- Reducing the carbon footprint of council properties
- Generating renewable energy for use in communal spaces
- Designing and installing a solar PV system
- Implementing battery storage to provide overnight energy distribution
- Adding the ability to share energy back to the local grid
Waltham Forest is a forward-thinking council. In addition to installing more than 1,000 solar panel installations at street properties throughout the borough and reducing its carbon emissions by 35% over the past decade, it also declared a climate emergency in 2019. Since then, it has set up London’s first Climate Emergency Commission in order to develop and accelerate plans to become a net-zero borough.
In line with these ambitions, Waltham Forest Council got in touch with Aston Group, with whom it has been in a long term Partnering Framework since 2012. Having secured Carbon Offset and Salix Funding, it sought support for the installation of solar panels at three residential properties that provide sheltered accommodation for over-55s.
Longfield House in Walthamstow, and Plaxton Court and Clifton House in Leytonstone, were singled out for the project based on their energy consumption profiles. Having previously conducted extensive renovation work at Longfield House, Aston Group’s Facilities Management team was familiar with the property and used this as the test site for the first installation. Built in 1986, Longfield House has 36 residential units, an on-site management team and communal facilities.
To develop a solar-powered system that could generate and store enough electricity to power the lifts and LED lighting in communal areas, both day and night. The team would have to take the orientation of the roofs, their angles and any potential sources of shade into consideration when designing the system.
Importantly, the installation was to have minimal impact on residents, while providing continuous flow of power to communal areas.
Aston Group teamed up with electrical specialists Spartek ECS to design, develop and install photovoltaic (PV) solar panels and back-up battery storage for the block.
Before work began in earnest, Longfield House’s energy use was monitored over a six-month period, in order to calculate how much power the building needed. After that, the team designed an efficient solar PV system that could match and even exceed the energy demand of the building, leaving surplus power to charge an on-site storage battery.
In December 2020, a total of 242 JA Solar PV panels were installed on the roof. This model was selected because of the manufacturer’s reputation in the solar PV industry and its global Tier 1 status, which indicates the reliability of the company and its products.
Each panel is capable of delivering 340 watts of power. Combined, the system has a total size of 82.28kW.
To overcome the challenge of orientation, angles and shade, SolarEdge optimisers were added to affected panels, allowing each solar panel to perform at its optimum level.
A Growatt MAX60K inverter was also installed to convert all of the energy harvested into usable power that could be distributed throughout the building. Rated at over 99% efficient, the Growatt inverter provides seamless integration into the building’s energy supply and performance can be monitored remotely online.
To further support on-site energy consumption, an Alpha ESS AC coupled battery store was installed. With 12 lithium-ion batteries, it has a total storage capacity of 68.4kWh and can deliver up to 30kW of power through its onboard inverter. When fully charged this is enough to power the communal areas overnight.
In total, the entire system is capable of delivering 72,134kWh of electricity to the building each year. It reduces carbon emissions by more than 18,466kgs per year the system and it can also export clean energy into the local community.
A display in the building’s foyer shows residents and visitors just how much energy is being saved, reinforcing the local authority’s commitment to safeguarding the environment for future generations.
The system was energised by the Spartek team on the 3rd February 2021 and is already exceeding expectations.
Within six weeks, the solar PV panels generated more than 1,834kWh of energy, reducing the amount of energy imported from the grid by almost 41%. In excess of 277kWh was also added back into the local grid, saving over 469kg of carbon emissions.
On the 23rd February 2021, the building consumed 184kWh of electricity but purchased less than 54kWh from the grid, which represents a reduction of almost 71% of energy purchased.
With over 228kWh generated by the PV array and more than 98kWh exported, the system saves over 58kgs of carbon emissions in a single day.
As part of our design stage, we monitored several blocks within Waltham Forest to ensure we choose the most suitable properties. Of these, the most suitable were Longfield House, Plaxton Court and Clifton House. These three sheltered blocks were then selected to have Photovoltaic installations. Given the immediate success of Longfield House, we are already well underway with completing the works at the other two sheltered blocks.
“It has been an absolute pleasure to work with Waltham Forest Council on this project. It’s an exciting time for the renewables industry and it was fantastic to help support the local authority in taking its next steps towards achieving its net-zero ambitions. I can’t wait to see the energy reduction figures once the PV systems have been installed across all three properties.”
Scott Simmons, Contract Manager, Aston Group
“At Waltham Forest, we take our commitment to the environment seriously. We have ambitious aims and want to lead the way for other boroughs, not just in London but across the UK. Working together, Waltham Forest Council, Aston Group and Spartek have helped to significantly and efficiently reduce our reliance on fossil fuels without any negative impact on the residents. What a great team effort.”
Cllr Mitchell, Waltham Forest Council