At Ashby Eco, we specialize in the design & installation of renewable energy solutions such as Solar PV, Battery Storage, EV Charging and Heat Pumps. Our team of experts are dedicated to providing high-quality installations that are efficient, cost-effective, and environmentally friendly. With our commitment to sustainability and cutting-edge technology, we strive to help our clients reduce their carbon footprint and save on energy costs. 

  • Air Source Heat Pumps
    • Site assessment to determine the most suitable location for air source heat pump installation based on factors such as space availability, airflow, and noise considerations
    • Selection of appropriate air source heat pump system based on heating and cooling requirements, energy efficiency ratings, and environmental impact
    • Installation of outdoor and indoor units, refrigerant lines, and electrical connections in accordance with manufacturer guidelines and industry best practices
    • Integration of the heat pump system with existing HVAC systems or other heating/cooling equipment
    • Training for end-users on how to operate and maintain the air source heat pump system for optimal efficiency and comfort
  • Battery Storage
    • Determine the most suitable location for battery storage installation based on factors such as space availability, electrical infrastructure, and load requirements
    • Selection of appropriate battery technology (e.g., lithium-ion, lead-acid) based on factors such as capacity, efficiency, and lifespan
    • Design and installation of battery storage system components, including batteries, inverters, charge controllers, and monitoring systems
    • Integration of battery storage system with existing electrical systems, such as solar panels or grid connections
    • Implementation of energy management strategies to optimize battery usage and maximize energy savings
  • EV Charger Installation
    • Survey to determine the most suitable location for EV charger installation based on factors such as proximity to electrical supply, parking availability, and accessibility for EV owners
    • Selection of appropriate EV charger type (level 1, level 2, or DC fast charger) based on charging speed requirements, user demand, and budget considerations
    • Coordination with electricians and utility providers to ensure proper electrical supply and infrastructure for EV charger installation
    • Installation of EV charger components, including the charging unit, mounting hardware, electrical connections, and signage
    • Integration of the EV charger with payment systems, monitoring software, and other smart features for user convenience and management
  • Ground Source Heat Pumps
    • Feasibility assessment of installing a ground source heat pump system based on soil conditions, available land area, and geological factors
    • Designing the ground source heat pump system layout, including the placement of ground loops or boreholes for heat exchange with the ground
    • Excavation and installation of ground loops or boreholes to facilitate the transfer of heat between the ground and the heat pump system
    • Installation of the heat pump unit, including the compressor, heat exchanger, and distribution system
    • Testing and commissioning of the ground source heat pump system to ensure proper operation and efficiency
  • MVHR Installations
    • Selection of appropriate MVHR unit based on building size, occupancy levels, and ventilation needs
    • Installation of ductwork and ventilation pipes to distribute fresh air and extract stale air throughout the building
    • Connection of the MVHR unit to the building’s electrical system and integration with other HVAC components
    • Commissioning and testing of the MVHR system to ensure proper air flow, heat recovery efficiency, and overall performance
    • Balancing of air flow rates and adjustment of settings to optimise ventilation and energy efficiency
  • Solar PV
    • Evaluate the solar potential of the site location, including factors such as sun exposure, shading, and roof orientation
    • Design of the solar PV system based on energy needs, available space, and budget constraints
    • Installation of solar panels on the roof or ground-mounted system, ensuring proper alignment and secure mounting
    • Integration of the solar PV system with the existing electrical grid or battery storage system
    • Compliance with building codes, regulations, and utility requirements for solar PV installation