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1 Selection Guide WDI Deionization Systems Brochure WDI-5 Elite Water Recycling Datasheet WDI-10 Elite Water Recycling Datasheet WDI-15 Elite Water Recycling Datasheet WDI-5 Swift Water Recycling Datasheet WDI-10 Swift Water Recycling Datasheet WDI-15 Swift Water Recycling Datasheet Wastewater treatment needs analysis WDI Marketing Package INCLUDED DOCUMENTS 2016 Water Innovations WDI marketing Package July P age

2 WDI Deionized Water System SELECTION GUIDE Elite Systems include the following on one skid for 5-gpm 10-gpm or 15-gpm One (1) 316-SS Multi-Stage System Feed Pump One (1) inlet us & flow sensor for feed-forward regeneration One (1) Filter Housing for 5-micron Bag Filters for TSS Two (2) Cation Exchangers with regeneration control valve Two (2) Anion Exchangers with regeneration control valve One (1) outlet us & ph sensor for feed-back regeneration Three (3) actuated valve for feed, product & off-spec water control One (1) Allen Bradley (AB) CompactLogix PAC Controller One (1) AB 5 Panelview for Human-Machine Interface One 150-gal HDLPE System Feed Tank with analog level sensor Swift Systems have the following simplified regeneration controls One (1) Click PLC for system operation One (1) us sensor for outlet & recirculation control One (1) On/Off switch for feed pump activation Volumetric regeneration by valve internal water meter System Selection 1. System Size? 5-gpm, 10-gpm or 15-gpm 2. Is this system used to purify potable water? If Yes, then go to the next question If No, consult with us to specify a CIX recycling system 3. Is there analytical data of feed water? If "Yes" supply water data for review If "No" we require answers to the following questions A, B, & C A. Is feed water Total Dissolved Solids <450 mg/l? If "Yes" this is a suitable application If "No" but is <600 mg/l, provide flow to confirm suitability B. Does feed water contain >2 mg/l of chlorine? If "Yes", an off-skid carbon pre-filter is required that we can specify 2016 Water Innovations WDI Selection Guide July P age

3 WDI Deionized Water System SELECTION GUIDE C. Does the influent contain >5 mg/l of suspended solids? If "Yes", an off-skid Macrolite pre-filter is required that we can specify 4. Are there specifications for the product DI water? If Yes answer the following questions A and B If "No" specifications provided in datasheets apply A. Is the required product water quality better than 3 us/cm? If "Yes" a CIX HP-type system or off-skid mixed-bed resin is required B. Are there specifications for ph, TOC, silica, or particles? If "Yes", provide specifications to confirm suitability If "No" specifications provided in datasheets apply 5. Does the customer have a wastewater treatment system? Neutralization is necessary although does not require a permit If there is no treatment system, we can specify and propose 6. Systems Standard Elite & Swift - includes components detailed on the page 1 Optional Adders Off-Skid integrated Macrolite or Carbon pre-filters System WDI5 Elite WDI10 Elite WDI15 Elite WDI5 Swift WDI15 Swift WDI15 Swift Flow 5-GPM 10-GPM 15-GPM 5-GPM 10-GPM 15-GPM 7. Installation and Deliverables Typical lead-time is 6 weeks from purchase order and initial payment Deliverables include electrical schematics, Installation and O&M Manual Warranty is 12-months from installation per proposal Terms & Conditions 2016 Water Innovations WDI Selection Guide July P age

4 WDI Deionized Water System SELECTION GUIDE 2016 Water Innovations WDI Selection Guide July P age

5 WDI Ion Exchange System High Quality Deionized Water Up to 15 gpm Reverse Osmosis Water Purification Hydrus Water Softening & Filtration Ion Exchange Rinsewater Recycling Proprietary Precipitation Chemistry Zero-Liquid Discharge Evaporation Batch/Continuous Waste Treatment 350 N Engel St. Escondido, CA sales@waterinnovations.net

6 WDI With Counter-current regeneration and a patented feed forward regeneration control system, the WDI can deliver water quality rivaling a mixed bed system. For applications demanding reliability and quality, the WDI is the solution. Industry Applications Hospitals Laboratory Paint and Powder Coating Photographic Processing Electronics Assembly General Manufacturing Metal Finishing Printed Circuit Board Car Washes Process Applications Potable Water Purification RO Water Polishing Parts Washing Replacement for Service DI Spot-Free Rinsing FEATURES High quality deionized water Fully automatic operation Simple instrumentation, easy operating procedures Superior chemical efficiency Minimal regeneration volume Corrosion resistant components Minimal installation requirements Stainless steel frame Choices WDI systems can be configured to regenerate according to volume of water processed, outgoing conductivity, or feed-forward loading. Volumetric-regenerating WDI systems utilize an internal water meter with control disks geared for the actual dissolved solids in the incoming water. The least sophisticated of the systems, it is unable to account for variations in incoming water quality. Without expensive controls, it is the most economical system and is suitable for less critical applications, and can be provided with a feed pump or designed to operate off city water pressure Feed-Back systems additionally include a conductivity meter on the outgoing water which monitors water quality and initiates regeneration once the water quality diminishes to an adjustable set-point. Superior water quality is achieved with this moderately priced unit, which comes standard with a feed pump and requiring an atmospheric incoming water storage tank. The Feed-forward regenerating WDI includes PLC controls with conductivity and flow meters for the incoming water to calculate gains loading and to initiate regeneration prior to any decrease in water quality. With a conductivity sensor on the outgoing water line and an automatic purge function, water produced is of consistently high quality with the greatest operating efficiency of the three systems. Complete Training and Field Support Water Innovations, Inc. supplies start-up, training and field support on every system sold. Our systems are backed by responsive, factory-authorized service technicians. Process and Parts Warranty Water Innovations, Inc. offers both a process and parts warranty and our full support to guarantee that you get the water quality you expect.

