for a large hot water tank, or a very big battery. Peak charges make tankless resistive water heaters very expensive to run.
Heck, I don't even have anywhere to place a heatpump, let alone a hot water tank.
"Suddenly" is horrific evidence that the government has no idea how to do long-term plans.
Wait until you tell them you can run cars entirely on electricity from a solar farming. I'm sure they will ignore you until the price of diesel reaches four-digit territory. 1000p today? If only we didn't have to pay these incredible prices, what a miracle that would be..
i have been looking on this for an year+.. Here some current (online-shops) prices in Bulgaria.. say shop.chepakov.com / kameasolar.com
- panel 490Wp 2sq.m chinese = ~80E
- battery 5kwh Li chinese = ~1200E , non-chinese ~2000E+
- hybrid invertor+charger 4kw = ~800E chinese , ~2000E non-chinese
- grid and regulations:
-- day price: 0.15E/kWh, night: 0.09E/kWh
-- no such thing as spot prices - summer or winter, peak sun or midnight, no difference
-- can install anything AS LONG AS Nothing goes back into grid - and does not break other city/dwelling rules
if one gets the electronics from Germany - geizheis.de - prices are half, coz a) no VAT, b) less middlemen . Even some smaller things come with free postage - from Germany to Bulgaria ; i did buy several smaller chargers/inverters (5kg), while local sellers here have no such ideas. But anyway.
The (proven) efficiency one can get is about 50-60% per Wp (if there is sun). So.. it depends how much panels one can install as that is the monie-source, all else is monie-sink :/
Rough Napkin math, electronics with german prices, ~5 hours per day sun on average: 10 panels (1000E) + 2 batteries (2000E) + inverter (1000E) ~~4000E yielding on average 440kwh/month i.e. pay itself in 5-7+ years, mostly for summer loads. While 5 panels + 1 battery + inverter ~2500E -> ~220kwh/month -> 6-8+ years
BUT only IF you can use that much electricity, otherwise it will take much longer to repay. And, batteries have to be replaced probably in 5-7 years, depending on depth-of-discharge.
In most places here everything is electrical. i have convectors, boilers, stove, etc. No A/C. (all other electrics is maybe under 2kw in total). i use like day/night 400/250kWh in summer, 1400/800 kWh in winter. Some people have noisy heat pumps but doubt that changes things much.
If it was a separate house - i would have done it long ago. But it's a block of flats.
So... small Balcony stuff makes no sense (a very expensive UPS?), big balcony stuff (like putting those 5 panels as balcony's shade.. a) probably won't be allowed, b) only a short balcony faces south-ish.
The roof of the building is empty - 250sq.m - and can hold about 75 panels - but dividing that into 15 (or 50+ in higher buildings).. is not pretty. a) Making one single farm and splitting the bill/output seems the only reasonable way but does not work without completely rewiring the building's grid input and measurings; not doable without bunch of permissions/certifications ; while b) making 15 separate 5-panels-packs - is not much economical, plus few kilometers of cables.. And c) If only few people want panels on roof, maybe some form of renting the roof space from others who don't want.. may work for a while but as any renting, may go crazy.
So.. been sitting and thinking.. and recently seems only sitting..
I once read an article that in Berlin the sewage system is flushed with fresh water because too many people have installed water saving toilet flushers. So plenty of people bought these water savers and now the price of water has gone up because the water that is directly flushed needs to be paid too.
The 'balcony power stations' are the same thing. They get subsidised, and you even get a fixed kWh price when pushing into the grid.
The problem is that in the end it will become more expensive for everybody because at times you have a surplus driving the whole sale electricity prices into the negative while still paying fixed prices for injection into the grid.
To make this economically viable, you have to have everyone paying spot prices. Everything else is just green ideology driven inefficiency.
Just to make it clear, I think renewables are an important option for the future. But to make them a viable option of the electricity energy mix, supply and demand, storage and grid capacity need to be taken into account.
Last not least, there is plenty of low hanging fruit to drive CO2 emissions down: drive up the truck tolls. Currently you have potatoes farmed in Germany, driven to Poland to get washed, transported to Italy to be converted to french fries and transferred back to Germany into the super markets.
Same goes for home office, during Covid it was possible for many workers to continue with their work. Does an accountant need to drive to an office every day? Nope. How many business trips could be replaced by a video call?
If the CO2 emissions problem is to be solved rather sooner than later, the money has to be spend efficiently as there isn't enough of it.
352 comments
Government press release with a long list of pull quotes: https://www.gov.uk/government/news/government-to-make-plug-i...
(I note that in the alternate universe where Ed Miliband became PM because he didn't eat a bacon sandwich, we could have had this a decade ago. It is embarrassing to be beaten on environmentalist regulatory efficiency by Germany)
Of course they would because it's work being taken away from them but it would be allowing people to plug generators into ring finals with unidirectional breakers. It's not even guaranteed that the circuit is protected by anything newer than fuse wire or an MCB. No guaranteed earth leakage detection. No guaranteed surge protection. Relying on the cheapest inverters to sync frequency accurately. And
I have more faith in German standards and work ethic than our own.
