GE E4H-CE Series, E8-CE Series, 000 gpd to 288 manual Steps

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flow and/or rejection of salts, or an increased pressure drop across the machine will indi- cate when cleaning is required. GE Osmonics recommends cleaning at least every month to assure good membrane element performance and long membrane element life.

GE Osmonics offers a full line of chemical cleaners for specific cleaning needs. Refer to the Spare Parts List (P/N 1233377).

To clean membrane elements:

STEPS

1.The E-CE RO machines do not include a Clean-In-Place (CIP) pump. A CIP pump and tank need to be installed in order to complete the cleaning process. GE Osmonics offers a stand-alone CIP system for the cleaning process. Refer to the Spare Parts List (P/N 1233377).

2.With the E-CE RO machine running, open the CIP permeate valve. After this valve has been opened, close the permeate service valve. Permeate water will flow into the CIP tank. Open the CIP tank drain valve. Allow the water to run through the CIP tank and the CIP drain valve for a few minutes to assure the tank is rinsed thoroughly. Once the tank is rinsed, close the CIP tank drain valve. The CIP tank will begin to fill with RO permeate. When the CIP tank has filled to the indicated full line, press the RO button so it is in the OFF position.

3.With the machine OFF, close the service inlet and concentrate valves and open the CIP inlet and concentrate valves. This will divert permeate and concentrate streams to the cleaning container for recirculation. Insure that the pre-filter is clean. GE Osmonics recommends that you replace the pre-filters prior to clean- ing and again replace pre-filters after cleaning. Call GE Osmonics Customer Support Center with questions concerning pre-filter replacement and cleaning.

4.Press the CIP button so it is in the ON position. The cleaning solution should be recirculated for approximately fifteen (15) minutes or until the solution tempera- ture reaches 38°C (100°F). DO NOT EXCEED 43°C (110°F). The membrane elements can only handle temperatures in excess or 29°C (85°F) for short periods of time. If heat rise occurs to quickly, larger volumes of cleaning solution or the use of a heat exchanger will slow the temperature rise. Press the CIP button so it is in the OFF position and allow the machine to soak for ten (10) minutes.

CAUTION Do not leave the cleaning strength solution in the machine for a period longer than one hour. The cleaning solution may damage the membrane elements and the machine during an extended period of contact.

5.To flush the detergent from the machine, close the CIP inlet valve, open the ser- vice inlet valve, and divert permeate and concentrate to the drain by opening the CIP drain valve. Press the RO ON/OFF button so it is in the ON position to

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Contents E4H-CE and E8-CE Series Water Purification Machines Page Installation Field Installed Accessories List of Figures Normal Versus Cross Flow Filtration DescriptionMembrane Element with Interconnectors Principles of Operation Page 400 5 66 Noryl is a trademark of General Electric Company Model Flow Specifications for Reverse Osmosis CE MachinesModel Pump Model Primary Pressure Minimum/Maximum Min/Max Boost PressureFRP Membrane Element SpecificationsFeed Water Requirements InstallationE8-CE ConnectionsPreparation and START-UP Steps Page Page Page Machine Operation and Maintenance Steps Steps Page Steps Field Installed Accessories Steps Page Troubleshooting Symptom Possible Causes Remedies TroubleshootingInsufficient electrical power Check the fuses or circuit Normal or higher than normal Possible Causes Remedies Symptom Possible Causes Remedies Electrical machine shut Conductivity drifts or Chemical pump will not Forms Return Goods Authorization RGA E R I E S A R T U P D a T a S H E E T Series Daily LOG Sheet Warranty Page GE OSMONICS, INC Page Manufactured in the USA

000 gpd to 288, E4H-CE Series, E8-CE Series, 000 gpd specifications

The General Electric (GE) 000 gallons per day (gpd) water treatment systems stand out in the industry, particularly known for their E4H-CE Series and E8-CE Series. These systems are designed to cater to various applications, from municipal to industrial needs, and are recognized for their efficiency, reliability, and advanced technology.

The E4H-CE Series, with a capacity of 000 gpd, showcases GE's commitment to delivering high-performance water treatment solutions. This series integrates state-of-the-art membrane technology that enhances the removal of contaminants, thereby ensuring high water quality. One of the main features of the E4H-CE Series is its compact design, allowing for modular installations that save valuable space while maintaining production efficiency. Its automation capabilities streamline operations, enabling remote monitoring and management, which reduces operational costs and minimizes human error.

On the other hand, the E8-CE Series, with a capacity extending to 288 gpd, is engineered for higher demand applications while maintaining the same quality standards. The E8-CE Series offers superior energy efficiency and lower operating costs, making it an ideal choice for facilities with significant water treatment needs. Its innovative purification process employs advanced reverse osmosis and ultra-filtration technologies, ensuring that the water produced meets the highest safety and quality standards.

Both series incorporate GE's proprietary technologies, such as the SmartWater platform. This enables real-time data analysis and predictive maintenance, significantly enhancing operational reliability. The systems are also designed to be environmentally friendly, reducing waste and energy consumption, which aligns with global sustainability goals.

In addition to their technological advancements, the E4H-CE and E8-CE Series feature robust construction for longevity and resilience under varying operational pressures. They are designed to adapt easily to changing water quality conditions, ensuring consistent performance without compromising output.

Overall, GE's 000 gpd, E4H-CE Series, and E8-CE Series water treatment systems represent a blend of advanced engineering, user-friendly operation, and environmental consideration, making them essential assets for modern water management solutions. With their innovative features and reliable performance, these systems are equipped to meet the challenges faced by various industries today.