7 Various Product Sizes Provide from two to 15 gallons (8 to 57 liters) of high quality deionized water per minute. Automatic System Operation Countercurrent Regeneration Maximizes chemical efficiency and product quality while minimizing regeneration costs. Automatic Purge Minimizes operator maintenance and hands-on adjustments. Ergonomic Design Places status lamps, pressure gauges, sample taps and isolation valves in a central location for easy operator interface. Space-Saving Design Uses skid mounted components to minimizespace requirements. Assures only high purity water will be provided to your operation. Chemical Monitor Automatically shuts system down if chemical supply is not sufficient. Multiple System Configurations Provide product water qualities from 50,000 ohm/cm to 10,000,000 ohm/cm. Various Automation Levels Conductivity Monitor DUPLEXED CATION DUPLEXED ANION Flow Sensor Match product designs to your needs. Volumetric Meter Design Initiates a regeneration after a preset amount of water has been processed. Feed Forward Design Optimizes system performance. Feed Back Design Regeneration once product water falls below a predetermined quality. Various Power Configurations Accommodate international installations. Guarantee Modular Design Allows easy system expansion by adding another DI module. We guarantee, in writing, the performance of every system we sell, assuring you of our commitment to reliable water treatment. U.S. Patent Numbers 4,427,549; 5,069,779

8 WDI Ion Exchange Deionized Water System Each WDI System includes a feed pump, simplex bag filter, duplex cation and anion exchangers, and controls. Tank sizes are selected based upon flow requirements. An Inlet conductivity and flow meter control feed-forward regenerations with feed-back regenerations triggered based upon operator-adjustable outlet water quality. Best-In-Class System Controls TYPICAL WDI SYSTEM SPECIFICATIONS FLOW EFFLUENT QUALITY INFLUENT INCOMING WATER FEED REGENERATION CONTROLS RESIN TYPE INLET PRE -FILTER ACID PER REGENERATION/WASTE 2 to 15 gallons per minute less than 5 us/cm 450 mg/l maximum TDS City Water or from atmospheric tank volumetric, feed -back, or feed -forward strong acid and base monosphere gel 5 micron cartridge filter 3.1 Gal 30% HCl/75 gallons CAUSTIC PER REGENERATION/WASTE 1.8 Gal 50% NaOH/85 gallons CAPACITY SKID DIMENSIONS / WEIGHTS 47,500 grains 36"W X 46" L x 86" H/900 lbs Accessories Carbon Filtration Storage and Repressurization Neutralization System Chemical Fume Suppression removes chlorine to improve product water quality provide constant deionized water supply & pressure for automatic neutralization of treated water for water purity greater than 3 megohm-cm

9 WDI-5 Elite Data Sheet 5-GPM DEIONIZED WATER SYSTEM TANKS REGENERATION SPECIFICATIONS System Feed Flow Configuration Alternating Duplex Volume Minimum 200 Gallons Regeneration Countercurrent SKID MOUNTED COMPONENTS Waste Flow 2 gpm Feed Pump Cycle Time 42 minutes Number One (1) Cation Exchangers Horsepower 1.5 HP HCI per Cycle 1 gallon Material 316 SS Waste per cycle 55 gallons Bag Filter Grains Capacity 18,000 Number One (1) Anion Exchangers Filter Rating 5-micron NaOH per cycle 0.85 gallon Cation & Anion Exchangers Waste per Cycle 62 gallons Number Two (2) of each Grains Capacity 16,200 Vessel Size 8" x 40" UTILITIES Construction PE Lined Fiberglass Electrical Voltage /460 Cation Resin Strong Acid Full Load Amps 10/5 Anion Resin Strong Base Make-up Water 5 gpm Volume per Vessel 0.9 ft 3 PHYSICAL DATA Controls Footprint (LxWxH) 47 x 36 x 86 Inlet Conductivity Signet 2850 Shipping/Operating Wgt 650/900 lbs Outlet Conductivity Signet 2850 Frame/Coating 304SS/Polyurethane Outlet Flow Signet 2537 Piping Schedule 80 PVC Outlet ph Signet 2750 Controller CompactLogix Touchscreen 5.7 PanelView 7+ Drum Low Level Sensors OPERATING SPECIFICATIONS Feed Water Quality Temperature ph TSS TDS Chlorine Product Water Quality TDS Conductivity System Flow One (1) of Each 40 o F-110 o F 3-10 SU <5 mg/l <450 mg/l <2 mg/l <2 mg/l <5 (us) 5 gpm 2016 Water Innovations WDI-5 July P age

