Hellenbrand WM2-IC10-2.0, TF-IC10-2.0, AM4-IC10-2.0, PS4-IC10-2.0, HB-IC10-2.0 Owner's Manual

404 Moravian Valley Road • Waunakee, Wisconsin 53597

Web: www.hellenbrand.com • Email: info@hellenbrand.com

Owner’s Manual

©2003‑2006

Manufactured by:

HELLENBRAND, INC.

Phone: 608‑849‑3050 • Fax: 608‑849‑7398

1

Congratulations on your purchase of one of the nest water treatment systems available today – the Iron Cur‑

tain System. This patented, non-chemical lter system, when properly applied will remove iron, manganese and/or hydrogen
sulde from your water supply.

This owner’s manual is designed to assist owners and installers with the operation, maintenance, and installation of your new iron

removal system. It is our sincere hope that this manual is clear, concise, and helpful to both owner and installer. We have included
detailed instructions of general operating conditions, pre‑installation, installation, start‑up, and timer settings.

Questions? Should you have any questions regarding the installation, operation or servicing of this system, please

contact the dealer you purchased this system from. Your dealer will be familiar with your particular situation, your water condi‑

INSTALLATION DATA

Date of Installation _____________________________________________

Filter Model Number ____________________________________________

Aeration Model Number __________________________________________

Address of Installation ___________________________________________

Installed By ___________________________________________________

Raw Water Test: Iron_______ Manganese_______ pH_______ Hydrogen Sulde_______

TDS_______ Iron Bacteria_______ yes _______ no Tannins_______
Hardness ______ Alkalinity _______

Automatic Filter Regeneration: Every _______ Days

Frequency of Air Recharge: Every _______ Hours ‑ Factory default is every 24 hours

TABLE OF CONTENTS

Installation Data ........................................................................................................................................................................... 2

Iron Curtain 2.0 Principle of Operation, Operation of Aeration System ....................................................................................... 3

Operating Conditions ................................................................................................................................................................... 4

Pre-Installation Check List ........................................................................................................................................................... 4

Installation Instructions & Start‑Up ..............................................................................................................................................

Specications .............................................................................................................................................................................. 6

Backwash Frequency, Aire Recharge Frequency ........................................................................................................................ 6

Installation Diagram ..................................................................................................................................................................... 7

Iron Curtain 2.0 Assembly ........................................................................................................................................................... 8

Iron Curtain System & Aeration Wiring ........................................................................................................................................ 9

ProMate, WaterMate & AutoMate Filter Valve Options .............................................................................................................. 10

Bypass Valve Operation .............................................................................................................................................................11

Iron Curtain Flow Diagrams .................................................................................................................................................. 12,13

Iron Cutain Aeration Pump ........................................................................................................................................................ 14

Iron Curtain Aeration Pump Repair Instructions ........................................................................................................................ 15

Troubleshooting ....................................................................................................................................................................16‑18

Winterizing Iron Curtain System ................................................................................................................................................ 18

Iron Curtain 2.0 Limited Warranty .............................................................................................................................................. 19

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2

IRON CURTAIN 2.0

Iron Filtration System

Aeration/precipitation/multi-media ltration for:

1. Iron Reduction/Removal

2. Manganese Reduction/Removal

3. Hydrogen Sulde Reduction/Removal

Principle of Operation

The Iron Curtain System uses a three step process of ox­idation, precipitation, and mechanical ltration for the

reduction/removal of iron, manganese, and hydrogen sulde.
The process of how the Iron Curtain System does each one

of these separate procedures is the key to the successful
results this product has obtained in the market place. There

are two main components that make up the Iron Curtain
System. They are:

1. Iron Curtain 2.0 Aeration Assembly

2. Iron Curtain Multi-Media Depth Filter

The rst step in any oxidizing process is to bring the

1

raw water into intimate contact with a strong oxidant.

This will begin to convert the dissolved element such as iron
or manganese to a physical particle or nonsoluble precipitate.
A strong, inexpensive, environmentally‑safe oxidant is oxygen,
which makes up about 21% of ambient air. To do this, the

Iron Curtain System sprays water through a regulated head

of air in the aeration tank.

