01 Dec 2016
Smart meters are the next generation of gas and electricity meters which will enable consumers to take more control over the energy they use. They offer a range of intelligent benefits to help energy users reduce the cost of their bills, which including a smart meter display which shows you exactly how much energy is being used in pence, kilowatts, and CO2 emissions.
An easy to understand ‘In Home Display’ allows you to track the amount of energy you are using in real time, and helps you to see which appliances are using a lot of energy and costing you a lot of money. By being able to identify where in the home you are spending the most on energy, you can then make changes to reduce your usage and consequently your bills.
By adopting energy efficient measures in the home and reducing the amount of energy you use, you will also be generating less carbon emissions and contributing to a more sustainable environment.
Reducing your energy emissions and saving money has never been easier.
29 Nov 2016
BHESCo is finalising its feasibility project to install a heat network connecting a school, a conference centre and two homes that are burning heating oil because they are off the gas grid. Our project proposes generating heat from locally sourced wood chip. The highly insulated flow and return pipes deliver heated water efficiently through the system to keep the residents and students warm in winter. The project is estimated to reduce their consumption of heating oil by 63,000 liters per year, removing 114 tonnes of carbon emissions from the atmosphere each year.
This project was funded by the Rural Community Energy Fund (RCEF) is a £15 million programme, delivered by WRAP and jointly funded by the Department for Environment, Food and Rural Affairs (Defra) and the Department for Business, Energy and Industrial Strategy (BEIS). It supports rural communities in England to develop renewable energy projects which provide economic and social benefits to the community.
For more information on RCEF, visit http://www.wrap.org.uk/content/rural-community-energy-fund
14 Oct 2016
29 September 2016 was a landmark day for the British people. Greg Clark, the newly appointed head of the newly formed department of Business, Energy and Industrial strategy, signed an agreement with EDF, a company owned by the French government and with the Chinese government as a 33% investor, to proceed with the construction of the first new nuclear power plant in the UK in a generation. Despite all the fuss and furore, the dream of Hinkley C in Somerset is poised to become a reality, albeit by 2030. The Government claimed that UK businesses will benefit from 60% of the estimated £18 billion to be spent on the plant, with 26,000 jobs and internships created.
This decision is a disaster for our nation, primarily because it is an extreme waste of taxpayer money, poses a great threat to our country’s energy security, and to the safety and security of future generations.
Extreme waste of taxpayers’ money
60% of 26,000 jobs is no benefit when one considers that over 27,000 jobs have been lost in the past two years by the solar industry, decimated by Government cuts to the Feed in Tariff and by the death of the Green Deal. The EPR technology is not yet proven in the three countries already constructing the new nuclear power plants, causing each of their budgets to skyrocket out of control. The Olkiluoto 3 (OL3) plant in Finland was supposed to be operational in 2010. It is still not running today.
In December 2012, Areva (the nuclear plant supplier), estimated that the full cost of building the Finnish reactor will be about €8.5 billion, or almost three times the original delivery price of €3 billion. Compare this to the estimated price of the UK plant, estimated at between £18 billion to £29 billion. The UK taxpayer is not privy to the reasons why the plant cost more than 3 times the price in Finland. In Flamanville, France, cracks were found in the plant’s construction. Cracks have also been found in the Taishan facility, in China creating delays and mounting fear of radioactive leakage in Hong Kong, just 130 miles away.
If it is ever completed, the Hinkley C plant is expected to account for 7% of our electricity supply, with a capacity of 3.2GW. UK Power Networks has recently revealed that it has applications to install 6GW of energy storage to our electricity network, virtually eliminating the issue with renewable energy intermittency for a fraction of the cost of Hinkley C and a bringing lot more safety.
Dangerous stockpiles of plutonium in Britain
A catalogue of errors that occur unresolved eventually culminates in disaster. On 5 September 2016, the BBC broadcasted a Panorama programme on the serious accident that is likely to happen at Sellafield in Cumbria. It is hard to believe that our government will ensure UK jobs through the nuclear industry when Sellafield does not employ sufficient employees to sustain reliable safe operations.
The Nuclear Management Partnership, a consortium of French, UK and US companies that were running Sellafield was sacked in 2015 because they were spending too much money. The government has taken over control of the management of Sellafield. Since then, alarms are frequently reset without being investigated, creating conditions that pose an intolerable risk according to those who have managed Sellafield.
The Windscale fire on 10 October 1957 ranks 5 out of seven on the International Nuclear Event Scale. While the name has been changed to Sellafield, the severe dangers persist. An accident occurred in November 2013 forcing the plant to close for 11 months because exposure to radioactive dust made it unsafe to work there.
Experts who have worked at Sellafield say that if something happens, the safety team employed there are not equipped to handle it. Many experts believe that an accident is inevitable, because the plant frequently operates at below minimum safety levels. The poor management and run down infrastructure could lead to a fire that would emit a radioactive plume contaminating our air for 150km. Cracks could allow seepage that could expose the radioactive chemicals to the air. To date, no nuclear waste has been removed from a building that won’t last another 25 years.
