Energy Storage Device
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- Опубликовано: 15 янв 2024
- This is a retrofit device stores surplus wind turbine energy at night which allows electric grid stabilisation by creating a potable water heat store in existing homes . Fitted to your existing tank it allows customers to store enough hot water for multiple showers and baths instead of one or two and to take advantage of surplus cheap off peak electricity. You can also store energy you might produce yourself. This will reduce reliance on oil and gas usage in existing homes.
Together with our Radiator Flow Boosters and adding additional tanks we can eliminate or reduce gas and oil usage in existing homes. We can avoid the need for oil and gas boilers for central heating in new builds and store up to 3 days of hot water for washing and bathing.
The heat store devices will manufactured in the UK and be available for sale in March 2024. You can visit showerpowerbooster.co.uk to register an interest to buy your stratification devices or buy radiator flow boosters now.
Phone 01298 77211 for further details 
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You are a genius my friend. I would like to discuss this further with you to get an insight of how it will work in my property.
The device is in production and will be available in March 2024. Phone 01298 77211 for further details
you are storing 50kWh in each 1m^3 tank, so four gives you 200kWh, when the heat in these used, how do you replenish the 200kWh? Solar at this time of the year may give you a few spare (less than 10) per day. I have a 5.25kWp system that generated 10kWh today (unusually clear and sunny Jan day) in the UK at 55deg N. Most of the 10 we used as it was generated, only a couple where spare and were exported to the grid.
During every 24 hour day there are times when there is surplus energy and on the National Grid and the idea is to use that energy. Potable Water Stratification Device
This device will store energy at times when demand is low in Spring, Summer, Autumn, and Winter. There are always periods of low demand irrespective of the energy source.
This is a device best suited for retrofitting to an existing hot water cylinder so homes with hot water cylinders are likely to be potential customers. This device is even better suited for customers who have personal solar PV and hot water cylinders so that they can store their own surplus energy during periods of sunlight and also store surplus grid energy overnight.
Primary Sales Targets for the Potable Water Stratification Device
Customers with Hot Water Cylinders
Customers with PV Panels with surplus Summer PV Generation
Customers with PV Panels and Hot Water Cylinders
Organisations wishing to achieve grid stabilisation
Water Stratification Device plus Radiator Flow Boosters
The water stratification device together with the radiator booster gives the potential to significantly reduce use of gas and oil in the Winter only. Demand for heating can only replace fossil fuels if renewable energy (in particular wind power), is increased to supply Winter demand. Increased reliance on renewables will create an imbalance in the grid supply however the potable water stratification device can absorb this surplus energy in the Summer.
Primary Sales Targets
New build to avoid the need for investment in new gas pipelines.
New build to avoid the need for gas and oil boilers.
@@alandwright2 I fully understand what you are attempting to do, I had a 200L system installed on my heating circuit that was charged by solar excess (immersun), but there was insufficient solar excess in late autumn, winter and early spring. So, the question remains, during these periods where does the 200kWh com from to recharge (reheat) the 4 cubic metres of cold water? to heat 1000kg (one cubic metre) of water from 20C to 60C takes 46kWh, you need 184kWh to heat 4 cubic metres, where do you get those without a heat source?
@@GlueChubeas he states in the video, from the resistance element. Not so elegantly explained, but understandable if you want to.
The energy comes from electrical energy when the price is low due to access power on the grid.
If you have an electric boiler with two heating elements, you can get the same results with a computer controlled switch on the bottom element.
I am currently moving the heating of water to the cheapest time of day, I save a small amount of money due to the boiler is only used for hot tap water.
@@MichaelEricMenk Of course I understand that an immersed resistive heating element is used to convert electrical energy to heat energy in the cylinder. My question is, where you get the 180kWh of excess (surplus) renewable energy to reheat the 4 cubic metres? Of course you can heat the water at night with night time off-peak electricity in a boiler, but that is not what is being said,.... he's talking about using surplus renewable. Few have wind, the vast, vast majority of domestic renewable is PV, which don't have that over capacity! He is states that any time in a 24 hr period you can feed this stored hot water into the CH rads, TRUE,.... when you expend that heat in 24 hrs, which is 100% certain in many 24 or even 48hr periods, you need to find 180kWh of excess electrical energy for the day after. NOT possible with 99.99% of domestic renewable generators, wind, solar or hydro.
The 200kWh can be found at night when supply exceeds demand. Technologies in my home include:
• 8 M2 of solar panels with an amazing and novel micro pump driven solar thermal operating
system.
• 32 M2 of photo voltaic solar panels.
• 5.5 KW Wood Burner (Scrap wood offcuts).
• 13.5 KW/Hr Tesla PowerWall.
• 500 litre (29 KW/Hr heat store), hot water cylinder with micropumps to link Solar Thermal,
Solar Photovoltaic, Wood Burner, Gas Boiler, and Tesla battery store for optimum heat storage.
• 4,500 litres of stored rain water delivered at high pressure using micro pumps.
At night I use cheap rate electricity at 7.5p KWHr to fully charge my Tesla Power Wall and during the day I sell every spare KW of electricity I generate to Octopus I do not use the Solar PV Energy I generate to heat water.