Ecosoft FPA Series Руководство пользователя

Instruction manual

Ecosoft

®

media systems

Руководство по монтажу и настройке

систем очистки воды Ecosoft

®

INSTRUCTION MANUAL ECOSOFT

®

MEDIA SYSTEMS

2

1 Purpose 3

2 Components 7

3 Installation 9

4 Programming 22

5 Maintenance 29

6 Precautions 29

7 Storage conditions 29

8 Troubleshooting 30

9 Specications 32

10 Warranty 39

11 Installation sheet 40

This appliance is not intended for use by persons (including children) with

reduced physical, sensory or mental capabilities, or lack of experience and

knowledge, unless they have been given supervision or instruction concerning

use of the appliance by a person responsible for their safety. Children should be

supervised to ensure that they do not play with the appliance.

CONTENTS

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INSTRUCTION MANUAL ECOSOFT

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MEDIA SYSTEMS

1. PURPOSE

1.1. Overview

Ecosoft media systems are automatic water treatment appliances using bed ltration to

remove impurities. Ecosoft lters consist of the following main parts:

• pressure vessel made of berglass reinforced plastic

• automatic control valve mounted on the pressure vessel

• riser pipe, top and bottom distributors

• lter media

• (FK and FU systems only) brine tank with brine system

Ecosoft lters are used for treatment of household water, steam boiler and heating circuit

feed water, and other commercial and industrial water treatment processes. Dierent series

of Ecosoft lters are intended for removal of dierent types of impurities.

Pressure vessel size determines the quantity of lter media, ow capacity, and volume

capacity of the lter. When water passes through the lter, the lter bed accumulates

impurities that it works to remove. After using up the volume capacity of water, the material’s

holding capacity or exchange capacity becomes exhausted and the lter stops removing

more impurities (or the pressure drop builds up to critical value). At this point, the lter must

be rinsed or brine regenerated to restore its capacity. Volume capacity depends on the

quantity of lter media and composition of raw water.

When exhausted, non brine regenerated lters are backwashed and then forward rinsed

to release the accumulated impurities. Brine regenerated lters undergo backwash, then

rinse with brine from the brine tank to release hardness ions from ion exchange sites, then

forward rinse and brine tank ll.

Ecosoft lters use the following naming conventions:

FU

Type of system: FU, FK, FP, FPA or FPC

(described in the following section)

1252

Pressure tank size: ‘12’ inch diameter, ‘52’ inch tank height

(rst two digits indicate the diameter, second two digits indicate the height)

CE

Control valve type: CE, CI, CT or DV

(described in the following sections)

Twin

Special types of systems (Cabinet, Twin, Duplex etc)

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1.2. Ecosoft FK advanced water softeners with Ecomix®

Well water often contains calcium, magnesium, iron, manganese, ammonia and natural

organic matter that would normally require multi-step water treatment to bring down all

the constituents to permitted concentrations. Ecosoft developed a proprietary solution for

removing all these impurities in one step and a single lter. Ecomix® advanced softening

media eectively treats problem water even when complicated with non-neutral pH, high

TDS, and other noxious impurities.

Regeneration requires sodium chloride brine and exactly same equipment as in a regular

softener. Ecomix® is a complex media with ion exchange and adsorptive components

that function in synergy. After loading and backwashing, Ecomix bed straties in the right

succession of layers ready to operate.

1.3. Ecosoft FU ion exchange softeners resin with Dowex® resin

Water hardness accounts for the largest costs among all water quality issues incurred by

households, business, and public sector. Some of the symptoms of excessive water hardness

are limescale deposition inside water pipes and appliances, high detergent demand, poor

soap lathering, compromised plumbing xture appearance, overuse of electric power by

water heating appliances, poor skin and hair condition.

Water hardness arises chiey from calcium and magnesium dissolved in water. Ion exchange

softening is one of the simplest ways to reduce water hardness. Ion exchange resins work

by attracting and retaining ions of hardness metals in the polymer structure. For balance,

they release equivalent quantity of sodium ions.

When ion exchange capacity of the resin becomes depleted, the resin must be regenerated

to restore the capacity. During regeneration, tablesalt brine seeps slowly through the bed,

allowing sodium ions to displace and ush out ions of hardness.

Ecosoft water softeners use Dowex® ion exchange resin.

1.4. Multiple unit systems

In large and/or critical applications such as boiler feed water treatment, public water

services, manufacturing etc, softening units are usually required to operate uninterruptedly

without regeneration stops. In these cases, Ecosoft multiple unit systems are used.

Duplex systems comprise two softeners operating in parallel, locked out from simultaneous

regeneration and equipped with auxiliary motorized No Hard Water Bypass valves to

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prevent hard water bypass during regeneration. Duplex systems can only be assembled

with CI and CE control valves. In a Duplex system, only one softener can regenerate at

any time. The other will remain online at least until the regenerating softener goes back in

service. When no softener is regenerating, both softeners will be in service providing two

times the ow rate.

