TPV Pro Photovoltaic Thermal Collectors

Against the backdrop of the global energy structure shifting toward cleanness and efficiency, T/PV Pro breaks the single-function limitation of traditional energy equipment with its "four-in-one" integrated functional advantages. It builds an autonomous, intelligent, and efficient new energy utilization system, offering a fresh solution for energy needs across various scenarios.

I. Core Functional Integration: An Energy Synergy Model Breaking Boundaries

T/PV Pro is not a simple combination of green power generation, waste heat recovery, intelligent charging, and multi-level energy storage functions. Instead, it achieves in-depth functional synergy through system-level design, forming a full-link energy optimization loop.

1. Co-generation of Electricity and Heat: It recovers thermal energy simultaneously during power generation, significantly reducing energy loss and substantially improving energy conversion efficiency.

2. Integration of Storage and Utilization: The system can store surplus electricity and also directly supply power to devices like electric vehicles, realizing "on-demand energy distribution".

3. Intelligent Regulation: Equipped with an intelligent management system, it automatically allocates resources based on real-time energy demand. It completes the "power generation - energy consumption - energy storage" cycle without the need for additional equipment, truly achieving an integrated energy supply.

II. Multi-Scenario Adaptation: An Energy Solution Covering All Fields

Relying on its modular and platform-based design, T/PV Pro has strong scenario adaptability and has been applied in five major fields: residential, commercial, industrial, off-grid, and regional energy systems.

1. Residential and Community Scenarios

◦ Villas/High-rise Balconies: It meets household needs for electricity, hot water supply, heating, and electric vehicle charging through solar energy, helping families achieve energy independence and reduce daily energy expenses.

◦ New Green Communities: It serves as a distributed clean heat source to replace gas-fired boilers, promoting low-carbon transformation at the community level.

2. Commercial and Industrial Scenarios

◦ Hotels/Hospitals/Schools: It ensures continuous power supply and stable hot water provision, reducing high energy costs and supporting the sustainable operation of these institutions.

◦ Industrial Parks: It provides preheated process water and daily electricity for production, reducing fuel consumption while helping enterprises achieve the "dual goals" of cost reduction and carbon emission reduction.

3. Special Off-Grid Scenarios

◦ Oilfields/Remote Areas: It acts as an off-grid power and heating station, providing stable energy for critical infrastructure such as communication base stations and monitoring systems.

◦ RVs/Camping Sites: It supplies mobile clean electricity and hot water, adapting to the growing demand of the outdoor lifestyle economy.

4. Regional Energy Planning Scenarios

◦ Realizing Seasonal Energy Storage: Surplus thermal energy in summer is stored underground and extracted for heating in winter, maximizing the efficiency of regional energy recycling.

III. Key Technical Support: Building an Industry-Leading Technical Barrier

Leveraging Soletks Group's expertise in advanced coating, vacuum technology, and system integration, T/PV Pro's performance indicators exceed industry standards, forming an irreproducible technical advantage.

1. Dual Supply Technology of Electricity and Heat: The combined instantaneous efficiency reaches 88%, with a PV cell efficiency of 23.3% and a thermal efficiency of no less than 60%. The high-efficiency energy conversion technology enables simultaneous power generation and heat recovery, increasing energy output per unit area and solving the long-standing industry pain points of "having electricity without heat" and "having heat without electricity".

2. High-Efficiency Insulation Technology: It is filled with 99.99% inert gas and matched with polyurethane insulation materials with a thermal conductivity of 0.03643 W/mK, allowing stable operation in an environment ranging from -25°C to 80°C. Vacuum insulation suppresses thermal convection, inert gas reduces thermal conduction, and low-thermal-conductivity materials lower heat loss, ensuring the equipment's efficiency under extreme weather conditions.

3. Reliable Structural Design: It adopts an S-shaped fluid channel that can withstand a pressure of 0.6 MPa, combined with a one-time lamination process. The S-shaped channel improves heat exchange efficiency and pressure resistance, while the integrated lamination design prevents leakage, ensuring the mechanical stability of the equipment and extending its service life to more than 25 years.

IV. Core Advantages of the Product: Balancing Short-Term Benefits and Long-Term Value

Integrating a variety of advanced technologies, T/PV Pro demonstrates outstanding advantages in economy, reliability, and adaptability, balancing users' short-term cost savings and long-term asset value.

1. Economic Advantage: With an 88% comprehensive efficiency, the energy output per unit area is far higher than that of separate PV or solar thermal utilization systems. It brings a higher return on investment for families and enterprises and shortens the cost recovery cycle.

2. Reliability Advantage: The military-grade structural design and vacuum insulation technology ensure the stable operation of the equipment in an environment from -25°C to 80°C. There is no leakage risk, the service life exceeds 25 years, and basically no post-operation maintenance is required.

3. Adaptability Advantage: It supports both grid-connected and off-grid operation modes, independent of power grids and gas networks. It can be adapted to different scenarios such as urban households, commercial facilities, and remote areas, featuring both flexibility and stability.

V. Detailed Product Specifications

VI. Strength Support from Soletks Group

1. Full-Industry Chain Layout: From the production of core materials and components to system integration and project implementation, it achieves full-process vertical management and control, ensuring the quality of products and services.

2. Strong R&D Support: Relying on the Shandong Academician Workstation and the Carbon Neutrality Research Institute, it collaborates with Tsinghua University and the Chinese Academy of Sciences to conduct R&D on cutting-edge PVT technologies, continuously promoting technological iteration.

3. Global Production Capacity: It has 6 major production bases, with an annual capacity of 3.7 GWth for solar thermal utilization systems, ranking second in the world.

4. Full-Cycle Services: It provides end-to-end project delivery services from product design and installation to operation and maintenance, lowering the threshold for users to use the product.

VII. Frequently Asked Questions (FAQ)

1. What is a PVT system, and how does it differ from traditional solar panels or water heaters?

A PVT (Photovoltaic-Thermal) system realizes both power generation and heat recovery in a single solar module through thermoelectric coupling technology, achieving "one-time light collection, dual utilization". Compared with traditional systems, it has higher comprehensive energy efficiency and can create greater value for users.

2. What conditions need to be met for installing a PVT system at home?

If the residential roof faces south, has no obstacles, meets the structural load-bearing requirements, and the family has both electricity and hot water needs, then the conditions for installing a PVT system are met.

3. Does a PVT system require regular maintenance?

The maintenance requirement of this system is extremely low; only the surface of the equipment needs to be cleaned 2-3 times a year. There are no vulnerable parts inside the equipment, so no disassembly or complex maintenance is required.