PVT E Type Thermoelectric Twin Module

The PVT E-Type Thermoelectric Twin Solar Module represents a breakthrough in integrated solar energy solutions, combining photovoltaic and thermal collection technology in one highly efficient system. This next-generation module is specifically designed for modern buildings requiring both electrical power and thermal energy, such as hot water and low-temperature heating. With a comprehensive solar utilization efficiency of up to 60%, it exceeds the performance of traditional photovoltaic panels by over 50%.

Key Features & Advantages

1. Dual-Energy Output (PV + Thermal)
This module integrates a high-efficiency photovoltaic system with an advanced thermal energy collector. While the PV cells generate electricity from sunlight, the thermal collector recovers waste heat from the panel, maximizing energy usage and significantly reducing losses. This dual approach ensures continuous, stable power generation along with abundant thermal output for heating water or space.

2. Vacuum Lamination for Thermal Enhancement
The E-Type panel adopts an advanced vacuum bonding process that tightly integrates the photovoltaic cell layer with the thermal collection plate. This reduces thermal contact resistance and enhances heat transfer efficiency by more than 40%. The result is fast, stable thermal energy output with minimal loss.

3. Intelligent Thermal Control
Built-in temperature control systems prevent the formation of hot spots, a common issue in conventional PV systems. By maintaining optimal working temperatures below 45°C, the module extends the service life of PV cells and maintains consistent performance. The heat output can reach up to 2× the amount of electricity generated, making it ideal for high-demand thermal applications.

4. Smart Sensor System & Energy Management Integration
The PVT E-Type comes with embedded temperature sensors and a smart control unit that interfaces with modern energy management platforms. It dynamically adjusts thermal output to match real-time energy demand, helping reduce operational and maintenance costs by over 35%.

Application Scenarios

1. Commercial office buildings requiring hot water and heating

2. Swimming pool heating systems

3. Single-family homes with integrated heating and power systems

4. Smart buildings using capillary low-temperature radiant heating

5. Seasonal heat storage systems using shallow geothermal sources

   
   

Technical Highlights

1. Solar Cell Type: Monocrystalline N-type TOPCon, multi-busbar

2. Power Stability: Low-temperature coefficient, stable output under varying sunlight

3. Heat Collection Plate: High-purity aluminum base with precision heat channel design

4. Temperature Control: Surface temperature uniformity within ±1°C

5. Frame & Structure: Anodized 6063-T5 aluminum alloy, tensile strength >180 MPa

6. Environmental Resistance: IP65 waterproof, UV-resistant, anti-corrosion, long life

Technical Parameter