10 WDI-5 Elite Data Sheet 5-GPM DEIONIZED WATER SYSTEM Operating Profile Removes ions from tap water through a two-stage, separate bed ion exchange process. A water quality < 3 TDS will be achieved when the equipment is operated within parameters as listed. The deionizer shall provide a near continuous flow of deionized water through the use of a duplex (two tank) configuration. This duplex configuration shall operate with 50% of the resin in reserve or in regeneration. System regenerations shall be initiated by measuring the feed water quality and flow rate, to accumulate the total loading on the system. Once the accumulated load surpasses the system s operating capacity setpoint, a regeneration is initiated. System Pump The system shall use a 1.5-HP multi-stage centrifugal pump to pressurize water to the proper operating pressures and flow for the deionizer. The pump is designed to draw water from an atmospheric source. A return loop is used to provide a continuous flow of water pass the pump during operation, preventing low flow conditions. Pump construction shall be 316 stainless steel. Bag Filter - There is one (1) bag filter housing rated for 15-gpm flow with isolation valves allowing filter change-out. The housing is constructed of reinforced polypropylene with nominal 5-micron filter bags Regeneration Valve One is used with each set of cation and anion vessels, providing service and regeneration control. Inlet and outlet ports accept a 3/4" quick connect, double O-ring sealed adapter made of PVC. The valve requires a minimum inlet operate pressure of 60 psi, to drive valve functions. The valve controls the counter-current regeneration process including acid draw opposite the service flow and rinsing employing a fixed-flow eductor Media Tank The tanks shall measure 8 in diameter and 40 tall. A total of two each cation and anion tanks will be used with one tank of each in service at all times. Tanks made of fiberglass reinforced polyester with a 2.5 threaded top opening are designed for a maximum working pressure of 125 psi and hydrostatically tested at 300 psi. Tanks. The upper and lower distribution system shall be of a slot design providing even distribution of regeneration water. Deionization Media Each Cation deionizer includes 0.9-ft 3 per tank of 10% cross-linked high-capacity, strong acid resin with an exchange capacity of >20,000 grains/ft3 when regenerated with 4-lbs. of hydrochloric acid. Each anion deionizer also includes 0.9-ft 3 of high-capacity strong base anion resins with an exchange capacity of >18,000 grains/ft3 when regenerated with 6-lbs of NaOH. Inert plastic beads shall be used to pack the resin tanks, while still allowing the resin minimum space for expansion. System Skid All system components are skid mounted and prewired. Installation hook-ups shall be limited to plumbing and electrical connections. Skid construction shall be from 304 grade stainless steel. Finish shall include cleaning and sandblasting. Skid dimensions shall not exceed 47 L x 36 W x 86 H. Skid design shall include anchoring feet for securing skid to foundation and grounding lugs for properly grounded electrical components. System Controls Operation, monitoring, and control of the integrated system utilizes an Allen-Bradley CompactLogix programmable automation controller (PAC) with Human-machine interface (HMI) through a Panelview Plus color touch screen. System operation while highly automated also employs manual control with an intuitive operator-friendly interface. Product water to process is assured with recirculation of off-spec water to the feed tank if above an operator-adjustable set point. System operating set points and alarms are set at the touch screen which is password protected to limit access to the operator, supervisor, maintenance, or engineer based on necessity and relative expertise Water Innovations WDI-5 July P age

11 WDI-5 Elite Data Sheet 5-GPM DEIONIZED WATER SYSTEM 2016 Water Innovations WDI-5 July P age

12 WDI-10 Elite Data Sheet 10-GPM DEIONIZED WATER SYSTEM TANKS REGENERATION SPECIFICATIONS System Feed Flow Configuration Alternating Duplex Volume Minimum 200 gallons Regeneration Countercurrent SKID MOUNTED COMPONENTS Waste Flow 2.7 gpm Feed Pump Cycle Time 50 minutes Number One (1) Cation Exchangers Horsepower 2 HP HCI per Cycle 1.5 gallons Material 316 SS Waste per cycle 80 gallons Bag Filter Grains Capacity 28,000 Number One (1) Anion Exchangers Filter Rating 5-micron NaOH per cycle 1.3 gallons Cation & Anion Exchangers Waste per Cycle 89 gallons Number Two (2) of each Grains Capacity 25,200 Vessel Size 10" x 40" UTILITIES Construction PE Lined Fiberglass Electrical Voltage /460 Cation Resin Strong Acid Full Load Amps 10/5 Anion Resin Strong Base Make-up Water 10 gpm Volume per Vessel 1.4 ft 3 PHYSICAL DATA Controls Footprint (LxWxH) 47 x 36 x 86 Inlet Conductivity Signet 2850 Shipping/Operating Wgt 850/900 lbs Outlet Conductivity Signet 2850 Frame/Coating 304SS/Polyurethane Outlet Flow Signet 2537 Piping Schedule 80 PVC Outlet ph Signet 2750 Controller CompactLogix Touchscreen 5.7 PanelView 7+ Drum Low Level Sensors One (1) of Each OPERATING SPECIFICATIONS Feed Water Quality Temperature ph TSS TDS Chlorine Product Water Quality TDS Conductivity System Flow 40 o F-110 o F 3-10 SU <5 mg/l <450 mg/l <2 mg/l <3 mg/l <5 (us 10 gpm 2016 Water Innovations WDI-10 July P age