The second step in this three step process is to

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provide adequate reaction or contact

time for the precipitation reaction to go to completion. This

allows time for the iron and/or manganese particles to become
large enough to lter out. The aeration tank with the Iron Curtain

System allows for several minutes of contact time at the rated

service ows, compared to only seconds on other systems.

It should be noted that this reaction time will also be affected
by temperature; the warmer the water the faster the reaction.
A low ph can slow the oxidation reaction of the iron. This re‑
action time may also be affected by the presence of organic
material (such as tannins). If tannins are present, eld tests

have shown that they will not be removed and will also
hinder the ability of this system to effectively remove
iron, manganese, and/or hydrogen sulde. Installation
of this system on water supplies with more than 0.5 ppm
of tannins will void warranty.

The third and nal step is ltration for the removal

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of the precipitates from the water. A WQA Water

Filtration Study Guide states:

“The ideal lter bed would be one with large grains at the top

to prevent the formation of a surface cake and to provide large
pores for course particles and small grains at the bottom to
entrap smaller particles. This allows the entire depth of the

bed to be used as a lter. This also allows for longer lter
runs and faster ow rates. Unfortunately, such an ideal bed,

when consisting of a single media is not possible, the way
to solve this problem is to use layers of media.”

The advantages of a multi‑media bed are:

1. Longer runs between backwash times.

2. Caking of the bed and breakthrough turbidity are virtually

eliminated.

3. Much higher service ow rates per square foot.

4. Higher degree of clarity because of the heavier, ner lter

media in the bottom.

The standard Iron Curtain System uses ve layers of lter me‑
dia. The top layer is made up of large, lighter weight particles.
The second layer contains a slightly heavier media. The third
layer contains a much heavier media, smaller in size than the
one above. The fourth layer contains an even heavier media.

The fth layer is a special support bed to retain lter media so

it does not pass through the distribution system, and allows

an even distributed ow of backwash water.

Operation of Aeration System

The Iron Curtain System introduces air into the aeration tank

and bleeds off the old head of air automatically. A timer
controls the air recharge cycle and how frequently it occurs.
The timer turns on the air pump, opening the drain port and
the top air recharge port of the aeration tank. The air pump
runs for a pre‑set amount of time, replenishing the head of

air and discharging excess water and/or air to drain.

Advantages Over
Other Systems

1. The original systems was tested and validated by WQA
under their S‑200 Standard.

2. Uses no chemicals or salt.

3. Eliminates the need for air injectors, venturis, or micron
izers.

4. No oats or air volume controls are used to regulate air

volume in aeration tank which “foul” from iron.

5. Two‑tank system consisting of a pressurized aeration

tank and multi-media depth lter.

6. 110V aeration pump to recharge aeration tank.

7. "Piggy‑back" plug allows control valve to be plugged into
same outlet.

8. Can be used on shared wells, municipal water supplies,

or with buried pressure tanks without additional equip‑
ment.

9. Higher service ow rates.

10. Better ltration results.

11. U.S. Patent #B1 5,096,596 and patent pending.

12. Variable settings on air recharge that is independent of
backwash frequency.

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Operating Conditions

The original Iron Curtain System has been validated by the
WQA under their S-200 Filter Standard for the reduction/
removal of iron, manganese, and/or hydrogen sulde. The
concentration limits listed below reect the maximum indi‑

vidual limit that each contaminant was tested for separately

without any interference of other contaminants in the inuent

water.

In reality, these contaminants may be present in combination
which may limit the lter’s ability to remove these contami‑
nants in higher concentrations. In some cases, individual
sellers of this equipment have had success removing higher
concentrations of contaminants—iron, for example—above
the limitations we have listed. If you are considering the

installation of this system for the reduction/removal of iron,
manganese and/or hydrogen sulde levels that are above

operating conditions listed below, we recommend that you
consult your dealer for proper application. Installation of this

system under these circumstances may void part(s) and/or

all of the system warranty.

pH — The pH level of the inuent water must be 7.0 or higher

for iron oxidation reaction to proceed per the engineering

specications.*

Iron — This system is rated for a maximum of 10 ppm of

ferrous (clear water) and/or ferric (red water) iron.*

Iron Bacteria — If iron bacteria are present; more frequent

service may result, life of the Iron Curtain system may be

limited and the system may be unable to properly remove
iron. By properly controlling the iron bacteria with chlo-

rine or other approved methods for bacterial reduction,
the Iron Curtain System will function properly. One
option to control iron bacteria within the Iron Curtain
is chlorine injection during the regeneration cycle. In
some instances, continuous chlorination of the water
supply may be needed.

