SPX Cooling Technologies MHF705, MHF702 user manual Maintenance, Water Treatment and Blowdown

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Maintenance

Water Treatment and Blowdown

Maintaining Water Quality:

The steel used in MH Fluid Cooler's has been galvanized with a heavy zinc coating averaging .051mm in thickness. Other materials used (PVC fill, drift eliminators, and louvers, aluminum fans, cast iron Geareducer, etc.) are selected to offer maximum service life in a “normal” fluid cooler environment, defined as follows:

Recirculating water with a pH between 6.5 and 8; a chloride content (as NaCl) below 500 ppm; a sulfate content (SO4) below 250 mg/L; total al- kalinity (as CaCO3) below 500 mg/L; calcium hardness (as CaCO3) above 50 mg/L; no significant contamination with unusual chemicals or foreign substances; and adequate water treatment to minimize scaling.

Startup Conditions: The water conditions during initial fluid cooler op- eration are crucial in preventing premature corrosion of galvanized steel (white rust). For at least the first eight weeks of operation, pH should be controlled between 6.5 and 8.0 with hardness and alkalinity levels between 100 and 300 mg/L (expressed as CaCO3).

Chlorine (if used) shall be added intermittently, with a free residual not to exceed 1 mg/L—maintained for short periods. Excessive chlorine levels may deteriorate sealants and other materials of construction.

An atmosphere surrounding the tower no worse than “moderate indus- trial”, where rainfall and fog are no more than slightly acid, and they do not contain significant chlorides or hydrogen sulfide (H2S).

Many proprietary chemicals exist for control of scale, corrosion, and biological growth and should be used prudently. Also, combinations of chemicals may cause reactions which reduce treatment effective- ness, and certain chemicals such as surfactants, biodispersants and antifoams may increase drift rate.

The structure and coil of your fluid cooler consists primarily of

Notegalvanized steel, therefore your water treatment program must be compatible with zinc. In working with your water treatment supplier, it is important that you recognize the potential effects on zinc of the specific treatment program you choose.

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Contents Marley MH Fluid Cooler Page Contents Safety First PreparationFluid Cooler Location Installation Tower ShipmentReceiving Fluid Cooler Hoisting Fluid CoolerFluid Cooler Installation Motor Wiring When using a starterWhen using a two-speedstarter When using a VFDInstallation Mechanical Equipment Installation Water System OperationFluid Cooler Start-Up Operation Fluid Cooler Operation GeneralWintertime Operation Fan acceleration time of 30 seconds per hourOperation Intermittent Wintertime Operation Protection Against Coil FreezingModel Coil Volume Maintaining Water Quality MaintenanceWater Treatment and Blowdown Fluid Cooler Cleaning BlowdownBelt Tensioning Jacking Screws Straight Edge Sheave AlignmentFluid Cooler Maintenance Bushing Fastener Torque ValuesMaintenance Motor Relubrication Instructions Further instructionsSeasonal Shutdown Instructions Prolonged Shutdown SPX Cooling Technologies Services Maintenance Schedule Troubleshooting Trouble Cause RemedyTroubleshooting Additional Information Page SeaM05-116E

MHF702, MHF705 specifications

SPX Cooling Technologies has established itself as a leader in innovative cooling solutions, with the MHF705 and MHF702 units being prime examples of their commitment to efficiency and performance. These models are designed specifically for cooling processes in various industrial applications, providing reliable operation while minimizing energy consumption.

The MHF705 and MHF702 units are both equipped with advanced features that enhance their operational efficiency. One of the standout characteristics is their modular design, which allows for easy customization and scalability according to the system requirements. This flexibility makes them suitable for a wide range of applications, from HVAC systems to industrial cooling processes.

In terms of technology, both units utilize SPX’s proprietary air distribution system that optimizes airflow patterns within the unit. This ensures uniform cooling and reduces hot spots, contributing to enhanced overall performance. Additionally, the MHF series incorporates high-efficiency fans designed to reduce energy consumption while maximizing cooling output. These fans not only operate quietly but also have extended lifespans, reducing the need for frequent replacements.

Another significant feature of the MHF705 and MHF702 models is their robust construction. With materials designed to withstand harsh environmental conditions, including corrosion-resistant coatings, these units promise longevity and durability. This resilience is crucial for industries where reliability and minimal downtime are paramount.

The MHF series also excels in terms of maintainability. Features such as easily accessible components and modular serviceability make routine maintenance straightforward, which helps in limiting operational interruptions. Additionally, the units are designed with energy efficiency in mind, complying with various environmental standards, which reflects SPX's commitment to sustainability.

Both models also benefit from advanced control technologies, allowing for seamless integration with existing systems. Users can monitor and adjust settings easily via a user-friendly interface, ensuring optimal performance tailored to specific cooling demands.

In summary, SPX Cooling Technologies’ MHF705 and MHF702 units represent the pinnacle of modern cooling technology. With their advanced features, scalable design, high durability, and energy-efficient operation, these cooling solutions stand out as ideal choices for a diverse range of industrial applications, ensuring that businesses can rely on them for efficient and dependable cooling performance.