quality Plate & Gasket factory

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1. Heat transfer precision – improved temperature approach, true counter-current flow, 80-90% less hold-up volume.   2. Low cost – low capital investment, installation costs, limited maintenance and operating costs.   3. Greatest reliability – less fouling, stress, wear, and corrosion.   4. Responsible – least energy consumption for most process effect, reduced cleaning.   5. Easy to expand capacity – adjustable plates on existing frames.

At Walson, we are committed to delivering high-performance and energy-efficient heat transfer solutions. Our Removable Plate Heat Exchangers (PHEs) are designed to optimize thermal efficiency while offering easy maintenance, flexibility, and durability across various industries, including HVAC, food processing, chemical, pharmaceutical, and power generation.   Key Features & Benefits:   ✔ Superior Heat Transfer Efficiency – High turbulence and optimized plate design enhance heat exchange rates. ✔ Compact & Space-Saving Design – Ideal for facilities with limited installation space. ✔ Easy Maintenance & Cleaning – Removable plates allow for quick disassembly and inspection. ✔ Versatile Applications – Suitable for liquid-to-liquid and liquid-to-gas heat transfer processes.   Our engineering team is dedicated to developing customized solutions that align with specific industrial requirements. By integrating advanced thermal engineering techniques, we ensure our products contribute to sustainable energy savings and enhanced operational efficiency.   Stay updated with our latest innovations, industry insights, and product launches by following our News Center. For more information, feel free to contact us!

1. Poor sealing would case leakage occurrence which will be a replacement hassle.   2. Limited pressure use, generally not more than 1.5MPa.   3. Limited operating temperature due to temperature resistance of the gasket material.   4. Small flow path, and not suited for gas-to-gas heat exchange or steam condensation.   5. High blockage occurrence especially with suspended solids in fluids.   6. The flow resistance is larger than the shell and tube.  

Background: A paper manufacturing plant wanted to capture and reuse waste heat from its drying process to improve energy efficiency.   Solution: We designed a heat recovery system using plate heat exchangers to transfer excess heat from exhaust gases to preheat process water.   Results: • 20% energy savings, lowering fuel costs • Higher production efficiency, reducing drying time • Lower carbon footprint, meeting environmental regulations

Background: A luxury resort required an energy-efficient cooling system to maintain comfortable indoor temperatures while reducing electricity costs.   Solution: We supplied a high-capacity plate heat exchanger, integrated with a central chilled water system, to optimize cooling performance.   Results: • 40% reduction in cooling energy consumption • Improved guest comfort with stable indoor temperatures • Eco-friendly solution, supporting sustainability initiatives

Background: A plastic extrusion company struggled with overheating issues in its production process, leading to inconsistent product quality.   Solution: We implemented a plate heat exchanger to efficiently cool process water, stabilizing production temperatures.   Results: • Consistent product quality, minimizing defects • Reduced water consumption, enhancing sustainability • Lower energy costs, improving profitability

Background: A large-scale dairy farm needed a reliable milk cooling system to ensure freshness and compliance with food safety regulations.   Solution: We installed a plate heat exchanger to rapidly cool raw milk using chilled water, optimizing the cooling process before storage.   Results: • Faster cooling times, preserving milk quality • Energy savings of 35%, reducing operational costs • Compact design, fitting seamlessly into existing infrastructure

Background: A pharmaceutical manufacturer required precise temperature control in its cooling system to ensure compliance with strict production standards.   Solution: We provided a stainless steel plate heat exchanger, designed for high sanitary requirements, to improve cooling efficiency and maintain consistent temperatures.   Results: • 20% improvement in cooling efficiency • Enhanced product quality through precise temperature regulation • Reduced maintenance downtime, increasing production output