Hydrogen Sulde — Sometimes referred to as "rotten

egg" odor. This system is rated for a maximum of 10 ppm

hydrogen sulde. Hydrogen sulde levels vary depending on
barometric pressure.*

Manganese — Limit 2.0 ppm; amounts present over 2.0

ppm may gradually prevent iron removal. Note: For optimum

manganese reduction, pH should be greater than 8.5.*
Organic Matter (Tannins) – The presence of organic matter

such as tannins will prevent the oxidation process of con‑
verting the dissolved element, such as iron or manganese, to
a nonsoluble precipitate or solid substance. In other words,

organics can tie up the iron preventing ltration. The pres­ence of organics such as tannins above 0.5 ppm voids
any claims for this system to perform as stated above.
In some applications, tannin levels below 0.5 ppm or the
presence of other organics may hinder the operation of
this system.*

Chlorine — The presence of chlorine in the raw water sup‑

ply ahead of this system should be limited to a maximum of

1.0 ppm residual and preferably 0.5 ppm or less when fed
continuously.

Total Dissolved Solids (TDS) — While TDS does not directly
affect iron removal, it is a good indicator of potential interfer‑
ence. Most waters have TDS less than 500 and generally
present no problems to iron reduction. If any ion becomes
excessive, it may cause failure of iron removal. A TDS more

than 750 ppm voids any claims for this system to perform

*For application parameters outside the specied operation conditions or additional information regarding the listed items,
contact your dealer.

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as stated above.*

Pre-Installation Check List

Water Pressure: A minimum of 30 psi at a predetermined

continuous ow rate is required to backwash the lter properly,
with a maximum of 70 psi to be used.*

Actual Inuent Flow Rate: (Water available from well pump,

service inlet, etc.) The actual ow rate must exceed the backwash
rate for the model of lter selected at a minimum of 30 psi for

the entire length of the backwash cycle. See actual backwash

rates in the Specications section on page 6.

Electrical Requirements for Filter Control: A continuous
110 volts is required to cycle the controls and aeration pump.
Make certain the electrical supply is always on and cannot be
turned off with another switch.

Existing Plumbing: The condition of the existing plumbing
should be free from lime and iron build‑up. Piping that is heavily

built-up with lime and/or iron should be replaced.

Equipment Location: See Figure 1,on page 7.
Location of Aeration and Filter Tank: See Figures 1 on page

7. These two tanks should be installed after the pressure tank

and as close to each other as practical. If you want to lter
outside hosebibs, be sure the lter system is properly sized
to handle the ow rates required for extended periods of time,

in addition to the normal household demand.

Drain Lines: All lter system drain lines must be a minimum
of 3/4" or equal to the size of the drain line connection at the

control valve or larger. Avoid overhead drain lines when pos‑
sible. If used, overhead drain lines are not to exceed a height

of ve feet above the control valve and should be no more
than fty feet in length.

Check Valve: On applications where there is a non-ltered
demand for water such as joint wells (where the lter system is

only installed in one of two or more homes), outside hosebibs,
farms with outbuildings, yard hydrants, etc. a spring loaded
check valve is provided and must be installed ahead of the
aeration tank. See Figures 1, on page 7. Install the check valve

in a vertical upow position with a minimum 6" water column

above the check valve. This prevents air from escaping past
the check valve. If the check valve is installed in a horizontal
position, and there is a simultaneous demand for both non‑

ltered and ltered water, the air head in the aeration tank may
escape backwards past the check valve into the non-ltered

water line.