13 WDI-10 Elite Data Sheet 10-GPM DEIONIZED WATER SYSTEM Operating Profile Removes ions from tap water through a two-stage, separate bed ion exchange process. A water quality < 3 TDS will be achieved when the equipment is operated within parameters as listed. The deionizer shall provide a near continuous flow of deionized water through the use of a duplex (two tank) configuration. This duplex configuration shall operate with 50% of the resin in reserve or in regeneration. System regenerations shall be initiated by measuring the feed water quality and flow rate, to accumulate the total loading on the system. Once the accumulated load surpasses the system s operating capacity setpoint, a regeneration is initiated. System Pump The system shall use a 2-HP multi-stage centrifugal pump to pressurize water to the proper operating pressures and flow for the deionizer. The pump is designed to draw water from an atmospheric source. A return loop is used to provide a continuous flow of water pass the pump during operation, preventing low flow conditions. Pump construction shall be 316 stainless steel. Bag Filter - There is one (1) bag filter housing rated for 15-gpm flow with isolation valves allowing filter change-out. The housing is constructed of reinforced polypropylene with nominal 5 micron filter bags Regeneration Valve One is used with each set of cation and anion vessels, providing service and regeneration control. Inlet and outlet ports accept a 3/4" quick connect, double O-ring sealed adapter made of PVC. The valve requires a minimum inlet operate pressure of 60 psi, to drive valve functions. The valve controls the counter-current regeneration process including acid draw opposite the service flow and rinsing employing a fixed-flow eductor Media Tank The tanks shall measure 10 in diameter and 40 tall. A total of two each cation and anion tanks will be used with one tank of each in service at all times. Tanks made of fiberglass reinforced polyester with a 2.5 threaded top opening are designed for a maximum working pressure of 125 psi and hydrostatically tested at 300 psi. Tanks. The upper and lower distribution system shall be of a slot design providing even distribution of regeneration water. Deionization Media Each Cation deionizer includes 1.4-ft 3 per tank of 10% cross-linked high-capacity, strong acid resin with an exchange capacity of >20,000 grains/ft3 when regenerated with 4-lbs. of hydrochloric acid. Each anion deionizer also includes 1.4-ft 3 of high-capacity weak & strong base anion resins with an exchange capacity of >18,000 grains/ft3 when regenerated with 6-lbs of NaOH. Inert plastic beads shall be used to pack the resin tanks, while still allowing the resin minimum space for expansion. System Skid All system components are skid mounted and prewired. Installation hook-ups shall be limited to plumbing and electrical connections. Skid construction shall be from 304 grade stainless steel. Finish shall include cleaning and sandblasting. Skid dimensions shall not exceed 47 L x 36 W x 86 H. Skid design shall include anchoring feet for securing skid to foundation and grounding lugs for properly grounded electrical components. System Controls Operation, monitoring, and control of the integrated system utilizes an Allen-Bradley CompactLogix programmable automation controller (PAC) with Human-machine interface (HMI) through a Panelview Plus color touch screen. System operation while highly automated also employs manual control with an intuitive operator-friendly interface. Product water to process is assured with recirculation of off-spec water to the feed tank if above an operator-adjustable set point. System operating set points and alarms are set at the touch screen which is password protected to limit access to the operator, supervisor, maintenance, or engineer based on necessity and relative expertise Water Innovations WDI-10 July P age

14 WDI-15 Elite Data Sheet 15-GPM DEIONIZED WATER SYSTEM TANKS REGENERATION SPECIFICATIONS System Feed Flow Configuration Alternating Duplex Volume Minimum 200 gallons Regeneration Countercurrent SKID MOUNTED COMPONENTS Waste Flow 4.2 gpm Feed Pump Cycle Time 67 minutes Number One (1) Cation Exchangers Horsepower 2 HP HCI per Cycle 3.1 gallons Material 316 SS Waste per cycle 85 gallons Bag Filter Grains Capacity 56,000 Number One (1) Anion Exchangers Filter Rating 5-micron NaOH per cycle 2.7 gallons Cation & Anion Exchangers Waste per Cycle 96 gallons Number Two (2) of each Grains Capacity 50,400 Vessel Size 12" x 52" UTILITIES Construction PE Lined Fiberglass Electrical Voltage /460 Cation Resin Strong Acid Full Load Amps 10/5 Anion Resin Strong Base Make-up Water 15 gpm Volume per Vessel 2.8 ft 3 PHYSICAL DATA Controls Footprint (LxWxH) 47 x 36 x 86 Inlet Conductivity Signet 2850 Shipping/Operating Wgt 850/900 lbs Outlet Conductivity Signet 2850 Frame/Coating 304SS/Polyurethane Outlet Flow Signet 2537 Piping Schedule 80 PVC Outlet ph Signet 2750 Controller CompactLogix Touchscreen 5.7 PanelView 7+ Drum Low Level Sensor One (1) of Each OPERATING SPECIFICATIONS Feed Water Quality Temperature ph TSS TDS Chlorine Product Water Quality TDS Conductivity System Flow 40 o F-110 o F 3-10 SU <5 mg/l <450 mg/l <2 mg/l <3 mg/l <5 us 15 gpm 2016 Water Innovations WDI-15 July P age

15 WDI-15 Elite Data Sheet 15-GPM DEIONIZED WATER SYSTEM Operating Profile Removes ions from tap water through a two-stage, separate bed ion exchange process. A water quality < 3 TDS will be achieved when the equipment is operated within parameters as listed. The deionizer shall provide a near continuous flow of deionized water through the use of a duplex (two tank) configuration. This duplex configuration shall operate with 50% of the resin in reserve or in regeneration. System regenerations shall be initiated by measuring the feed water quality and flow rate, to accumulate the total loading on the system. Once the accumulated load surpasses the system s operating capacity setpoint, a regeneration is initiated. System Pump The system shall use a 2-HP multi-stage centrifugal pump to pressurize water to the proper operating pressures and flow for the deionizer. The pump is designed to draw water from an atmospheric source. A return loop is used to provide a continuous flow of water pass the pump during operation, preventing low flow conditions. Pump construction shall be 316 stainless steel. Bag Filter - There is one (1) bag filter housing rated for 15-gpm flow with isolation valves allowing filter change-out. The housing is constructed of reinforced polypropylene with nominal 5 micron filter bags Regeneration Valve One is used with each set of cation and anion vessels, providing service and regeneration control. Inlet and outlet ports accept a 3/4" quick connect, double O-ring sealed adapter made of PVC. The valve requires a minimum inlet operate pressure of 60 psi, to drive valve functions. The valve controls the counter-current regeneration process including acid draw opposite the service flow and rinsing employing a fixed-flow eductor Media Tank The tanks shall measure 12 in diameter and 52 tall. A total of two each cation and anion tanks will be used with one tank of each in service at all times. Tanks made of fiberglass reinforced polyester with a 2.5 threaded top opening are designed for a maximum working pressure of 125 psi and hydrostatically tested at 300 psi. Tanks. The upper and lower distribution system shall be of a slot design providing even distribution of regeneration water. Deionization Media Each Cation deionizer includes 2.8-ft 3 per tank of 10% cross-linked high-capacity, strong acid resin with an exchange capacity of >20,000 grains/ft3 when regenerated with 4-lbs. of hydrochloric acid. Each anion deionizer also includes 2.8-ft 3 of high-capacity weak & strong base anion resins with an exchange capacity of >18,000 grains/ft3 when regenerated with 6-lbs of NaOH. Inert plastic beads shall be used to pack the resin tanks, while still allowing the resin minimum space for expansion. System Skid All system components are skid mounted and prewired. Installation hook-ups shall be limited to plumbing and electrical connections. Skid construction shall be from 304 grade stainless steel. Finish shall include cleaning and sandblasting. Skid dimensions shall not exceed 47 L x 36 W x 86 H Skid design shall include anchoring feet for securing skid to foundation and grounding lugs for properly grounded electrical components. System Controls Operation, monitoring, and control of the integrated system utilizes an Allen-Bradley CompactLogix programmable automation controller (PAC) with Human-machine interface (HMI) through a Panelview Plus color touch screen. System operation while highly automated also employs manual control with an intuitive operator-friendly interface. Product water to process is assured with recirculation of off-spec water to the feed tank if above an operator-adjustable set point. System operating set points and alarms are set at the touch screen which is password protected to limit access to the operator, supervisor, maintenance, or engineer based on necessity and relative expertise 2016 Water Innovations WDI-15 July P age

