Grace homes set to integrate Mitsubishi heat pumps

The partnership features Mitsubishi Electric's Ecodan heat pump technology.
The partnership is an extension of a 15 year collaboration between Grace Homes and Mitsubishi.
Grace Homes, a luxury property developer in Northamptonshire and Leicestershire, has announced the intergration of Mitsibushi heat pumps at its Sysonby Lodge development in Melton Mowbray.
The project integrates Mitsubishi Electric’s Ecodan air source heat pumps, photovoltaic solar panels, and battery storage solutions, all contributing to achieving EPC A ratings that meet the UK’s Future Homes Standards.
This extends the 15-year partnership between Grace Homes and Mitsubishi Electric, which has been crucial to the project’s success states Grace Homes.
Mitsubishi Electric provided comprehensive design support and technical expertise, ensuring seamless installation of the heat pumps.
Peter Hutorka, Construction Director at Grace Homes, said “We spent a lot of time researching the best sort of hardware that would work for us, and we felt that the Mitsubishi Electric’s product, being a market leader, was really the way to go.”
The use of advanced sustainable technologies has proven to be a key selling point as buyers are particularly attracted to the energy efficiency of the homes claims the property developer.
Beyond the immediate success of this project, the collaboration between Grace Homes and Mitsubishi Electric signals a broader industry shift toward sustainable development.
The project exemplifies how luxury housing can integrate eco-friendly technologies while meeting modern consumer demands for energy-efficient, low-carbon homes.
This announcement follows the launch of Mitsubishi’s augmented reality (AR) app, which was designed to assist households in visualising an Ecodan air source heat pump in their home before buying.
According to Mitsubishi, through the app, customers can adjust placement to find the best location for installation in their homes while understanding the size, shape, and impact of the unit.