By-Pass Valves: Always provide for a bypass on the lter

system. It is recommended that a bypass be placed on both

the aeration tank and the lter tank.
Filtered Water: Normally, ltered water is furnished to all

household lines; however, outside faucets are typically left on

raw water. If ltered water is provided to outside faucets, the
lter system must be sized accordingly.

Caution: The water pressure is not to exceed 70 p.s.i.; water

temperature is not to exceed 110° F; lter system cannot be
subject to freezing conditions; lter system cannot be subject
to a negative pressure or vacuum. On installations where there

is the possibility of a negative pressure or vacuum, a vacuum
breaker or check valve must be installed at the inlet of the
conditioner. For example, if the water service is interrupted due
to a water pipe break, well pump being serviced, etc., a back
siphon could occur causing a vacuum or negative pressure on

the ltration equipment.

Installation Instructions

Your new Iron Curtain™ model IC-2.0 allows for simple instal‑
lation and start up. Installation diagrams are provided to assist
you. Use of these diagrams and the following procedures will
ensure that the system is properly installed.

1. Follow all state and local plumbing and electrical
codes!

2. The one‑inch (1") check valve that is supplied must be

installed in the upow position on the raw water supply
feeding the aeration tank. (See gure 1 page 7 for proper

check valve installation procedures)

3. When installing an Iron Curtain Filter system it is com
mon to provide ltered water to some xtures such as

the kitchen cold faucet. This is typically done as a matter
of personal preference. In rare occassions it has been
noted that the customer may experience some air in the

ltered water line on the morning after regeneration. It
has proven to be benecial to plumb the line for the
ltered only water xture in a downward direction from

the inlet of the softener (12 inches recommended), then

make a reverse turn and go upward toward the xture.

Understanding that air always rises to the highest point

in a water system, and it cannot naturally ow downward.

(Figure 1, page 7)

4. The raw water supply from the outlet of the check valve

must be connected to the down-ow inlet connection on

the aeration tank. Refer to the stickers marked inlet/
outlet for proper connections. A factory by‑pass valve

is available and should be installed on the aeration tank

assembly. (See page 10 for details). Leave the aeration

tank on by‑pass at this time.

5. The outlet from the aeration tank is then connected to the

inlet of the lter tank. A factory by-pass valve is available

and should be installed on the lter tank assembly. (See

page 10 for details).

6. Connect the outlet of the lter system to the water system
lines you are ltering.

7. The IC-2.0 aeration head assembly has a 3/8” drain con

nection that must be run to a drain. This can tee into the

drain line of the lter or to a drain independent of the lter

drain. Drain line emits surges of excess air from aeration
tank and must be secured. Tubing has been supplied

along with a 3/4” male threaded adapter. (See page 10

‑

for details).

8. There is a 1/4” tube size vent port off of the solenoid valve

which is vented to the atmosphere. This will normally ex‑
pel very little moisture unless an internal seal fails within
the valve body. This vent should be run to a drain to

prevent any water damage to the surrounding area,
should the solenoid fail. This must drain downward
to an open atmospheric drain separate from the lter
drain.

9. Recommend 1” diameter pipe between aeration tank and

lter tank.

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Start-Up

1. Once all plumbing is nished and with the unit on bypass,
ush the plumbing system until water is clear and no foreign

material is detected.

2. Plug in electrical power cord. Slowly open the bypass inlet
valve on the aeration tank to the full open position allowing

the tank to ll with water and come up to full pressure. You

do not have to wait for the air recharge cycle (air pump

running) to nish before proceeding to the next step.

3. Open the outlet valve on the by-pass(s) for the aeration
tank and lter.

4. IMPORTANT: Do not backwash your Iron Curtain Filter
for 24 hours.

5. With the lter control valve in the service/ltering position,
slowly open the inlet valve on the by-pass to the lter and
run water at nearest cold ltered water xture until the
water is clear. Slowly open the lter inlet valve fully and
continue to run water at nearest cold ltered water faucet

until water is clear.

