GE PVIG940, PVWT936, PVWS930, PVWG936, PVWS936 manual Product Dimensions, Ft = 0.3 m 1 = 2.5 cm

Page 8

Installation Instructions

PRODUCT DIMENSIONS

12” 13.4”

12” 13.4”

 

PVWG936

PVIG940

 

 

2.5”

 

2.5”

24.8”

15.7

15.7

 

 

 

24.8”

PVWS930

PVWS936

5.9” 10.8”

5.9” 10.8”

PVWT936

38.6” min. 53.7” max.

15.75”

36”

19.3”

MODEL

W

D

H

T

PVWS930/936

30” - 36”

19.3

33” - 45.3”

15.75”

PVWT936

36”

19.3

38.6” - 53.7”

15.75”

PVWG936

36” - 42” - 48” 19.7”

33.4”

17.7”

PVIG940

39.4”

27.5”

33.4” - 48”

17.7”

1 Ft = 0.3 m 1” = 2.5 cm

8

Image 8
Contents Range Hoods 350A4502P595 03-07 ATSImportant Safety Information Safety Precautions Using the hood controls Control Device ResetHood Operation FiltersCare and cleaning of the vent hood To clean the filter/sTo clean the hood surface Stainless Steel SurfacesCare and cleaning of the vent hood Range Hood Product Dimensions Ft = 0.3 m 1 = 2.5 cmDuct Fittings Flexible ductingOptional Accessories Tools and Materials RequiredParts Provided Models PVWS930, PVWS936 and PVWT936Ducting Options and Examples Model PVWG936Model PVIG940 Venting MethodsWall Installation For Models PVWS930, PVWS936, PVWT936 and PVWG936 onlyDo not use duct smaller than the transition Failure to do so can result in death or electrical shock5 x Duct Cover Ceiling Installation For Model PVIG940 onlyCeiling Installation Page Before you call for service… Ownership Registration For Canadian Customers Pour les consommateurs canadiens What Mabe Will Not Cover Range Hood WarrantyMabe Will Replace Schedule Service Parts and AccessoriesConsumer Support GE Appliances Website Extended Warranties
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PVWS936, PVIG940, PVWG936, PVWS930, PVWT936 specifications

The GE PVWS936, PVWT936, PVWS930, PVWG936, and PVIG940 are part of General Electric's advanced lineup of water and wastewater management solutions. These models reflect GE's commitment to delivering innovative technology, energy efficiency, and operational reliability in the realm of water treatment.

One of the standout features of the GE PVWS936 and PVWT936 is their robust filtration capabilities, designed to handle a variety of water quality issues. These models incorporate advanced membrane technology which enhances the efficiency of contaminant removal while minimizing energy consumption. This leads to significant cost savings in chemical usage and maintenance, a valuable proposition for municipalities and industrial applications alike.

The PVWS930 model emphasizes versatility and ease of operation. It is equipped with user-friendly interfaces and remote monitoring capabilities, allowing operators to track performance metrics in real-time. This feature not only streamlines operations but also aids in proactive maintenance, reducing downtime and extending the life of the equipment.

Another notable characteristic is observed in the PVWG936, which boasts a compact design without compromising on performance. It is engineered to maximize space utilization in treatment facilities, making it ideal for sites where footprint is a concern. This model is particularly well-suited for urban settings where space limitations are increasingly becoming an operational hurdle.

The GE PVIG940 focuses on integrated growth with an emphasis on sustainability. This model goes beyond just treating water; it's designed to promote environmental stewardship by incorporating energy-efficient components and reducing carbon footprint. Its ability to integrate with renewable energy sources underscores GE's commitment to sustainable development in water management.

All these models share common technological advancements such as enhanced automation, data analytics, and IoT integration. The data analytics capabilities allow operators to make informed decisions based on real-time data, leading to improved operational efficiencies. Furthermore, the IoT integration enables predictive maintenance, ensuring that systems are functioning optimally and reducing the likelihood of unexpected failures.

Overall, the GE PVWS936, PVWT936, PVWS930, PVWG936, and PVIG940 are engineered to meet the demands of modern water treatment processes. Their advanced features, emphasis on energy efficiency, and commitment to sustainability make them exceptional choices for both municipal and industrial applications. As water scarcity and quality issues continue to challenge communities worldwide, these models present effective solutions that align with the best practices in environmental management.