Solihull Town Centre Energy Network

Solihull Council is working with partners to develop an innovative and reliable new district Energy Network that will deliver heat and hot water into the taps, radiators, and heating systems of connected town centre buildings.

This Energy Network will provide low carbon heat and power (electricity) to a range of public and private sector customers within Solihull town centre, including Council owned buildings, education campuses and commercial offices.

Utilising low carbon solutions, including Air Source Heat Pumps, the energy will be generated at a centralised new Energy Centre, located next to Tudor Grange Leisure Centre Car Park, and distributed to individual buildings via a system of underground pipes and cables.

This ambitious scheme is expected to deliver significant carbon savings while helping to reduce fuel bills and future-proof business and consumer energy needs.

A graphic of the proposed Solihull Town Centre Energy Network providing energy to Solihull

The project aims to deliver carbon savings in support of Solihull Council’s ambitious climate change commitments by reducing the borough’s greenhouse gas emissions and increasing the amount of renewable and low carbon energy used to heat and power buildings.

In Solihull 56% of our greenhouse gas emissions come from the energy we use in our buildings. This scheme will significantly reduce building energy emissions and pave the way for additional building connections in the town centre, helping Solihull in its drive towards Net Zero Carbon emissions by 2041.

Illustrative design for the Solihull Energy Centre based on approved planning application
Illustrative design for the Solihull Energy Centre based on approved planning application.

 

Early enabling works and site investigations are currently underway in and around Tudor Grange Park in order to help us plan for the next phase of this exiting project.

Following a competitive tendering process, Solihull Energy Ltd is expected to enter into a contract with its Preferred Bidder for the Energy Network Design Build Operate and Maintain (DBOM) contract later this Spring. At this point we can begin the detailed design phase of the project.

 

Solihull Energy Ltd.

Solihull Energy Ltd is a limited company set up and owned by Solihull Council. This independent energy services company (ESCo) will be responsible for managing individual contracts and customer agreements associated with the Town Centre Energy Network.

The company is overseen by a Board of Directors, made up of senior council officers, and reports to a Shareholder Panel comprised of elected councillors.

 

Commercial building operators in Solihull town centre can contact solihullenergy@solihull.gov.uk for more information. 

Residents interested in the wider project can sign up to receive regular Stay Connected email bulletins.

 

FAQs

(Frequently Asked Questions)

Solihull Council is working with partners to develop an innovative and reliable district Energy Network that will deliver heat and hot water into the taps, radiators, and heating systems of connected buildings. This Energy Network will provide low carbon heat and power (electricity) to a range of public and private sector customers within Solihull town centre, including Council owned buildings, education campuses and commercial offices.

(Also known as ‘district energy network’)

A district energy network is a system for distributing heat and electricity from central generation plant to nearby buildings. Energy is generated from a centralised location and is distributed via underground pipes and cables to supply key public, community and private sector buildings. These schemes can deliver significant carbon savings while helping to reduce fuel bills and future-proof business and consumer energy needs.

The network has been designed, and will be operated, to maximise the use of renewable and low carbon sources of heat. Heat will be generated using renewable and low carbon energy sources, with gas boilers providing top up and back up heat supply.

Our Energy Centre will initially utilise a gas fuelled Combined Heat and Power (CHP) engine and Air Source Heat Pumps (ASHP), a renewable energy technology which can absorb heat from the air, even in winter months.Evaporator units mounted on the roof of the Energy Centre will draw air into the units which will be used to heat a refrigerant (a liquid with a very low boiling point). The refrigerant is then passed through to a series of heat pumps which transfer the heat to a water circuit. When needed, such as during extremely cold weather, heat can also be provided by back up gas boilers. The hot water is then distributed, under pressure, through a series of insulated pipes in the ground from the Energy Centre to each building on the network.  Within each building’s plant room, there will be one or more plate heat exchangers which will exchange the heat from the district heat network to the building’s heating systems such as radiators or air handling units.

The Air Source Heat Pumps will be mainly be powered by electricity generated by the CHP engine and the remaining electricity will be distributed to customers using a private wire network.

The Town Centre Energy Network will be the first of its kind in Solihull but could pave the way for similar projects around the borough. 

Initially, the phase 1 ‘heat’ network will connect to Council buildings within the town centre, as well as nearby education campuses. We expect to confirm and announce our phase 1 customer agreements in Spring 2024.

It is intended that future phases will then connect other buildings in the town centre and also link to planned commercial developments. Initially there will be no residential connections; however this will continue to be planned for in future phases.

Some of the electricity generated by the CHP unit will be used to power the Air Source Heat Pumps and other power requirements at the Energy Centre e.g. lighting. The remainder will be distributed to a limited number of customers. Council buildings are set to benefit from this electricity.