6. Start‑up is complete.

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Aeration Control Center

Your new IC-2.0 Aeration Control is factory pre-set to cycle the

air compressor once every 24 hours. To adjust the air recharge

frequency, refer to the wiring schematic on page 9. The timer

has a xed run time, which cannot be adjusted up or down. To

manually initiate an air recharge cycle, unplug the power cord

and plug it back into the electrical outlet. The air pump will

begin to run and will automatically shut off. Off time tolerance

is ±5% which can vary as much as 72 minutes every 24 hours

and not affect the functioning of the Iron Curtain.

Iron Curtain Filter Control

Your Iron Curtain Filter is factory preset to backwash every

third day. Adjust as necessary but never backwash less often

than every three days. See lter control owners manual for

details.

Regeneration Frequency

Your Iron Curtain Filter System contains a special lter media

mixture which allows it to lter iron longer than standard lters

between backwash regenerations. However, it is our recom‑

mendation to leave factory settings as is, unless you wish to

backwash more frequently. You will have to backwash more

frequently if you have higher amounts of iron, iron bacteria,

hydrogen sulde, and/or manganese present in your water

supply. You will also have to regenerate more frequently if

you notice iron bleed through before the end of the normal

Backwash Frequency
Iron Applications

0.3 ‑ 3.0 ppm Iron ‑ Every 3rd Day

3.0 - 6.0 ppm Iron - Every Other Day

6.0 ‑ 10.0 ppm Iron ‑ Every Day

10+ ppm Iron - Consult Factory

Air Recharge Frequency

(Settings Based on Average Pressure (50psi) and <500 Gal‑
lons Daily Use)

0.3 - 3.0 ppm Iron - Once Daily (Every 24 hours)

3.0 - 6.0 ppm Iron - Once Daily

6.0 ‑ 10.0 ppm Iron ‑ Twice Daily (Every 12 hours)

10+ ppm Iron - Consult Factory

Hydrogen Sulde Applications

Hydrogen Sulde (H2S) consumes 7 times the amount of oxy‑
gen to oxidize than iron does. Therefore, for Hydrogen Sulde

Applications, we use the following guideline;

0 ‑ 4 ppm H2S ‑Twice Daily (Every 12 hours)

4 ‑ 8 ppm H2S ‑ Three Times Daily (Every 8 hours)

8 ‑ 10 ppm H2S ‑ Six Times Daily (Every 4 hours)

See page 9 to change air recharge frequency on timer.

Specications

Models

IC-10
WM2-IC10-2.0, TF-IC10-2.0, AM4-IC10-2.0, PS4-IC10-2.0, PM1-IC10-2.0,HB-IC10-2.0 10"x54" 1.5 1" 5.0 5.0 26"x68"x16"

IC-10A

WM2-IC10A-2.0, TF-IC10A-2.0, AM4-IC1-A-2.0, PS4-IC10-2.0, PM1-IC1-A-2.0, HB-IC10A-2.0

IC-10+

WM2-IC10+2.0, TF-IC10+2.0, AM4-IC10-+2.0,PS4-IC10+2.0, PM1-IC10+2.0 10"x54" 1.5 1" 5.0 5.0 26"x68"x16

IC-12

WM2-IC12-2.0, TF-IC12-2.0, AM4-IC12-2.0, PS4-IC12-2.0, PM1-IC12-2.0, HB-IC12-2.0 12"x52" 2.0 1" 7.0 8.0 30"x66"x18"

IC-12A

WM2-IC12A-2.0, TF-IC12A-2.0, AM4-IC12A-2.0, PS4-IC12A-2.0, PM1-IC12A-2.0, HB-IC12A-2.0 12"x52" 2.0 1" 7.0 8.0 30"x66"x18"

IC-12+

(1) Aeration Head and Check Valve have 1” Inlet/Outlet.
(2) Water temps above 60° F will require a higher backwash rate. Consult

6

Filter &

Aeration

Tank
Size

10"x54" 1.5 1" 5.0 5.0 26"x68"x16"

Media
Cu. Ft

(1)

Inlet/

Outlet

Max.

Service

Flow
GPM

(2)

Backwash

Rate

GPM

Floor

Space

(WxHxD)