This Trump-level idiocy that is just never mentioned, even as people blame the gas burned in england on windy days as a cost of wind curtailment, when the curtailment is more a like a third of the cost. Burning gas to power people who chose not to build turbines is the other 2/3rds.
In the alternate world that is tens of billions of gas costs avoided to date and tens of billions more in future.
>
I note that in the alternate universe where Ed Miliband became PM because he didn't eat a bacon sandwich, we could have had this a decade agoI read what is happening in exactly the opposite way. To me it shows that Milliand and the government at large do very little with no strategic thinking and no plan (same as the guys before in fairness but this government was supposed to be soo different...) and, in this case, is only reacting in a panic after almost 2 years in office to the pressure of "doing something" because of the Iran war, while also being told (slight mitigating circumstances for Milliband) that it mustn't cost anything. I always picture scenes from The Thick of It/ In the Loop when I imagine how they come up with 'ideas'.
And it is of course home-counties obsessed thinking. They can both afford these toys and also have more sun
Every solar farm doesn't need to be China Size - it doesn't even need to be a "farm", just put them on roofs.
And don't let perfect be the enemy of good. Yes there are times when solar doesn't produce energy, but there are also times where it OVERproduces.
"Many consumers want to know how long it will take them to make back the upfront costs of solar"
my answer is that the payback is imediate, right from the first moment watching as energy is generated out of thin air, and the sudden relief from getting off the energy angst missery-go-round, and the sheer borring inertness of solar pv as it does the thing with zero detectable effort, is gratifying and relaxing in a way that money never gives.
I will add that solar pv is increadably robust, and damage tollerant as well, you can drive a claw hammer through a panel, and while it does not improve the performance, the degradation is actualy not that much, and it will continue to function for years
https://www.swissinfo.ch/eng/climate-adaptation/switzerland-...
For instance, isn't it complicated to have their output be in perfect sync with the frequency that comes in via the electricity net? Because to me it seems that if they won't, you will have lower benefits or even a net minus after plugging it in.
Heck, I don't even have anywhere to place a heatpump, let alone a hot water tank.
America - "I'mma roll coal and scream about birds and windmills."
Wait until you tell them you can run cars entirely on electricity from a solar farming. I'm sure they will ignore you until the price of diesel reaches four-digit territory. 1000p today? If only we didn't have to pay these incredible prices, what a miracle that would be..
The (proven) efficiency one can get is about 50-60% per Wp (if there is sun). So.. it depends how much panels one can install as that is the monie-source, all else is monie-sink :/
Rough Napkin math, electronics with german prices, ~5 hours per day sun on average: 10 panels (1000E) + 2 batteries (2000E) + inverter (1000E) ~~4000E yielding on average 440kwh/month i.e. pay itself in 5-7+ years, mostly for summer loads. While 5 panels + 1 battery + inverter ~2500E -> ~220kwh/month -> 6-8+ years
BUT only IF you can use that much electricity, otherwise it will take much longer to repay. And, batteries have to be replaced probably in 5-7 years, depending on depth-of-discharge.
In most places here everything is electrical. i have convectors, boilers, stove, etc. No A/C. (all other electrics is maybe under 2kw in total). i use like day/night 400/250kWh in summer, 1400/800 kWh in winter. Some people have noisy heat pumps but doubt that changes things much.
If it was a separate house - i would have done it long ago. But it's a block of flats.
So... small Balcony stuff makes no sense (a very expensive UPS?), big balcony stuff (like putting those 5 panels as balcony's shade.. a) probably won't be allowed, b) only a short balcony faces south-ish.
The roof of the building is empty - 250sq.m - and can hold about 75 panels - but dividing that into 15 (or 50+ in higher buildings).. is not pretty. a) Making one single farm and splitting the bill/output seems the only reasonable way but does not work without completely rewiring the building's grid input and measurings; not doable without bunch of permissions/certifications ; while b) making 15 separate 5-panels-packs - is not much economical, plus few kilometers of cables.. And c) If only few people want panels on roof, maybe some form of renting the roof space from others who don't want.. may work for a while but as any renting, may go crazy.
So.. been sitting and thinking.. and recently seems only sitting..
The 'balcony power stations' are the same thing. They get subsidised, and you even get a fixed kWh price when pushing into the grid.
The problem is that in the end it will become more expensive for everybody because at times you have a surplus driving the whole sale electricity prices into the negative while still paying fixed prices for injection into the grid.
To make this economically viable, you have to have everyone paying spot prices. Everything else is just green ideology driven inefficiency.
Just to make it clear, I think renewables are an important option for the future. But to make them a viable option of the electricity energy mix, supply and demand, storage and grid capacity need to be taken into account.
Last not least, there is plenty of low hanging fruit to drive CO2 emissions down: drive up the truck tolls. Currently you have potatoes farmed in Germany, driven to Poland to get washed, transported to Italy to be converted to french fries and transferred back to Germany into the super markets.
Same goes for home office, during Covid it was possible for many workers to continue with their work. Does an accountant need to drive to an office every day? Nope. How many business trips could be replaced by a video call?
If the CO2 emissions problem is to be solved rather sooner than later, the money has to be spend efficiently as there isn't enough of it.