Connected buildings. Shared efficiency.
Transform municipal and campus infrastructure into thermal networks that share heating and cooling across buildings—cutting total energy consumption by 50%.
Buildings don't work in isolation
Traditional building-by-building HVAC creates inefficiency at scale. The solution is thinking beyond property lines.
Fragmented Infrastructure
Each building operates its own heating and cooling systems, duplicating equipment and missing opportunities for thermal sharing.
Peak Load Strain
Individual buildings size systems for peak demand, creating massive grid stress and oversized equipment that runs inefficiently.
Decarbonization Mandates
Cities are setting aggressive emissions targets. Building-by-building approaches can't achieve the scale needed.
Geothermal district energy networks
We design and build thermal infrastructure that connects multiple buildings into an efficient shared system.
Thermal Load Sharing
Connect heating-dominant buildings with cooling-dominant neighbors. One building's waste heat becomes another's resource.
50% Total Energy Reduction
System-level optimization delivers efficiencies impossible with individual buildings. True network effects.
Reduced Peak Demand
Aggregated loads smooth demand curves. Smaller grid connections, lower demand charges, better reliability.
Phased Development
Start with anchor buildings and expand over time. Each connection improves the whole network.
Revenue Generation
Sell thermal energy to connected buildings. Transform infrastructure cost into recurring revenue.
Future-Proof Infrastructure
Underground thermal networks last 50+ years and adapt as connected buildings change and grow.
The thermal network advantage
A district energy network connects multiple buildings to a shared geothermal borefield through underground piping. Heat flows where it's needed, when it's needed.
Use Cases
Municipal Districts
City blocks, downtown cores, and mixed-use developments. Ideal for urban renewal and climate action plans.
Campus Environments
Universities, corporate campuses, and research parks. Centralized control with building-level autonomy.
New Developments
Master-planned communities and large-scale construction. Install the network as infrastructure from day one.
Industrial Parks
Manufacturing facilities with high waste heat output connected to nearby offices and residential buildings.
Flexible ownership and financing
District energy networks can be structured to match your development goals and risk appetite.
Owner-Operated
Municipality or developer owns and operates the network. Maximum control and long-term revenue capture.
- Full ownership
- Revenue retention
- Operational control
Utility Partnership
Partner with thermal utilities for financing and operations. Reduced capital requirements and risk.
- Shared investment
- Utility expertise
- Service agreements
Third-Party Development
Redicool develops, owns, and operates the network. Buildings simply connect as thermal customers.
- Zero capital outlay
- Predictable costs
- Turn-key delivery
Download Our District Energy Brochure
Explore how thermal networks can connect buildings and reduce energy consumption by 50%.
Ready to connect your district?
Get a free feasibility assessment. We'll analyze your district's thermal diversity and model the network economics.