16 WDI-5 Swift Data Sheet 5-GPM DEIONIZED WATER SYSTEM TANKS REGENERATION SPECIFICATIONS System Feed Flow Configuration Alternating Duplex Volume Minimum 200 Gallons Regeneration Countercurrent SKID MOUNTED COMPONENTS Waste Flow 2 gpm Feed Pump Cycle Time 42 minutes Number One (1) Cation Exchangers Horsepower 1.0 HP HCI per Cycle 1 gallon Material 316 SS Waste per cycle 55 gallon Bag Filters Grains Capacity 18,000 Number One (1) Anion Exchangers Filter Rating 5-micron NaOH per cycle 0.85 gallon Cation & Anion Exchangers Waste per Cycle 62 gallons Number Two (2) of each Grains Capacity 16,200 Vessel Size 8" x 40" UTILITIES Construction PE Lined Fiberglass Electrical Voltage /460 Cation Resin Strong Acid Full Load Amps 10/5 Anion Resin Strong Base Make-up Water 5 gpm Volume per Vessel 0.9 ft 3 PHYSICAL DATA Controls Footprint (LxWxH) 43 x 28 x 70 Controller Click PLC Shipping/Operating Wgt 650/900 lbs Drum Low Level Sensors One (1) of Each Frame/Coating 304SS/Polyurethane OPERATING SPECIFICATIONS Piping Schedule 80 PVC Feed Water Quality Temperature ph TSS TDS Chlorine Product Water Quality TDS Conductivity System Flow 40 o F-110 o F 3-10 SU <5 mg/l <450 mg/l <2 mg/l <2 mg/l <5 us 5 gpm 2016 Water Innovations WDI-5 Swift July P age

17 WDI-5 Swift Data Sheet 5-GPM DEIONIZED WATER SYSTEM Operating Profile Removes ions from tap water through a two-stage, separate bed ion exchange process. A water quality > 3 TDS will be achieved when the equipment is operated within parameters as listed. The deionizer shall provide a near continuous flow of deionized water through the use of a duplex (two tank) configuration. This duplex configuration shall operate with 50% of the resin in reserve or in regeneration. System regenerations shall be initiated by measuring the feed water quality and flow rate, to accumulate the total loading on the system. Once the accumulated load surpasses the system s operating capacity setpoint, a regeneration is initiated. System Pump The system shall use a 1.0-HP multi-stage centrifugal pump to pressurize water to the proper operating pressures and flow for the deionizer. The pump is designed to draw water from an atmospheric source. A return loop is used to provide a continuous flow of water pass the pump during operation, preventing low flow conditions. Pump construction shall be 316 stainless steel. Bag Filter There is one (1) bag filter housing rated for 15-gpm flow with isolation valves allowing filter change-out. The housing is constructed of reinforced polypropylene with nominal 5-micron filter bags Regeneration Valve One is used with each set of cation and anion vessels, providing service and regeneration control. Inlet and outlet ports accept a 3/4" quick connect, double O-ring sealed adapter made of PVC. The valve requires a minimum inlet operate pressure of 60 psi, to drive valve functions. The valve controls the counter-current regeneration process including acid draw opposite the service flow and rinsing employing a fixed-flow eductor. Media Tank The tanks shall measure 8 in diameter and 40 tall. A total of two each cation and anion tanks will be used with one tank of each in service at all times. Tanks made of fiberglass reinforced polyester with a 2.5 threaded top opening are designed for a maximum working pressure of 125 psi and hydrostatically tested at 300 psi. Tanks. The upper and lower distribution system shall be of a slot design providing even distribution of regeneration water. Deionization Media Each Cation deionizer includes 0.9-ft 3 per tank of 10% cross-linked high-capacity, strong acid resin with an exchange capacity of >20,000 grains/ft3 when regenerated with 4-lbs. of hydrochloric acid. Each anion deionizer also includes 0.9-ft 3 of high-capacity strong base anion resins with an exchange capacity of >18,000 grains/ft3 when regenerated with 6-lbs of NaOH. Inert plastic beads shall be used to pack the resin tanks, while still allowing the resin minimum space for expansion. System Skid All system components are skid mounted and prewired. Installation hook-ups shall be limited to plumbing and electrical connections. Skid construction shall be from 304 grade stainless steel. Finish shall include cleaning and sandblasting. Skid dimensions shall not exceed 43 L x 28 W x 70 H. Skid design shall include anchoring feet for securing skid to foundation and grounding lugs for properly grounded electrical components. System Controls Operation, monitoring, and control of the integrated system utilizes a click PLC. The system shall use an integrated controller that measures the resistivity of the process water. The controller will divert water not meeting an adjustable set point through a purge valve and send it to drain. Water above the adjustable set point will be directed to the process outlet of the system. System operations and alarms can be set at the integrated system controller Water Innovations WDI-5 Swift July P age

