PVT T Solar System
With PVT-T, you get electricity + heat from the same area – maximizing energy yield per square meter.
Our vacuum bonding system absorbs excess heat, keeping PV cells cooler and improving performance.
The integrated thermal system lowers your reliance on electric or gas heaters – saving money and emissions.
Built-in smart sensors allow real-time energy control and diagnostics, reducing O&M costs by 35%+.
Designed for Modern Energy Needs
The PVT-T Hybrid Solar Panel is more than just a panel – it’s a total energy solution designed for modern buildings seeking sustainability, efficiency, and
reliability. By combining photovoltaic (PV) electricity generation with thermal (T) heat capture, it meets the evolving needs of homes, businesses, and public facilities – all in one integrated system.
Whether it's powering lights, heating water, or reducing your carbon footprint, the PVT-T brings measurable value to every square meter of rooftop space.
Real-World Application Scenarios
1. Office Buildings
Use the PVT-T system to generate electricity for lighting, equipment, and air conditioning while supplying hot water for restrooms and cafeterias. Ideal for low-carbon buildings aiming for LEED or BREEAM certification.
2. Hotels, Spas, and Resorts
Deliver hot water for showers, laundry, and pools with renewable energy. The dual-output system helps reduce operating costs while supporting your brand’s sustainability goals.
3. Residential & Apartment Complexes
Support domestic hot water supply and space heating using clean solar energy. The PVT-T panel easily integrates with heat pump systems for year-round efficiency.
4. Seasonal District Heating Projects
Perfect for multi-building projects where heating is needed during colder months. Combine the panel with thermal storage and smart controls for cross-seasonal heating using solar power.
How It Works for You?
Problem 1: Rooftop Space is Limited
Solution: With PVT-T, you get electricity + heat from the same area – maximizing energy yield per square meter.
Problem 2: PV Panels Lose Efficiency When Hot
Solution: Our vacuum bonding system absorbs excess heat, keeping PV cells cooler and improving performance.
Problem 3: Heating Systems are Expensive to Run
Solution: The integrated thermal system lowers your reliance on electric or gas heaters – saving money and emissions.
Problem 4: Operations & Maintenance are Costly
Solution: Built-in smart sensors allow real-time energy control and diagnostics, reducing O&M costs by 35%+.
Key Features that Make a Difference
1. Photovoltaic + Thermal in One Module
Collect solar power and heat in a compact, easy-to-install unit. Ideal for rooftop retrofits or new projects.
2. Vacuum Bonded Efficiency
Heat and electricity are harvested simultaneously, with thermal transfer efficiency increased by over 40%.
3. Advanced Insulation Technology
A three-layer thermal structure keeps heat locked in and reduces surface losses by 70%.
4. Smart Control Integration
Equipped with sensors and an onboard controller, the PVT-T connects to your Building Energy Management System (BEMS) for optimized performance.
5. Built to Last
Featuring a high-strength aluminum alloy frame and IP65-rated sealing, this panel is designed for 15+ years of high-performance outdoor use.
Example Use Case: Mid-Sized Office
Area | 120 m² rooftop |
Panels Installed | 30 pcs PVT-T |
Daily Power Output | ~40 kWh |
Daily Thermal Output | ~70 kWh |
ROI Payback Period | < 5 years |
CO₂ Reduction | ~25 tons/year |
Who Should Choose PVT-T?
EPC contractors building net-zero energy projects
Architects designing smart, energy-efficient buildings
Commercial property owners lowering utility bills
Government or NGO programs promoting renewable energy
Hotels, pools, and resorts going green
Performance parameter
Type | PVT-T mould | |
outline dimension (mm) | 2318×1175×80 | |
weight (kg) | 66 | |
electrical parameter | Maximum power (STC condition)/W | 500 |
Type of battery | Single crystal multi gate N type TOPCon | |
Number of batteries | 144(6×24)cells | |
working temperature /℃ | -40~85 | |
Maximum system voltage/V | 1500V(TUV) | |
Open circuit voltage (Voc)/V | 51.1 | |
Maximum power point voltage (Vmp)/V | 44.45 | |
Short circuit current (Isc)/A | 14.31 | |
Maximum power point current (Imp)/A | 13.05 | |
component efficiency | 22.44% | |
thermal parameter | Peak light thermal power (W) | 1380 |
dielectric capacity (L) | 1.2 | |
Medium type | Propylene glycol solution/ethylene glycol solution/water | |
Working pressure (MPa) | 0.6 | |
operate mode | Inter-papillary expansion | |
Interface size and quantity | φ 22,4 | |
Heat exchanger structure | Tubular plate type | |
Heat exchanger material | red copper | |
Back panel material | Color coated panels | |
Areas of application | Low temperature radiant heating, pool heating, cross-season heat storage, and direct heating combined with heat pumps. | |
Q1: What is a PVT solar panel?
A1: A PVT (Photovoltaic-Thermal) solar panel is a hybrid technology that simultaneously generates electricity and heat from sunlight. It combines traditional photovoltaic (PV) cells with a thermal collector to improve overall solar energy utilization.
Q2: How is a PVT panel different from a regular solar panel?
A2: Unlike traditional PV panels that only produce electricity, PVT panels also capture thermal energy for water or space heating, boosting total efficiency up to 60–80%.
Q3: What are the benefits of using PVT panels?
A3: PVT panels save space, improve total energy output, and reduce CO₂ emissions. They are ideal for buildings with limited roof area and high demand for both electricity and hot water.
Q4: Can PVT panels work in cold or cloudy climates?
A4: Yes. PVT systems are designed with insulation and heat-exchange materials to maintain performance even in low-temperature or low-irradiance conditions.
Q5: What applications are suitable for PVT systems?
A5: PVT systems are widely used in residential hot water systems, office buildings, swimming pool heating, industrial process heat, and low-carbon architecture.
