Simwide Heat is an early technical preview of a solar powered low temperature heating architecture for buildings with existing radiant circuits.
The system is designed to reduce dependency on gas supply contracts by combining photovoltaic generation, thermal storage, continuous circulation and predictive control.
The approach is not based on fast heating peaks. It is based on gradual thermal charging, using the structure of the building as part of the storage strategy.
Solar energy is collected during useful irradiation windows and directed to the heating and control architecture.
A controlled low temperature buffer allows the system to store useful heat before colder periods arrive.
Existing radiators or compatible radiant circuits can distribute heat continuously instead of relying on short bursts.
Temperature, production and building response can be used to prepare the structure before weather conditions change.
Many buildings pay recurring energy costs even when occupation is limited. Simwide Heat is being evaluated for situations where thermal mass, solar exposure and existing circuits can reduce reliance on gas infrastructure.
The first use cases under evaluation are houses, country homes and buildings with high thermal inertia.
Radiators or compatible low temperature heat distribution.
Roof, wall or nearby surface suitable for photovoltaic generation.
Buildings that can retain heat over longer periods are stronger candidates.
Each site requires technical review before any pilot can be considered.
This page is intended to collect technical interest from property owners, pilot candidates and potential partners.
Architecture, operating principle, functional requirements and development roadmap defined in the SIHS technical white paper.
Validation of thermal loop, control logic, sensor telemetry and practical energy balance on a reduced scale.
Candidate buildings will be evaluated according to climate, solar exposure, hydraulic circuit and safety constraints.
Any commercial deployment will require proper technical, electrical and installation compliance evaluation.
These answers summarize what the concept is, who it may fit and what stage the project is in.
It is a technical preview of a solar powered low-temperature heating architecture that combines photovoltaic input, a thermal buffer, continuous circulation and predictive control.
Buildings with existing radiators or compatible radiant circuits, useful solar exposure and high thermal inertia are the strongest candidates for pilot evaluation.
No. Suitability depends on climate, hydraulic constraints, installation boundaries, energy profile and regulatory compliance at the specific site.
Not yet. The current stage is documented concept validation, prototype planning and pilot assessment before any deployment path.
Use this form if you own a candidate building, work with energy systems, or want to evaluate a pilot collaboration.