18 WDI-5 Swift Data Sheet 5-GPM DEIONIZED WATER SYSTEM 2016 Water Innovations WDI-5 Swift July P age

19 TANKS WDI-10 Swift Data Sheet 10-GPM DEIONIZED WATER SYSTEM REGENERATION SPECIFICATIONS System Feed Flow Configuration Alternating Duplex Volume per Vessel Minimum 200 Gallons Regeneration Countercurrent SKID MOUNTED COMPONENTS Waste Flow 2.7 gpm Feed Pump Cycle Time 50 minutes Number One (1) Cation Exchangers Horsepower 1 HP HCI per Cycle 1.5 gallons Material 316 SS Waste per cycle 80 gallons Bag Filter Grains Capacity 28,000 Number One (1) Anion Exchangers Filter Rating 5-micron NaOH per cycle 1.3 gallons Cation & Anion Exchangers Waste per Cycle 89 gallons Number Two (2) of each Grains Capacity 25,200 Vessel Size 10" x 40" UTILITIES Construction PE Lined Fiberglass Electrical Voltage /460 Cation Resin Strong Acid Full Load Amps 10/5 Anion Resin Strong Base Make-up Water 10 gpm Volume per Vessel 1.4 ft 3 PHYSICAL DATA Controls Footprint (LxWxH) 43 x 28 x 70 Controller Click PLC Shipping/Operating Wgt 650/900 lbs Drum Low Level Sensors One (1) of Each Frame/Coating 304SS/Polyurethane OPERATING SPECIFICATIONS Piping Schedule 80 PVC Feed Water Quality Temperature. ph TSS TDS Chlorine Product Water Quality TDS Conductivity System Flow 40 o F-110 o F 3-10 SU <5 mg/l <450 mg/l <2 mg/l <3 mg/l <5 us 10 gpm 2016 Water Innovations WDI-10Swift July P age

20 WDI-10 Swift Data Sheet 10-GPM DEIONIZED WATER SYSTEM Operating Profile Removes ions from tap water through a two-stage, separate bed ion exchange process. A water quality > 3 TDS will be achieved when the equipment is operated within parameters as listed. The deionizer shall provide a near continuous flow of deionized water through the use of a duplex (two tank) configuration. This duplex configuration shall operate with 50% of the resin in reserve or in regeneration. System regenerations shall be initiated by measuring the feed water quality and flow rate, to accumulate the total loading on the system. Once the accumulated load surpasses the system s operating capacity setpoint, a regeneration is initiated. System Pump The system shall use a 1.0-HP multi-stage centrifugal pump to pressurize water to the proper operating pressures and flow for the deionizer. The pump is designed to draw water from an atmospheric source. A return loop is used to provide a continuous flow of water pass the pump during operation, preventing low flow conditions. Pump construction shall be 316 stainless steel. Bag Filter - There is one (1) bag filter housing rated for 15-gpm flow with isolation valves allowing filter change-out. The housing is constructed of reinforced polypropylene with nominal 5-micron filter bags Regeneration Valve One is used with each set of cation and anion vessels, providing service and regeneration control. Inlet and outlet ports accept a 3/4" quick connect, double O-ring sealed adapter made of PVC. The valve requires a minimum inlet operate pressure of 60 psi, to drive valve functions. The valve controls the counter-current regeneration process including acid draw opposite the service flow and rinsing employing a fixed-flow eductor Media Tank The tanks shall measure 10 in diameter and 40 tall. A total of two each cation and anion tanks will be used with one tank of each in service at all times. Tanks made of fiberglass reinforced polyester with a 2.5 threaded top opening are designed for a maximum working pressure of 125 psi and hydrostatically tested at 300 psi. Tanks. The upper and lower distribution system shall be of a slot design providing even distribution of regeneration water. Deionization Media Each Cation deionizer includes 1.4-ft 3 per tank of 10% cross-linked high-capacity, strong acid resin with an exchange capacity of >20,000 grains/ft3 when regenerated with 4-lbs. of hydrochloric acid. Each anion deionizer also includes 1.4-ft 3 of high-capacity strong base anion resins with an exchange capacity of >18,000 grains/ft3 when regenerated with 6-lbs of NaOH. Inert plastic beads shall be used to pack the resin tanks, while still allowing the resin minimum space for expansion. System Skid All system components are skid mounted and prewired. Installation hook-ups shall be limited to plumbing and electrical connections. Skid construction shall be from 304 grade stainless steel. Finish shall include cleaning and sandblasting. Skid dimensions shall not exceed 43 L x 28 W x 70 H. Skid design shall include anchoring feet for securing skid to foundation and grounding lugs for properly grounded electrical components. System Controls Operation, monitoring, and control of the integrated system utilizes a click PLC. The system shall use an integrated controller that measures the resistivity of the process water. The controller will divert water not meeting an adjustable set point through a purge valve and send it to drain. Water above the adjustable set point will be directed to the process outlet of the system. System operations and alarms can be set at the integrated system controller Water Innovations WDI-10Swift July P age

