Articles

Global warming: send in the tanks
Posted on Thursday, June 18th, 2009

First published in the Guardian, 18 June 2009.

Forget expensive high tech silver bullets like nuclear fusion and carbon capture and storage, the solution to climate change lies in the humble electric immersion heater that sits in your hot water tank under the stairs. That’s the view of Dr Mark Barrett, senior researcher at the UCL Energy Institute, who will present his analysis at a meeting in the House of Commons today.

A tank with an immersion heater may be just an oversized kettle, but there are thought to be around 19 million in Britain’s homes, which collectively have the capacity to store huge amounts energy as hot water, and this could be key to achieving an almost wholly renewable electricity supply.

Dr Barrett says the heaters could be switched on and off rapidly to compensate for the erratic output of wind turbines and solar panels, each heater controlled by a simple gadget that responds to signals sent through the electricity grid – a system that has been used since WWII.“Everybody is always looking for a shiny new silver bullet solution” says Dr Barrett, “but this idea is cheap, safe, and based on technology that’s been around for decades”.

Renewables are a problem for the grid as currently configured because supply has to match unfettered demand minute by minute. In Britain power consumption ranges between about 20 and 60 gigawatts (GW) depending on the season and time of day. But unlike coal and gas fired power stations, wind turbines and solar panels are ‘non-despatchable’, meaning they cannot be cranked up at a moment’s notice during half time in the cup final when the nation is gasping for tea. This limits the proportion of renewables that can be absorbed into the grid – although the exact level of that ceiling is hotly debated.

But renewables are only a problem when demand is taken as the given. If demand could be actively managed as well, a far greater proportion of renewables could then be absorbed, slashing carbon emissions and raising energy security. And that’s where the immersion heaters come in.

Dr Barrett explains that 19 million domestic tanks, each fitted with a standard 3 kilowatt immersion heater, would provide over 55GW of potentially flexible demand, which could be adjusted to suit the output of renewable generators. The immersion controller would ensure the water temperature stays above a set minimum, so the house would never be without a hot shower, but within a range of 45C to 65C the grid would be in control. Along with hot water storage in commercial buildings, this would provide balancing capacity greater than peak consumption today, and is a key feature of the computer model Dr Barrett has devised to investigate how Britain could best achieve a high proportion of renewable power.

The model assumes a massive increase in wind and solar capacity; smaller amounts of wave, tidal and hydro; expanded interconnectors to France; and increased electricity storage like the Dinorwig pumped storage facility in Wales. Existing fossil fuel stations are ‘mothballed’ for use only as a last resort. Using a range of hourly demand forecasts and weather data, the model has shown that Britain could on average generate 95% of its electricity consumption from renewables.

In this system, hot water storage is crucial for balancing supply and demand: when renewable generation exceeds demand, the surplus is exported to the continent, and used to recharge electrical storage and the hot water tanks; when demand exceeds renewable generation, the shortfall is made good by turning off the water heaters, drawing on electricity storage and imports, and finally firing up the old fossil fuel stations.

Dr Barrett claims the immersion heaters could be controlled using a system called ripple control, where high frequency pulses are sent through the mains and received by a device on each water heater that turns the power off and on as required. The system has been used for decades in New Zealand, where the grid company can now reduce peak demand by about 13%, and so defer expensive investments in new power stations. In Florida, where the local power company has struggled to cope with soaring demand caused by a fifty-year housing boom, 700,000 customers now receive a monthly rebate for handing control over their hot water heaters, and the utility has avoided building a 1GW power station as a result. In South Africa, ripple control is being introduced to prevent a repeat of the rolling blackouts that crippled the country last year.

But experts warn that balancing the entire grid in real time is massively more complicated than occasionally reducing peak demand, and question whether ripple control could do the job. Dr Graeme Bathurst, technical director of the Manchester based grid consultancy TNEI, points out that different numbers of water heaters would need to be turned on and off every minute of the day, yet a traditional ripple control system – which only transmits instructions, and cannot receive information from the water tanks – would not know how much flexible capacity was available at any moment, nor how many heaters to control. “There is massive potential in heat storage, and this concept is eminently achievable” says Bathurst, “but I think it will need a more intelligent system to make it work”.

Dr Barrett argues that the aggregate heat demand of 20 million households would be fairly predictable, but concedes that a modern interactive system would be better. He says it is vital the new ‘smart meters’ the government plans to install in every home by 2020 should be capable of controlling hot water storage. “But this isn’t rocket science”, says Barratt, “it is quite clear we can go hell for leather installing renewables because we can deal with intermittency using heat storage”.



2 Comments on “Global warming: send in the tanks”

A Hamilton Says:
July 7th, 2009 at 11:42 am

Immersion heaters have an efficiency of 100%.

Better to use heat pumps that have much higher efficiencies (250% or more). The latest air source heat pumps can be retrofitted to existing wet radiator based systems with minimal fuss and feature a heat store (hot water tank) that can be precharged with heat from excess renewable electricity.

Or coolth can be stored in a fridge or freezer. The frequency of the mains varies slightly depending on available energy in the grid. This can be detected by a fridge or freezer and cold can be built up when there is excess energy in the grid. Country wide, this reduces peak demand in the grid.

Or excess renewable electricity can be stored using pumped storage hydro electric schemes or, potentially MUCH smaller pumped heat storage (http://isentropic.co.uk/index.php?page=storage).

None of this is rocket science.



K Boak Says:
September 9th, 2009 at 1:39 pm

The control of the immersion heaters could be done automatically using dynamic demand control by way of grid frequency sensing techniques.

A microcontroller at the immersion heater senses the grid frequency. If greater than 50Hz then there is a surplus of power available and the micro turns the immersion heater on. If the grid is running less than 50Hz, it is struggling to meet demand so all non-essential loads can be shed – so the micro turns off the immersion heater.

See http://www.dynamicdemand.co.uk/ for more details





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