VMAX VM110, VM110P Installation And Operation Instructions Manual

Vmax Boiler

Model Number: VM110, VM110P
Version Date: 2014-12-04

INSTALLATION AND OPERATION INSTRUCTIONS FOR
Vmax BOILER

TABLE OF CONTENTS

HAZARD SYMBOLS AND DEFINITIONS

Danger Sign: Indicates a hazardous situation which, if not avoided, will
result in serious injury or death.

Warning Sign: Indicates a hazardous situation which, if not avoided,
could result in serious injury or death.

Caution Sign plus Safety Alert Symbol: Indicates a hazardous situation
which, if not avoided, could result in minor or moderate injury.

Caution Sign without Safety Alert Symbol: Indicates a hazardous
situation which, if not avoided, could result in property damage.

Notice Sign: Indicates a hazardous situation which, if not avoided,
could result in property damage.

This Boiler must be installed by a licensed and trained Heating
Technician or the Warranty is Void. Failure to properly install this

unit may result in property damage, serious injury to occupants, or possibly death.

NEW PRODUCT

Fire-tube Boiler

w/ Built-in Pump

H

NTI # 85171

2

Warnings │ Vmax I&O Manual

Read Before Proceeding

If you do not follow these instructions exactly, a fire or explosion may result causing
property damage, serious injury or death.

FOR YOUR SAFETY, READ BEFORE OPERATING_

A) This boiler does not have a pilot. It is equipped with an ignition device which automatically lights the

burner. Do not try to light the burner by hand.

B) BEFORE OPERATING smell all around the boiler area for gas. Be sure to smell next to the floor
because some gas is heavier than air and will settle on the floor.
WHAT TO DO IF YOU SMELL GAS:

• Do not try to light any boiler.

• Do not touch any electric switch.

• Do not use any phone in your building.

• Immediately call your gas supplier from a neighbor's phone. Follow the gas supplier's instructions.

• If you cannot reach your gas supplier, call the fire department.

C) Use only your hand to turn the gas “shutoff” valve. Never use tools. If the handle will not turn by hand,

do not try to repair it, call a qualified service technician. Force or attempted repair may result in a fire or
explosion.

D) Do not use this boiler if any part has been under water. Immediately call a qualified service technician

to inspect the boiler and to replace any part of the control system and any gas control which has been
under water.

OPERATING INSTRUCTIONS_

1. STOP! Read the safety information above very carefully.

2. Set the thermostat to lowest setting. Turn off all electric power to the boiler.

3. This boiler does not have a pilot. It is equipped with an ignition device which automatically lights the

burner. Do not try to light the burner by hand.

4. Turn the manual gas valve to the OFF position. Remove front access panel.

5. Wait five (5) minutes to clear out any gas. Then smell for gas, including near the floor. If you smell gas,

STOP! Follow “B” in the safety information above. If you do not smell gas, go to the next step.

6. Turn the manual gas valve ON. Wait an additional five (5) minutes smelling for gas.

7. Replace the front access panel.

8. Set thermostat to highest setting. Turn on all electric power to the boiler.

9. Ignition sequence is automatic. Combustion will occur after a brief fan purge.

10. If ignition does not occur, follow the instructions “To Turn Off Gas To Boiler” and call your service

technician or gas supplier.

TO TURN OFF GAS TO THE BOILER_

1. STOP! Read the safety information above very carefully.

2. Turn off all electric power to the boiler.

3. Turn the manual gas valve to the OFF position.

Crystalline Silica - Certain components confined in the combustion chamber may

contain this potential carcinogen. Improper installation, adjustment, alteration, service or
maintenance can cause property damage, serious injury (exposure to hazardous materials) or death. Refer to
Section 15.0 for information on handling instructions and recommended personal protective equipment.
Installation and service must be performed by a qualified installer, service agency or the gas supplier (who must
read and follow the supplied instructions before installing, servicing, or removing this boiler. This boiler
contains materials that have been identified as carcinogenic, or possibly carcinogenic, to humans).

Void Warranty - This Boiler must have water flowing through it whenever the burner is

on or it will damage the unit and void the warranty. Failure to follow these instructions
may result in serious injury or death.