21 TANKS WDI-15 Swift Data Sheet 15-GPM DEIONIZED WATER SYSTEM REGENERATION SPECIFICATIONS System Feed Flow Configuration Alternating Duplex Volume Minimum 200 gallons Regeneration Countercurrent SKID MOUNTED COMPONENTS Waste Flow 3.5 gpm Feed Pump Cycle Time. 67 minutes Number. One (1) Cation Exchangers Horsepower 1 HP HCI per Cycle 3.1 Gallons Material 316 SS Waste per cycle. 85 Gallons Bag Filters Grains Capacity 56,000 Number One (1) Anion Exchangers Filter Rating 5-micron NaOH per cycle 2.7 Gallons Cation & Anion Exchangers Waste per Cycle 96 Gallons Number. Two (2) of each Grains Capacity 50,400 Vessel Size 12" x 52" UTILITIES Construction. PE Lined Fiberglass Electrical Voltage /460 Cation Resin. Strong Acid Full Load Amps 10/5 Anion Resin Strong Base Make-up Water 15 gpm Volume per Vessel. 2.8 ft 3 PHYSICAL DATA Controls Footprint (LxWxH). 43 x 28 x 70 Controller Click PLC Shipping/Operating Wgt 650/900 lbs Drum Low Level Sensor One (1) of Each Frame/Coating 304SS/Polyurethane OPERATING SPECIFICATIONS Piping Schedule 80 PVC Feed Water Quality Temperature ph TSS. TDS Chlorine Product Water Quality TDS Conductivity System Flow 40 o F-110 o F 3-10 SU <5 mg/l <450 mg/l <2 mg/l <3 mg/l <5 us 15 gpm 2016 Water Innovations WDI-15 Swift July P age

22 WDI-15 Swift Data Sheet 15-GPM DEIONIZED WATER SYSTEM Operating Profile Removes ions from tap water through a two-stage, separate bed ion exchange process. A water quality > 3 TDS will be achieved when the equipment is operated within parameters as listed. The deionizer shall provide a near continuous flow of deionized water through the use of a duplex (two tank) configuration. This duplex configuration shall operate with 50% of the resin in reserve or in regeneration. System regenerations shall be initiated by measuring the feed water quality and flow rate, to accumulate the total loading on the system. Once the accumulated load surpasses the system s operating capacity setpoint, a regeneration is initiated. System Pump The system shall use a 1.0-HP multi-stage centrifugal pump to pressurize water to the proper operating pressures and flow for the deionizer. The pump is designed to draw water from an atmospheric source. A return loop is used to provide a continuous flow of water pass the pump during operation, preventing low flow conditions. Pump construction shall be 316 stainless steel. Bag Filter - There is one (1) bag filter housing rated for 15-gpm flow with isolation valves allowing filter change-out. The housing is constructed of reinforced polypropylene with nominal 5-micron filter bags Regeneration Valve One is used with each set of cation and anion vessels, providing service and regeneration control. Inlet and outlet ports accept a 3/4" quick connect, double O-ring sealed adapter made of PVC. The valve requires a minimum inlet operate pressure of 60 psi, to drive valve functions. The valve controls the counter-current regeneration process including acid draw opposite the service flow and rinsing employing a fixed-flow eductor Media Tank The tanks shall measure 12 in diameter and 52 tall. A total of two each cation and anion tanks will be used with one tank of each in service at all times. Tanks made of fiberglass reinforced polyester with a 2.5 threaded top opening are designed for a maximum working pressure of 125 psi and hydrostatically tested at 300 psi. Tanks. The upper and lower distribution system shall be of a slot design providing even distribution of regeneration water. Deionization Media Each Cation deionizer includes 2.8-ft3 per tank of 10% cross-linked high-capacity, strong acid resin with an exchange capacity of >20,000 grains/ft3 when regenerated with 4-lbs. of hydrochloric acid. Each anion deionizer also includes 2.8-ft3 of high-capacity strong base anion resins with an exchange capacity of >18,000 grains/ft3 when regenerated with 6-lbs of NaOH. Inert plastic beads shall be used to pack the resin tanks, while still allowing the resin minimum space for expansion. System Skid All system components are skid mounted and prewired. Installation hook-ups shall be limited to plumbing and electrical connections. Skid construction shall be from 304 grade stainless steel. Finish shall include cleaning and sandblasting. Skid dimensions shall not exceed 43 L x 28 W x 70 H. Skid design shall include anchoring feet for securing skid to foundation and grounding lugs for properly grounded electrical components. System Controls Operation, monitoring, and control of the integrated system utilizes a click PLC. The system shall use an integrated controller that measures the resistivity of the process water. The controller will divert water not meeting an adjustable set point through a purge valve and send it to drain. Water above the adjustable set point will be directed to the process outlet of the system. System operations and alarms can be set at the integrated system controller Water Innovations WDI-15 Swift July P age

