Heat pumps are transforming home heating and cooling by offering efficient, eco-friendly solutions. Options like geothermal heating and cooling, air source heat pump installation, mini splits heating and cooling, and heat pump central heating provide flexibility for different homes and budgets. With proper setup, a heat pump system for house comfort ensures year-round savings and comfort.

Advanced heat pump technology—including inverter heat pump designs and EVI DC inverter models—efficiently extracts and transfers ambient heat in temperatures as low as –25 °C. Innovations like multi‑stage compression, optimized refrigerants (e.g., R32, R290), and smart defrost control maintain COPs above 2.5 in extreme cold. Both air‑source and ground‑source systems, standalone or hybrid, deliver reliable, low‑carbon heating with economical paybacks in harsh climates globally.

Heat pump systems offer efficient year-round climate control, providing both heating in winter and effective cooling in summer through a reversible cycle. With high COP and SEER ratings, eco-friendly refrigerants, and smart controls, heat pump cooling systems outperform traditional ACs. They're ideal for homes, offices, and public buildings, supporting green energy goals.

St Andrew’s Church, an 18th‑century landmark in the UK, recently underwent a sensitive heating upgrade that preserves its historic character while delivering modern comfort. Faced with uneven warmth, slow heat‑up times and visual intrusion from the original radiator network, the project team specified an innovative heat pump system to replace traditional radiators. After an international tender, Airosd was chosen for its leading heat pump technology and experience in historic buildings. The proposed solution centers on a modular air source heat pump system, combining three high‑efficiency units with custom controls and renewable integration. Project Highlights Heritage‑Sensitive Installation – The new heat pump system fit discreetly into existing service voids, avoiding any disturbance to St Andrew’s stone walls or stained‑glass windows. – Concealed pipework connects to underfloor heating and fan‑coil terminals, replacing bulky radiators without altering the nave’s appearance. Advanced Heat Pump Technology – Each air source heat pump draws ambient air and upgrades it to usable heat via inverter‑driven compressors. – EVI jet‑injection and smart defrost algorithms ensure reliable operation even in sub‑zero conditions, extending the scope of geothermal heating alternatives. Smart Controls & Efficiency – A central controller monitors indoor and outdoor sensors, automatically modulating output for maximum efficiency. This heat pump system can adapt to varying attendance patterns—from quiet weekday services to full‑house Sunday worship. – Integrated BMS compatibility means the air source heat pump system links seamlessly with lighting and ventilation, further reducing energy demand. Renewable Energy Integration – To complement the air source heat pump, rooftop PV panels feed a battery bank. Surplus electricity powers pumps and circulation, minimizing grid reliance and cutting carbon emissions. – When sunlight is insufficient, the heat pump system draws only the necessary grid energy, optimizing life‑cycle costs. Performance & Comfort Since commissioning, St Andrew’s has seen a 40% reduction in heating energy consumption compared to the old radiator network. Thanks to underfloor circuits and fan coils, warmth is uniform and responsive—an outcome traditional geothermal heating retrofit approaches could not achieve without extensive excavation. Why Heat Pump Technology? – Sustainability: Zero on‑site combustion and up to 5.0 COP (Coefficient of Performance) yield dramatic CO₂ savings. – Versatility: Whether on frosty winter mornings or mild autumn days, the air source heat pump adapts output, maintaining a stable interior climate. – Heritage‑Friendly: Minimal visual impact and non‑invasive installation protect historic fabric. By choosing Airosd’s air source heat pump system, St Andrew’s Church now combines centuries‑old grandeur with 21st‑century efficiency, setting a benchmark for historic building retrofits across Europe.

AIROSD’s air source heat pump provides reliable heating in Xinjiang’s harsh climate of cold, sandstorms, and temperature swings. Using four technologies—EVI ultra-low-temp heating to −40 °C, AI-driven defrosting, V-type evaporator for sand resistance, and AI smart control—AIROSD ensures stable, efficient heating. Installed in 120 + public buildings, it champions green heating in high-cold areas.

Heat pump floor-heating units extract ambient heat from air, water, or ground, compress it, and release warmth through subfloor exchangers. Achieving COPs of 3–4, they slash campus heating energy and CO₂ by over 30%. Equipped with smart scheduling, they operate reliably down to –25 °C and deliver uniform 35–45 °C warmth. Widely adopted in retrofits, they offer safe, efficient campus heating.