Sellafield has the largest stockpile of plutonium in the world, more than the United States and Russia combined. Experts estimate that it will cost £162 billion to clean up Sellafield to make it safe. This experience alone makes it very clear that there is no room for new nuclear power generation on our small island home.
National & Energy Security
Concerns about our national security were raised by politicians and energy experts because of a lawsuit in the US against a Chinese investor in their nuclear power station. The concern is that the Chinese are using their position as investor to improve their knowledge of nuclear science that could be threatening to the national security of the host country.
Real energy security comes when our electricity and heat are affordable for everyone. The Hinkley C plant will not create energy security; in fact it is sure to increase our energy prices because of the guaranteed price that has been secured in the energy Capacity Market. The only way to create real affordable energy is for communities to take the power back into their own hands. This is what we at BHESCO believe, and this is what we will ceaselessly work towards until our own dream has become a reality, when the people of the UK will be writing about a new landmark day in our history.
12 Sep 2016
On Saturday 3rd September 2016, Oxford played host to the fourth national Community Energy England Conference, bringing together the movers and shakers from the industry to take stock of the current energy climate and to share ideas on how to grow community energy in the UK.
BHESCo founder and CEO, Kayla Ente, was invited to the conference as an expert on community energy and to deliver a workshop on BHESCo’s pioneering work tackling fuel poverty. As true ambassadors of community energy and cooperative principles, BHESCo believes that eradicating fuel poverty is just as important as creating renewable energy. We see access to energy as being essential for a healthy life, just as much as food and a decent home, and for this reason we do what we can to make sure everyone in Brighton and Hove is able to heat and power their homes adequately.
To this end, in January 2016 BHESCo established our exciting new Energy Saving Service, designed to help improve the energy efficiency of homes and businesses in the city.
In recognition of creating this truly unique service, Kayla was honoured to receive the “Energy Saving Award” at the Community Energy England conference, which was awarded to the ‘community group which has undertaken the most inspiring energy conservation project’.
Winning this award was a fantastic achievement and everyone at BHESCo was delighted to have been recognised for our efforts by Community Energy England. However, our amazing week was about to get even better…
Just four days after the conference in Oxford, BHESCo was invited to the Houses of Parliament where the duo responsible for delivering our Energy Saving Service, Tim Beecher and Jack Dangerfield, were named as “Heat Heroes” by National Energy Action and Scottish Power, at an annual awards ceremony that recognises those who are on the frontlines in the battle against fuel poverty. Green MP for Brighton Pavilion Dr Caroline Lucas took time out of her busy schedule to come and congratulate BHESCo on their award, writing days later in her article for the Brighton and Hove Independent:
Every day I hear of people and projects in this city which give me huge inspiration – such as BHESCO, who won an award for their achievement only this week – to local innovative businesses and the many people campaigning for a country of genuine security, compassion and care.
To help support us in our efforts to combat climate change and fuel poverty, why not consider becoming a member of our co-operative? For a minimum investment of just £250, you will be ensuring that our pioneering not-for-profit co-operative can continue the vital work we do on behalf of the people of Brighton & Hove, and what’s more you’ll receive a handsome 5% return on your investment, considerably better than the interest rates on offer from high street banks.
Guest Blog, by Jaden Yang of University of California, Berkeley
Distributed generation such as rooftop solar panels creates an economic democracy where every person can generate electricity from their own solar photovoltaic cells. Another benefit is lower transmission losses since the solar energy comes directly from their rooftop. However, one of the biggest challenges of renewable energy is energy intermittency. Solar panels on a rooftop can only generate electricity during daylight hours, and if a solar panel generates more electricity than you can use in the moment or does not generate enough, electricity must be exported or drawn from the grid to compensate. For this reason, solar panels do not always generate electricity when the domestic demand is greatest.
Renewable energy has always faced challenges of consistency of supply and system integration. Some flexibility options to complement renewable energy are flexible peak power plants, grid integration, demand side management and battery storage. In California, a Net Metering policy that credits solar energy system owners for the electricity they add to the grid has given considerable benefits to solar panel owners. Unlike California, the UK has not implemented this policy widely, making battery storage systems a more attractive proposal to encourage the uptake of solar. Battery storage is not a new technology. Up until now, due to its expense, it hasn’t been widely used in the UK. It would allow solar PV owners to generate, convert and save excess electricity for use at a later time, enabling users to make maximum use of the electricity they have generated themselves, as well as providing a solution to intermittency and production/demand mismatch.
In order to make battery storage affordable and feasible, government subsidies on green technologies can enhance both business and environmental performance. First, clean technology businesses can increase their research budget with government subsidies to improve and reduce the cost of battery storage. Secondly, if battery storage becomes popular, less people use electricity from the grid. Thus, once solar panels and battery storage systems become prevalent in a community, people have less dependence on traditional fossil fuel power generation, which will have the effect of reducing greenhouse gas emissions. Therefore, we believe there is enormous potential for battery storage to enhance domestic renewable energy production, which itself encourages the development of better batteries in a virtuous circle.