Twin systems comprise two softeners with a single Twin type control valve, or alternatively,

two regular control valves and a Motorized Alternating Valve. In Twin systems, only one

softener is in service at any time, the other is regenerating or in standby. Twin systems are

assembled with a single brine tank for both softeners.

Triplex and larger multiple unit systems are used to provide uninterruptible water supply

when widely variable water demand is allowed for. Triplex systems are less water intensive

and can be programmed to dierent modes of unit activation. E.g., more softeners can be

put to service when water demand increases and vice versa. Regeneration will happen

during set time of the day. Triplex systems comprise three separate softeners equipped

with auxiliary motorized No Hard Water Bypass valves and a Clack multisystem controller.

Twin systems comprise two softeners with a single Twin type control valve, or alternatively,

two regular control valves and a Motorized Alternating Valve. In Twin systems, only one

softener is in service at any time, the other is regenerating or in standby. Twin systems are

assembled with a single brine tank for both softeners.

In the same way, larger multisystems with up to 6 softeners can be built using Clack

multisystem controller.

1.5. Ecosoft FPA granular activated carbon lters

Ecosoft FPA systems come with Filtrasorb® macroporous granular activated carbon.

Filtrasorb has high capacity and good hydraulic properties. Ecosoft FPA are timer-

regenerated backwash-only lters.

Filtrasorb® is used for removing chlorine and chlorine compounds, natural organic matter,

petroleum products, pesticides, and other pollutants. It also removes objectionable color,

tastes, and odors.

1.6. Ecosoft FPC catalytic carbon lters

Centaur® is a granular activated carbon with catalytic properties used for improving color,

taste, and odor of well water. Centaur® eciency relies on its capacity to catalyze oxidation

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of hydrogen sulde and adsorb oxidation products. It also removes small quantities of iron

and organic impurities.

In order to remove hydrogen sulde and iron, Centaur requires that enough dissolved

oxygen be present in water and a pH 7 or above. In some cases, raw water may need

corrective treatment to meet above requirement. It is possible to substitute oxygen with

injected oxidizers such as sodium hypochlorite, if necessary.

Ecosoft FPC are timer-regenerated backwash-only lters.

1.7. Ecosoft FP particle lters

Filter Ag® is a granular media used for reduction of suspended solids by removing particulate

matter. The media consists of irregularly shaped grains that trap and hold particles by

straining and adhesion. Common applications of Ecosoft FP systems include reducing

water turbidity, removal of oxidized iron oc in deironing systems, removal of sand, silt and

other. Ecosoft FP are timer-regenerated backwash-only lters.

For more information about Ecosoft water treatment systems, please see Ecosoft.com

website.

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MEDIA SYSTEMS

2. COMPONENTS

Ecosoft media system

(brine tank is not part of FP, FPA and FPC systems)

control valve

top distributor

riser pipe

freeboard

FRP tank size

salt pellets

brine well

overﬂow

piece

brine

level

suc�on

level

bed depth

bo�om distributor

underbed

ﬁlter media

FRP tank

brine line

brine tank

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Fiberglass reinforced plastic tank is the cylinder shaped plastic vessel with the lter

media. Control valve is mounted on the threaded top opening. Riser pipe runs down to

the bottom of the tank inside the pressure vessel, transporting water out of the lter during

service and into the lter during backwash. Bottom distributor is attached to its end to spread

ow of water uniformly and screen against ne particles.

Brine regenerable systems (FU and FK) include a brine tank – a plastic container with salt

pellets where the brine is stored then drawn from during regeneration.

Control valve.

CE, CI, and CT type control valves use a plunger piston mechanism to route inuent water

accordingly to the current cycle of operation. DV valves use a rotary disk mechanism.

CE, CI and DV control valves for softening systems (FU and FK series) have 5 cycles;

non-brine regenerable lters have 3 cycle CT control valves. The cycles are as follows:

1. in service mode, inlet water is sent through the lter bed to the puried water outlet;

2. during backwash, the control valve sends inlet water across the lter bed in the upow

direction to u it up and release trapped impurities to drain outlet;

3. during fast rinse, inlet water is sent through lter bed downow and then to drain outlet;

4. (CE, CI, and DV only) during brine regeneration, inlet water is sent through brine injection

system to suction brine from brine tank and slowly displace it across lter bed to drain outlet;

5. (CE, CI, and DV only) during brine tank rell, inlet water is sent through the lter bed,

softened euent rells the brine tank.

