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.
散热器或兼容的低温热分配系统。
适合光伏发电的屋顶、墙面或邻近表面。
能够在更长时间内保温的建筑是更强的候选对象。
每个场地在纳入试点前都需要技术审查。
此页面旨在收集业主、试点候选方和潜在合作伙伴的技术兴趣。
架构、运行原理、功能要求和开发路线图已在 SIHS 技术白皮书中定义。
在缩小规模下验证热回路、控制逻辑、传感器遥测和实际能量平衡。
候选建筑将依据气候、太阳照射、液压回路和安全约束进行评估。
任何商业部署都需要适当的技术、电气和安装合规评估。
这些回答概述了该概念是什么、适合哪些对象以及项目所处阶段。
它是一个技术预览,展示一种结合光伏输入、热缓冲、连续循环和预测控制的太阳能低温供暖架构。
拥有现有散热器或兼容辐射回路、有效太阳照射和高热惰性的建筑,是试点评估中最强的候选对象。
不会。适用性取决于具体场地的气候、液压约束、安装边界、能源特征和法规合规性。
尚未。当前阶段仍是概念验证、原型规划和试点评估,尚未进入正式部署路径。
如果你拥有候选建筑、从事能源系统工作,或希望评估试点合作,请使用此表单。