Core Advantages: High-Efficiency Heat Transfer, Stability, and Reliability
Superior Heat Transfer Efficiency:
The spiral wound tube utilizes a tightly wound helical configuration, significantly expanding the effective heat transfer area. Simultaneously, the fluid forms intense turbulence within the tubes and the shell side, effectively breaking through the laminar flow boundary layer and substantially increasing the heat transfer coefficient. Compared to traditional shell-and-tube exchangers, heat transfer efficiency is improved by 30%-50%, allowing for a significant reduction in equipment volume and saving installation space.
Outstanding Anti-Fouling Capability:
The turbulent state enhances the scouring effect of the fluid on the tube walls, reducing the adhesion and deposition of dirt on the heat transfer surface. The spiral structure ensures more uniform fluid distribution, avoiding local dead zones and significantly lowering the risk of fouling. This extends the continuous operation cycle of the equipment and reduces the manpower and material costs associated with cleaning and maintenance.
Stable Operation & Wide Adaptability:
The equipment features a compact overall structure with high rigidity and excellent vibration resistance. It is compatible with various medium types, including corrosive and high-viscosity media. With an operating temperature range of -50°C to 400°C and working pressure up to 10MPa, it can precisely match the heat transfer requirements of different operating conditions.
Significant Energy Conservation:
High heat transfer efficiency greatly improves energy recovery and utilization rates, effectively reducing system energy loss. Additionally, the equipment operates with low resistance and low power consumption. Long-term use helps enterprises significantly reduce operational costs.
Product Structure: Scientific Design, Craftsmanship Manufacturing
Our Spiral Wound Heat Exchangers are constructed from high-quality, corrosion-resistant, and high-strength materials such as stainless steel, titanium alloy, and Hastelloy, ensuring a long service life even under harsh operating conditions. The core wound tube components are processed through precision forming technology, featuring uniform winding density and a smooth heat transfer surface to further enhance efficiency. The equipment is equipped with precise temperature and pressure monitoring ports, facilitating automated control and ensuring stable system operation.
Application Scenarios: Full Industry Coverage, Precise Needs Matching
Petrochemical Industry:
Suitable for crude oil heating, product oil cooling, chemical reactor heat exchange, solvent recovery, and other processes. It withstands the harsh high-temperature, high-pressure, and corrosive environments, helping to improve production efficiency.
New Energy Industry:
It plays a core role in cooling systems for photovoltaic and wind power equipment, as well as in heat exchange processes for hydrogen energy production and energy storage systems, ensuring the stable and efficient operation of new energy equipment.
Pharmaceutical & Food Industry:
Applied in critical stages such as pharmaceutical purification, fermentation heat exchange, food sterilization, and beverage cooling. The materials meet sanitary grade standards, and the equipment features no sanitary dead corners, comprehensively guaranteeing product safety.
HVAC & Civilian Sector:
Compatible with district heating, central air conditioning systems, water heaters, heat pumps, and other civilian equipment. It improves energy utilization efficiency and reduces energy consumption in heating and cooling processes.
Other Fields:
It is also widely used in heat transfer processes in metallurgy, papermaking, and seawater desalination industries, providing solid support for energy conservation and green production across sectors.
Company Strength: Quality Assurance, Full-Process Support
We possess a professional R&D team and an advanced manufacturing base. With years of experience in the heat exchange equipment field, we offer full-process services including customized design, precision manufacturing, installation, commissioning, and after-sales maintenance. Our products are strictly manufactured in accordance with authoritative domestic and international standards such as GB and ASME, and undergo multiple rigorous quality inspections to ensure the reliability of every unit leaving the factory.
Whether for standard general-purpose equipment or customized solutions for special operating conditions, we can precisely meet customer needs, helping enterprises achieve efficient energy use, reduce operational costs, and promote green and low-carbon development.