Vmax I&O Manual │Introduction

3

Energy Saving Feature - This boiler is equipped with a feature that saves energy by

reducing the boiler water temperature as the heating load decreases. This feature is
equipped with an override which is provided primarily to permit the use of an external energy management
system that serves the same function. THIS OVERRIDE MUST NOT BE USED UNLESS AT LEAST ONE
OF THE FOLLOWING CONDITIONS IS TRUE :

 An external energy management system is installed that reduces the boiler water temperature as the heating

load decreases.

 This boiler is not used for any space heating.
 This boiler is part of a modular or multiple boiler system having a total input of 300,000 BTU/hr. or greater.
 This boiler is equipped with a tankless coil.

1.0 INTRODUCTION
General Installation Requirements

The installation of your NTI Vmax gas boiler must conform to the requirements of this manual, your local
authority, and the National Fuel Gas Code ANSI Z223.1 and or CAN/CGA B149 Installation Codes. Where

required by the Authority, the installation must conform to the standard for “Controls and Safety Devices for

Automatically Fired Boilers ANSI/ASME CSD-1.”
This document pertains to the correct installation and operation of NTI Vmax boiler models VM110 and

VM110P (Vmax Plus). The instructions detailed in this document supersede any and all previous instructions
provided by NTI, written or otherwise. Each unit is provided with the following:

1. Installation and Operating Instructions,

2. Vmax Users’ Manual, and

3. Natural Gas to LP Conversion Kit*
* The conversion kit is required to convert the boiler so it will safely operate with Propane Gas.

Read and understand this entire document prior to proceeding with the installation of the
Vmax boiler. Failure to follow the instructions outlined in this document will result in
property damage, serious injury or death.

User Responsibilities

This boiler must be installed and serviced by a qualified installer or service technician. This boiler must be
serviced and inspected annually when operating in normal residential applications. Demanding applications or
extreme conditions (i.e. when operating with LP-Propane) may require more frequent service and inspection. As
the User/Owner of this equipment, you are responsible for ensuring the maintenance is performed at the required
intervals (see Section 16.0 – Annual Maintenance and Inspection).

Failure to have the boiler properly serviced and inspected on a regular basis by a qualified
service technician may result in property damage, serious injury or death.

Failure to keep the Vent and Combustion Air Intake clear of ice, snow, and other debris
may result in property damage, serious injury, or death.

Installer Responsibilities

As the installing technician it is your responsibility to ensure the installation is performed in accordance with this
instruction manual as well as any applicable local or National installation codes. It is also your responsibility to
inform the User/Owner of their obligation with respect to the above description under “User Responsibilities.”
Failure to follow this warning could result in fire, serious injury, or death.

Introduction │ Vmax I&O Manual

4

ATTENTION: LIQUEFIED PETROLEUM (LP) PROPANE for applicable conversion kit and LP orifice
number.

Failure to use the appropriate Natural to LP Conversion Kit and Orifice when operating
the Vmax boiler with Propane will result in extremely dangerous burner operation
leading to property damage, serious injury or death. Refer to section titled

ATTENTION: LIQUEFIED PETROLEUM (LP) PROPANE

The Vmax boiler is factory set to operate with Natural Gas. BEFORE OPERATING WITH PROPANE, the
specified LP Conversion Kit and Orifice must be installed to convert the boiler so it will operate safely with
LP Propane. The correct kit and LP orifice is listed below (Each kit comes with conversion instructions).

Liquefied Petroleum (LP) propane gas is heavier than air; therefore, it is imperative that your Vmax boiler is
not installed in a pit or similar location that will permit heavier than air gas to collect. Local Codes may
require boilers fueled with LP gas be provided with an approved means of removing unburned gases from the
room. Check your local codes for this requirement.

Natural to LP Propane Conversion Kit_

Conversion Kit P/N LP Orifice Size Orifice P/N

84867-4 5.05 mm 84795

Exhaust Vent / Air-Inlet Piping

The Vmax VM110 and VM110P are certified as a “Category IV” boiler, and require a
“Special Venting System” designed for pressurized venting. The exhaust gases must be

piped directly to the outdoors using the vent materials and rules outlined in these instructions. Failure to follow
these instructions will result in serious injury or death.