Control valve

type

Operating

cycles

Meter and

brine system

Special

connectivity

Special

rmware

functionality

CE;

Twin

5 Yes • 2 motorized valves

• dP switch

• NO/NC 12 VDC wet contact

• Twin interconnect

• 63 day history/diagnostics

• 4 display languages

• Selectable physical units

CI 5 Yes • 1 motorized valve

• dP switch

• Twin interconnect

• 63 day history/diagnostics

CT 3 — • dP switch

DV 5 Yes — • 63 day history/diagnostics

For more information about your control valve, please refer to control valve manual.

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INSTRUCTION MANUAL ECOSOFT

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Filter media removes impurities from water. Rate of removal depends on the ow rate of

water going through the bed of media. Ecient purication requires that the ow rate is

within specied range (not too high or too low). Recommended range of ow rates per each

type of lter is listed in specications in the end of this manual.

3. INSTALLATION

• Installation area must meet all relevant building code. Water and power supply, and

ambient conditions must meet Specication requirements of this manual.

• Observe all local plumbing and electrical code when connecting system to utilities

• Install check valve when connecting the lter to water mains. Install second check valve

after the system to prevent back ow.

• Particles such as sand, scale or rust can damage the control valve. Install a point-of-

entry sediment lter.

• Equip the system with sampling taps and pressure gauges as shown on drawings. It will

help in case any maintenance or troubleshooting is necessary.

• Install a vacuum relief valve as shown if there is a booster pump downstream of Ecosoft

lters. The FRP tanks may implode if subjected to negative pressure.

• If your system does not include bypass valve assembly, run a bypass pipeline along the

entire system. This may be necessary for diagnostics and maintenance.

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3.1. Procedure for installing an FU, FK, FPA, FPC, or FP system

1. Install FRP tank on rm level surface capable of supporting its weight. Put riser pipe with

bottom distributor down in the pressure tank. Ensure that top end of riser pipe is level with

the top opening of FRP tank (within ±5 mm). It is advisable to ll the tank with water to about

⅓ its height if installing an FP, FPA or FPC system.

2. Put a plug or cap on the top end of the riser pipe to prevent getting any media inside

the pipe. Pour the media in the tank using the funnel. When loading the tank, keep riser

pipe vertical. If the pipe tilts, restore it to straight vertical direction. When nished, rinse the

thread of tank opening with water to remove any grains of media stuck in the groove.

3. Lock the top distributor in circular slot at the bottom of the control valve’s shank. Mate

the top distributor with top end of riser pipe, then screw control valve in the tank opening.

4. Connect drain pipe to the male threaded drain outlet of the control valve. Run the drain

pipe to oor drain or gravity drain pipe socket. Secure the drain pipe end above the receiving

xture with at least 1″ air gap.

5. If installing an FU or FK system, place the brine tank next to the FRP tank. Install exible

tube in the control valve’s brine inlet and run it to the brine tank. Remove tank lid and brine

well cap, pull the end of the tube inside and connect it to the brine valve, then re-assemble

in reverse order. Fill the brine tank with salt pellets at least half full.

6. Mount the pipe thread elbow adapters to the control valve’s In and Out ports and tighten

the coupling nuts. Do not put any mechanical load on ttings or use them to support pipes.

Connect the system to water supply and downstream pipework without turning on the water

supply. Do not confuse In and Out ports. They are embossed with direction arrows.

7. Remove the front panel by pulling the locking tabs on the left and right side. Run the

power cord through the cord guide in the control valve’s backplate and connect it to 12 VAC

socket on the circuit board. Plug the power supply in the mains to power up the system.

8. Start manual regeneration of the system. Scroll regeneration to backwash if it isn’t the

1st step of the sequence. When the control valve starts the backwash, turn on mains water

supply slightly at rst. Air will be displaced from the system via drain line while the pressure

tank is being lled with water. When the tank is full, water will start owing down the drain

line. At this point, fully open mains water supply. Carefully inspect the system for leaks.

Let the system complete regeneration, then perform one more manual regeneration.

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3.2. Procedure for installing an FU Cabinet or FK Cabinet system

If your cabinet was delivered pre-loaded with resin, place the cabinet in the installation spot,

ll salt compartment with salt pellets, and then only carry out steps 5…8 of the procedure,

skipping steps 1…4. If the resin was shipped in bag, then carry out all of the following steps.

1. Disconnect the exible tube from brine inlet of the control valve. Unmount the valve by

screwing it counterclockwise.

2. Put a plug or cap on the top end of the riser pipe to prevent getting any media inside

the pipe. Pour the media in the tank using the funnel. When loading the tank, keep riser

pipe vertical. If the pipe tilts, restore it to straight vertical direction. When nished, rinse the

thread of tank opening with water to remove any beads of media stuck in the groove.

3. Mate the top distributor with the top end of riser pipe, then screw control valve in the tank

opening. Connect the free end of brine tube back to the brine inlet of the control valve.

4. Place the cabinet in the installation spot. Open top lid and ll the salt compartment with

softener salt pellets at least half full.

5. Connect drain pipe to the male threaded drain outlet of the control valve. Run the drain