23 Water Innovations Pre-Engineering WASTEWATER TREATMENT NEEDS ANALYSIS We appreciate you considering Water Innovations, Inc. and look forward to working with you. This Wastewater Treatment Needs Analysis is the 1 st critical step to ensure we understand your unique application, requirements, and objectives to engineer a water recycling and/or waste treatment solution that meets your needs. In certain cases, we will have input information known to us from prior conversations and if so would ask that you please review for accuracy. Please complete as much information as possible to serve as the starting point for further discussions. Not all questions will apply to all customers and applications. Thank you in advance and don t hesitate to contact us if you have any questions at Sales@waterinnovations.net Company Name: Company Address: City / State / Zip: Contact Telephone #: Contact Name: Contact Address: Contact Title: Website Industry Description Customer Information Project Background 1. What is the project status for vendor and technology selection? Near to Selection Early Stages Gathering Information Future 2. Do you have a budget set aside for this project? Budgeted this Fiscal Year Budgeted next Fiscal Year Not Budgeted 3. What is the primary project objective? - Select all that apply or describe if other Water Recycling Deionized Water Waste Treatment Other: 4. What are the key business drivers for you evaluating a system? - Select all that apply Financial Payback Discharge Compliance Labor/Maintenance Savings Expansion Capabilities Water Conservation Waste disposal Water cost Water Recycling Product Quality Waste Treatment Zero Discharge Environmental Awareness Other: (describe) 5. What is your role in the company and project? - Engineering, Operations, Management, or other 2016 Water Innovations Waste Treatment Needs Analysis July P age

24 Water Innovations Pre-Engineering WASTEWATER TREATMENT NEEDS ANALYSIS 6. Are primarily you or others in your company responsible for the project? - if others what is their role 7. Are you needing to replace or to upgrade an existing system or is this a new system? 8. Are you considering multiple potential vendors or looking for a single strategic vendor partner? 9. Do you have a preference for a particular treatment technology - UF/RO, IX, or precipitation? 10. Have you previously been involved in purchase of a WWT or recycling system? if so describe 11. Do you have previous experience with WWT or rinse water recycling? with what technology Production Process If available, provide a process tank line sequence & lay out including volumes & temperatures; rinses water source and flow rate; and for each rinse, ph, conductivity, & total suspended solids, obtain by creating a representative composite sample from small samples taken at multiple times over 1-2 work days. What type of parts are being processed? Is the method of parts processing Rack Barrel Basket Other If plating on metal substrates what are primary baths If plating on plastics or other what are primary baths If anodizing what type On what substrate Aluminum Stainless Steel Other Type of parts (Provide Pictures if available) Number of parts per day Surface area per part Work type % if multiple i.e. - 50% rack, 40% barrel,10% Basket -- 60% plating, 40% anodizing Total rinse water usage in gallons-per-minute or gallons-per-day Deionized water usage in gallons-per-minute or gallons-per-day Required rinse water quality in conductivity (us/cm) or total dissolved solids (TDS) Percentage of total process rinses currently being recycled if any 2016 Water Innovations Waste Treatment Needs Analysis July P age

25 Water Innovations Pre-Engineering WASTEWATER TREATMENT NEEDS ANALYSIS Make-Up Water If available provide a facility water report including at a minimum conductivity or TDS, total hardness, ph, & suspended solids (TSS) and concentrations of predominant ions including sodium, calcium, carbonate, bicarbonate, sulfate, nitrates, & chlorides Facility cost of water per 1,000-gallons or hundred cubic feet Facility water source Municipal Groundwater Well If DI water is produced, by on-site regenerable IX Service deionization (SDI) SDI with RO If on-site regenerable ion exchange (IX), equipment age and manufacturer If SDI is used for DI water, how many gallons per day and cost per year If RO is used prior to SDI, how many gallons of product per day and waste per day If RO is used, is there pre-treatment with softener and/or activated carbon or chemical treatment Waste Treatment If available, provide treatment process sequence & lay out including tank s volume & flow rates, and facility wastewater Pre-treatment Permit Do you have a waste treatment system? Yes No A water recycling system? Yes No Total volume of waste water in gallons-per-minute or gallons-per-day Volume of wastewater continuously discharged in gallons-per-minute or gallons-per-day Volume of wastewater Batch-treated in gallons-per-day Is any water currently being recycled? Yes No Volume of rinse water recycled in gallons-per-minute or gallons-per-day How recycled - UF/RO Ion Exchange Media Filtration Other Primary discharge pre-treatment target metals Does the current treatment system have available any excess capacity Yes No Are there regulatory limits or surcharges for TSS TDS BOD/COD Volume of cyanide-bearing wastewater if any in gallons-per-minute or gallons-per-day Volume of hexavalent chrome-bearing wastewater in gallons-per-minute or gallons-per-day Approximate annual cost for on-site treatment chemical per year Type of Treatment Chemicals used proprietary precipitant & coagulant or Generic Off-site liquid hazardous waste disposal gallons per year and cost per year Off-site F006 sludge disposal pounds per year and cost per year Cost of 32% Hydrochloric acid per drum Cost of 50% sodium hydroxide per drum 2016 Water Innovations Waste Treatment Needs Analysis July P age

26 Water Innovations Pre-Engineering WASTEWATER TREATMENT NEEDS ANALYSIS Facility and Utilities Available voltage - 220V 380V 440V Production schedule per day - 8 hours 16 hours 24 hours Other Available space for system Available compressed air supply - Yes No Additional Information Miscellaneous Information - What else would you like us to know? Project Roles and Contacts: In addition to yourself, who will be involved in the evaluation and decision-making process? Please also include all team members that will be part of this project. Contact Name Title Project Role Reminder - requested information to provide: 1. Production Process tank line sequence & lay out including: a. Tank s volume & temperature b. Rinses water source & replenishment flow rate c. For each rinse, representative ph, conductivity, and total suspended solids, obtain by creating a composite sample from small samples taken at multiple times over 1-2 work days 2. Facility water supply report a. Including at a minimum conductivity or TDS, total hardness, ph, & suspended solids (TSS) and concentrations of predominant ions including sodium, calcium, carbonate, bi-carbonate, sulfate, nitrates, & chlorides 3. Waste treatment process sequence & lay out including: a. Tank s volume & flow rates b. Wastewater pre-treatment permit 2016 Water Innovations Waste Treatment Needs Analysis July P age