5

IN THE STATE OF MASSACHUSETTS ONLY

(a) For all horizontally vented gas fueled equipment installed in every dwelling, building or structure used in whole or

in part for residential purposes, including those owned and operated by the Commonwealth and where the side wall
exhaust vent termination is less than seven (7) feet above finished grade in the area of the venting, including but not
limited to decks and porches, the following requirements shall be satisfied:

1. INSTALLATION OF CARBON MONOXIDE DETECTORS At the time of installation of the side wall

horizontal vented gas fueled equipment, the installing plumber or gas fitter shall observe that a hard wired
carbon monoxide detector with an alarm and battery back-up is installed on the floor level where the gas
equipment is to be installed and on each additional level of the dwelling, building or structure served by the
equipment. It shall be the responsibility of the property owner to secure the services of qualified licensed
professionals for the installation of hard wired carbon monoxide detectors.

a. In the event that the side wall horizontally vented gas fueled equipment is installed in a crawl space or an

attic, the hard wired carbon monoxide detector with alarm and battery back-up may be installed on the next
adjacent floor level.

b. In the event that the requirements of this subdivision cannot be met at the time of completion of

installation, the owner shall have a period of 30 days to comply with the above requirements; provided,
however, that during said 30 day period a battery operated carbon monoxide detector with an alarm shall
be installed.

2. APPROVED CARBON MONOXIDE DETECTORS Each carbon monoxide detector as required in accordance

with the above provisions shall comply with NFPA 720 and be ANSI/UL 2034 listed and IAS certified.

3. SIGNAGE A metal or plastic identification plate shall be permanently mounted to the exterior of the building

at a minimum height of eight (8) feet above grade directly in line with the exhaust vent terminal for the
horizontally vented gas fueled heating boiler or equipment. The sign shall read, in print size no less than one­half (1/2) inch in size, “GAS VENT DIRECTLY BELOW. KEEP CLEAR OF ALL OBSTRUCTIONS”
(plate included with boiler).

4. INSPECTION The state or local gas inspector of the side wall horizontally vented gas fueled equipment shall

not approve the installation unless, upon inspection, the inspector observes carbon monoxide detectors and
signage installed in accordance with the provisions of 248 CMR 5.08(2)(a)1 through 4.

(b) EXEMPTIONS: The following equipment is exempt from 248 CMR 5.08(2)(a)1 through 4:

1. The equipment listed in Chapter 10 entitled “Equipment Not Required To Be Vented” in the most current

edition of NFPA 54 as adopted by the Board; and

2. Product Approved side wall horizontally vented gas fueled equipment installed in a room or structure separate

from the dwelling, building or structure used in whole or in part for residential purposes.

(c) MANUFACTURER REQUIREMENTS – GAS EQUIPMENT VENTING SYSTEM PROVIDED: When the

manufacturer of Product Approved side wall horizontally vented gas equipment provides a venting system design or
venting system components with the equipment, the instructions provided by the manufacturer for installation of the
equipment and the venting system shall include:

1. Detailed instructions for installation of the venting system design or the venting system components; and

2. A complete parts list for the venting system design or venting system.

(d) MANUFACTURER REQUIREMENTS – GAS EQUIPMENT VENTING SYSTEM NOT PROVIDED:

When the manufacturer of a Product Approved side wall horizontally vented gas fueled equipment does not provide
the parts for venting the flue gases, but identifies “special venting systems,” the following requirements shall be
satisfied by the manufacturer:

1. The referenced “special venting system” instructions shall be included with the appliance or equipment

installation instructions; and

2. The “special venting system” shall be Product Approved by the Board, and the instructions for that system shall

include a parts list and detailed installation instructions.

(e) A copy of all installation instructions for all Product Approved side wall horizontally vented gas fueled equipment,

all venting instructions, all parts list for venting instructions, and/or all venting design instructions shall remain with
the appliance or equipment at the completion of the installation.

Vmax I&O Manual │Introduction

Specifications │ Vmax I&O Manual

6

DESCRIPTION

VM110

VM110P

CSA Input Modulation

1

[MBH]

17 - 110

17 - 110

DOE Heating Capacity

1,2

[MBH]

101

101

Net I=B=R Rating

1,2

[MBH]

88

88

DOE AFUE2 [%]

95

95

Boiler Water Connections – NPT [in.]

1” (Male)

¾” (Male)

Domestic Hot Water Connections – NPT

[in.]

NA

¾” (Male)

Gas Connection - NPT, in.

½” (Male)

½” (Male)

Vent/Air-inlet Pipe Diameter
[in.] 3

2 or 3

2 or 3

Dimensions H x W x D [in.]

