As a final check turn on the city water valve to the By-Pass Panel and check the plumbing for leaks.

§5.2 PERFORMANCE VERIFICATION

Factory test data is supplied with the system. To ensure optimum performance, on-site data should be taken and compared to the factory test data. This data should be taken after the system has been flushed for one hour. Some deviations may be seen due to differences in feed water TDS and temperature between the site and factory. If you have already connected the product line to the tank, you will need to disconnect it ahead of the post carbon filter (if one is installed) to take product samples.

The following tests need only be performed if it is felt the system may not be performing as expected. The flow and TDS tests may be performed say after membrane replacement. The pressure switch tests can be performed periodically to insure operation at the preferred set points.

§5.2.1 FLOW TESTS

Determine the flow rates for both product and concentrate. Put the product line into a container and measure the volume of water that flows into it in one minute. Repeat the process with the concentrate (drain) line. These values should be in either gallons per minute or milliliters per minute. Product flow rates (at 77° F, 25° C) should be within 15% of the production rates given in §1.0 SYSTEM SPECIFICATIONS.

§5.2.2 CONCENTRATE TO PRODUCT RATIO

Compute the concentrate to product ratio (C:P) by dividing the concentrate flow rate by the product flow rate. This ratio should be between 2:1 and 5:1.

§5.2.3 TOTAL DISSOLVED SOLIDS (TDS) REJECTION

Using a conductivity meter (TDS meter) measure the TDS in both the feed water and the product water. Calculate percent rejection using the formula below:

(Feed TDS-Product TDS) ÷ (Feed TDS) × 100 = % Rejection

Rejection should be 85% or better. For example, where the feed TDS is 600 and the product TDS is 24, the percent rejection is

600-24) ÷ 600 × 100 = 96%.

§5.2.4 LOW PRESSURE SWITCH TEST

While the system is running gradually shut off the water supply to the system and observe the feed water filter gauge. The system should shut off when the pressure drops to about 12 psi. If the system does not shut off, either unplug the system or restore the water supply to the system.

DO NOT LET THE SYSTEM RUN WITHOUT THE WATER SUPPLY TURNED ON. PUMP DAMAGE WILL OCCUR. Refer to §7.1.1 for LOW PRESSURE SWITCH ADJUSTMENT.

§5.2.5 TANK PRESSURE SWITCH TEST

With the product line connected to the tank and with the system running, close the inlet valve to the tank. The tank pressure gauge should start to rise and the system should shut off when the

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Nimbus Water Systems MN-800-TF §5.2.1 Flow Tests, §5.2.2 Concentrate to Product Ratio, §5.2.4 LOW Pressure Switch Test

MN-800-TF specifications

The Nimbus Water Systems MN-800-TF is an innovative water filtration system designed to provide homes with clean, safe, and great-tasting water. Emerging as a leading solution in the water purification market, the MN-800-TF stands out due to its advanced features and cutting-edge technologies that cater to diverse filtration needs.

One of the main features of the MN-800-TF is its multi-stage filtration process, which includes a combination of sediment filters, activated carbon, and reverse osmosis membranes. This multi-tier approach ensures that a wide range of impurities such as chlorine, heavy metals, sediments, and even microorganisms are effectively removed from the water. This results in not only improved taste but also enhanced safety for household consumption.

The system utilizes advanced filtration technologies, including a high-capacity reverse osmosis membrane that boasts an impressive rejection rate for dissolved solids. This technology ensures that the water retains essential minerals while eliminating harmful contaminants. The activated carbon filters are designed to reduce chlorine levels and volatile organic compounds, resulting in water that is pure and refreshing.

In terms of user convenience, the MN-800-TF is equipped with an easy-to-read digital display that provides real-time information regarding filter status and water quality. The system also features a simple, intuitive setup process and space-saving design, making it suitable for both small and large homes. The compact design allows for installation under sinks or in utility rooms, optimizing space without compromising efficiency.

Another notable characteristic of the MN-800-TF is its sustainable approach. The system is designed to produce minimal wastewater during the filtration process, which is a critical consideration given the rising concern over water conservation. Moreover, by using a reusable filter system, users can reduce plastic waste generated from traditional bottled water usage.

The Nimbus Water Systems MN-800-TF is also backed by robust customer support and a warranty, ensuring peace of mind for users. Overall, this water filtration system integrates advanced technology and user-friendly features, making it an optimal choice for anyone looking to enhance their home’s water quality. With its combination of efficiency, sustainability, and reliability, the MN-800-TF truly embodies the future of home water purification.