REPAIR AND OVERHAUL
01
HYDRAULIC VALVE BANKS
Ships rely on seawater cooling systems to maintain optimal engine and equipment temperatures. Without an MGPS, marine organisms like barnacles and mussels can grow inside pipes, leading to blockages that reduce cooling efficiency. Over time, these blockages can cause overheating, equipment failure, and increased maintenance costs.
02
Reduces the Need for Manual Cleaning and Costly Dry-Docking
Regular cleaning of fouled pipes requires dry-docking or labor-intensive maintenance, which is expensive and time-consuming. MGPS continuously prevents biofouling, reducing the need for frequent cleaning and ensuring smooth operations.
03
Maintains Optimal Operating Conditions for Ship Engines and Auxiliary Systems
A clean seawater cooling system ensures that engines, heat exchangers, and auxiliary machinery operate at peak efficiency. By preventing biofouling, MGPS helps maintain stable temperatures, reduces fuel consumption, and prolongs the lifespan of critical components, ultimately improving a ship’s overall performance and reliability.
PRODUCT OVERVIEW
01
Control Panel
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02
Mono Anodes
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03
Combi Anodes
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04
Box Cooler Anodes
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05
Flanged Mounting Sleeve
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06
Nylon Mounting Sleeve
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FAQs
Electrolytic MGPS: Uses copper and aluminum or iron anodes to release ions into seawater.
Yes, MGPS can be retrofitted onto existing vessels. The installation process involves fitting anodes into seachests or cooling water intakes and integrating a control panel for monitoring and adjustments.
MGPS anodes are typically installed in seachests or seawater intake systems, where they release ions into the water before it enters cooling circuits.
Anode lifespan depends on usage and ship operating conditions, but typically ranges from 1 to 5 years.
MGPS requires minimal maintenance. Periodic checks ensure proper ion release, and anodes may need replacement based on wear. The control panel should also be monitored to verify system performance.
MGPS releases controlled amounts of copper and other ions, well within environmental limits, making it a safer alternative to harsh chemical treatments.
MGPS significantly reduces marine growth but may not eliminate all fouling. Regular inspections and complementary measures like antifouling coatings can enhance protection.
Yes, MGPS is effective for offshore platforms, seawater intake systems, and other marine infrastructure prone to biofouling.
Unlike manual cleaning or chemical dosing, MGPS provides continuous, automated protection with minimal maintenance and environmental impact. It helps reduce operational costs and improves long-term efficiency.
MGPS works in most seawater conditions, but efficiency can vary based on salinity, temperature, and flow rate. Systems can be adjusted to optimize performance in different environments