For individual buildings, decarbonising heat is expensive and often disruptive to occupants. A town centre energy network enables existing buildings and new developments to benefit from centrally based low carbon heat generation with minimal disruption in a cost-effective manner that benefits from economies of scale.

The UK government’s commitment to net zero carbon emissions by 2050, and West Midlands Combined Authority’s (WMCS) ambition to achieve this goal by 2041, supports the need to commence the transition of heat generation from fossil fuels to low carbon or renewable heat alternatives. The Council’s Net Zero Action Plan (NZAP), which is part of Solihull’s response to the Climate Emergency, supports progress against the targets of 2030 for the Council’s own emissions to be net zero and 2041 for the borough’s emissions as a whole.

The Energy Network will be a key element of the Council’s NZAP. It will support long term affordable and low carbon heat supply for existing town centre occupiers’ buildings and future development identified in the Solihull Town Centre Masterplan.

This project also brings environmental education opportunities to the town centre and builds pride in Solihull’s low carbon commitment.

Solihull Energy Ltd is a limited company set up and owned by Solihull Council. This independent energy services company (ESCo) will be responsible for managing individual contracts and customer agreements associated with the Town Centre Energy Network.

The company is overseen by a Board of Directors, made up of senior council officers, and reports to a Shareholder Panel comprised of elected councillors.

A huge amount of work has already gone into developing and testing the opportunity for an energy network in Solihull town centre. After completing both the Feasibility and Detailed Project Development stages of the project, a Full Business Case (FBC) has now been approved and planning permission for the Energy Centre has been secured. The next step will be for Solihull Energy Ltd to enter into a contract with its Preferred Bidder for the Design Build Operate and Maintain (DBOM) contract in 2024. At this point, the detailed design phase of the heat network will commence.

Funding for this project has come from a number of sources including Central Government, via their Heat Network Investment Project (HNIP) and Heat Network Delivery Unit (HNDU) funding programmes and from the WMCA. Additional capital will be provided via Solihull Council through an approved package of prudential borrowing.

Underpinned by detailed financial modelling, the FBC forecasts that the project will be able to repay this borrowing, resulting in a small surplus over the lifetime of the scheme. With more customers expected to sign up as additional connection phases of the project are rolled out (each subject to further business case assessment), this rate of return is expected to further improve over time.

Following extensive consideration, the land adjacent to Tudor Grange Leisure Centre has been identified as the preferred location.  The location of the Energy Centre is critical to a successful energy network since it needs to be large enough to house all the equipment needed, whilst also being as close to all potential customers as possible to minimise the length of pipework required to connect each building.  We also recognise that this is a significant opportunity to offer educational opportunities and therefore the proximity to the College and University Centre and our schools is beneficial. 

During the initial stage of the project, we constructed a test borehole to establish whether ground source heat could be utilised. The test borehole enabled us to assess what  groundwater flows could be available from the water-bearing rock (aquifer) beneath Tudor Grange Park. Unfortunately, the aquifer was deeper than geological records suggested and the number of boreholes and associated pumping cost meant the option was not viable.  Fortunately, we had also been investigating the use of air source heat pumps as an alternative.

As part of the detailed design of the energy centre a number of ecological appraisals have been undertaken and an arboricultural impact assessment completed.

While the installation of the Energy Network will require the removal of a number of trees, the proposed route for the network has been reviewed with officers from the Council’s forestry, ecology and public realm teams and has been mapped out to avoid and minimise the impact on trees wherever possible. The proposed route has been diverted in several key locations to prioritise the protection of more established trees and those with higher ecological value.

The impact of the removal of trees on council land will be mitigated by the planting of trees to the same ecological value as close as possible to the site, as approved by Solihull Council’s Forestry and Landscape teams. This is in line with the Council’s forestry operation procedures.

An updated Tree Survey and Ecological Impact Assessment will be undertaken, and a Construction Environmental Management Plan will be produced by the Preferred Bidder through detailed design for approval by Council officers.

We are expecting construction of the Energy Centre and the pipe and cable network to take a little over 14 months. The Council will be appointing an experienced Design, Build, Operation and Maintenance Contractor to undertake these works and will ensure disruption during the construction process is kept to a minimum. Contractors will be required to work in accordance with the limits set by Environmental Health, which will include hours of work and noise standards.

A series of environmental assessments, including noise and air quality monitoring, have been conducted at various locations close to the proposed Energy Centre. The design specification for the Energy Centre sets performance standards for noise and air quality, and plant equipment will be selected to ensure compliance with these standards. The Energy Centre building design also includes measures to reduce noise impact, including acoustic baffles on the roof. This will continue to be monitored throughout its operation.