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Prime Ceramic Solar

Project Overview

Prime Ceramic Solar

Product Features

Technical Specifications: Evacuated Glass Tube
  • Structure: All-glass double-tube coaxial structure.
  • Glass Material: High Borosilicate 3.3 glass.
  • External Pipe Diameter & Thickness: Ø58 mm + 0.7 mm = 1.6 mm.
  • Internal Pipe Diameter & Thickness: Ø47 mm + 0.7 mm = 1.6 mm.
  • Pipe Length: 1800 mm / 2100 mm.
  • High Borosilicate Twin Glass Tubes: Includes an inner and outer assembly for enhanced durability.
  • Inner Glass Tube Coating: Coated with a special selective three-layer coating for superior thermal performance.
  • Thermal Collection Efficiency: Optimized for faster heat collection.
Absorptive Coating Properties
  • Coating Structure: CU/SS-ALN(H)/SS-ALN(L)/ALN.
  • Sedimentation Method: 3-target magnetron sputtering plating.
  • Specific Absorption: α = 0.93–0.96 (AM 1.5).
  • Emission Ratio: εn = 0.04–0.06 (at 80°C ± 5°C).
  • Vacuum Tightness: P < 5.0 × 10^-2 Pa.
  • Idle Sunning Property Parameters: Y = 260–300 m²·°C/kW.
  • Solar Irradiation to Achieve Water Temperature:
    • H < 4.7 MJ/m² (Ø58).
    • H = 3.7–4.2 MJ/m².
Average Heat Loss Coefficient
  • U_t: 0.4–0.6 W/(m²°C).

This advanced evacuated glass tube system ensures high efficiency, excellent heat retention, and superior performance in both residential and commercial applications.

    Prime Ceramic Solar

    The Prime Ceramic Model is a highly economical choice. Its specially designed rough surface ensures a fusion-bonded ceramic coating, offering superior protection against hard water. This innovative coating prevents rust, ensuring the delivery of hygienic and clean water at all times.

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    Product Features

    Technical Specifications: Evacuated Glass Tube
    • Structure: All-glass double-tube coaxial structure.
    • Glass Material: High Borosilicate 3.3 glass.
    • External Pipe Diameter & Thickness: Ø58 mm + 0.7 mm = 1.6 mm.
    • Internal Pipe Diameter & Thickness: Ø47 mm + 0.7 mm = 1.6 mm.
    • Pipe Length: 1800 mm / 2100 mm.
    • High Borosilicate Twin Glass Tubes: Includes an inner and outer assembly for enhanced durability.
    • Inner Glass Tube Coating: Coated with a special selective three-layer coating for superior thermal performance.
    • Thermal Collection Efficiency: Optimized for faster heat collection.
    Absorptive Coating Properties
    • Coating Structure: CU/SS-ALN(H)/SS-ALN(L)/ALN.
    • Sedimentation Method: 3-target magnetron sputtering plating.
    • Specific Absorption: α = 0.93–0.96 (AM 1.5).
    • Emission Ratio: εn = 0.04–0.06 (at 80°C ± 5°C).
    • Vacuum Tightness: P < 5.0 × 10^-2 Pa.
    • Idle Sunning Property Parameters: Y = 260–300 m²·°C/kW.
    • Solar Irradiation to Achieve Water Temperature:
      • H < 4.7 MJ/m² (Ø58).
      • H = 3.7–4.2 MJ/m².
    Average Heat Loss Coefficient
    • U_t: 0.4–0.6 W/(m²°C).

    This advanced evacuated glass tube system ensures high efficiency, excellent heat retention, and superior performance in both residential and commercial applications.

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