35-1/8 x 18-3/4 x 14-1/8

38-3/8 x 28-1/4 x 17-3/4

Approx. Boiler Weight
with Water [lbs.]

132

275

Approx. Boiler Water Content [Gallons]

3.2

3.2

Approx. Domestic Hot Water Content

[Gallons]

NA

16

Electrical Rating

120V/1Ph/60Hz/less than 12A

Notes:

1

Listed Input and Output ratings are at minimum vent lengths using 3” venting, at an altitude of 0-2000 ft. Numbers will
be lower with longer venting and/or altitudes greater than 2000 ft. When operating with Natural Gas using 2” venting at
the minimum vent length, the Input ratings are reduced to 15 MBH at minimum and 102 MBH at maximum.

2

Ratings based on standard test procedures prescribed by the U.S. Department of Energy.

3

Vmax boilers require a special venting system, use only vent materials and methods detailed in these instructions.

Elevations

2001 ft [610 m]

3000 ft [914 m]

4000 ft [1219 m]

4500 ft [1372 m]

5000 ft [1524 m]

In Canada 1

de-rate by 10%

de-rate by 10%

de-rate by 10%

de-rate by 10%

de-rate % may vary

In USA 2

-

de-rate by 12%

de-rate by 16%

de-rate by 18%

de-rate by 20%

Notes:

1

Canada: Altitudes between 2000-4500 ft [610-1372 m], de-rate by 10%. Consult local authorities for de-rating for

altitudes above 4500ft [1372 m].

2

USA: De-rate capacity by 4% for every 1000 ft [305 m], if altitude is above 2000 ft [610 m].

2.0 SPECIFICATIONS

Table 2-1 Vmax Specifications

Wall mounting of unit requires two people to lift the boiler into place. Failure to follow
these instructions may result in property damage or personal injury.

High Altitude Operation

The Vmax is designed to operate at its maximum listed capacity in installations located at 0-2000 ft above Sea
Level. Since the density of air decreases as elevation increases, maximum specified capacity should be de-rated
for elevations above 2000 ft [610 m] in accordance with Table 2-2.

Table 2-2 De-rate % for High Altitudes

Combustion – At elevations above 2000 feet, the combustion of the boiler must be
checked with a calibrated combustion analyzer to ensure safe and reliable operation. It is

the Installers responsibility to check the combustion and to adjust the combustion in accordance with

Section 9.0. Failure to follow these instructions may result in property damage, serious injury, or death.

7

Clearances

Dimensions - inches

Front

Top

Sides

Back

Bottom

Flue Pipe

Minimum

24 1

12 4 0

16

1

Recommended

36

24

12 0 24

1

Notes:

1

6 in. if surface is removable allowing a minimum of 24 in. clearance (i.e. closet installation). See Ventilation Air
Opening dimensions in Figure 3-1.

Vmax I&O Manual │Boiler Location

3.0 BOILER LOCATION

In all cases, the Vmax VM110 & VM110P must be installed indoors in a dry location where the ambient
temperature must be maintained above freezing and below 100F [38C]. All boiler components must be
protected from dripping, spraying water, or rain during operation and servicing. Consider the proximity of
system piping, gas and electrical supply, condensate disposal drain, and proximity to vent termination when
determining the best boiler location.

Boiler Area Ventilation Air Openings

If boiler area clearances are less than the recommended clearances specified in Table 3-1, the boiler area must be
ventilated (Exception: if the boiler area/room has a volume of 150 ft3 or greater, ventilation of the boiler room is
not required). Each ventilation air opening must meet the minimum requirements of 1 in2 per 1000 Btu/hr., but
not less than 100 in2. The lower ventilation opening must be located within 6 in. of the floor while the upper
opening must be located 6 in. from the top of the space.

US/Canada, PVC vent pipe and fittings shall not be used within the closet or alcove; only approved CPVC,
Polypropylene or Stainless Steel vent pipe and fittings can be used. See Table 4-4 for a list of approved materials.
Under all circumstances, the minimum clearances listed in Table 3-1 must be provided.

Closet Installations

For closet installations it is necessary to provide two ventilation air openings as shown in Figure 3-1, each
providing a minimum area equal to 1 in2 per 1000 Btu/hr., but not less than 100 in2 and within 6 in. of the top
and bottom of the closet door. See Table 3-1 for minimum clearances.

Alcove Installations

Alcove installations have the same minimum clearances as closet installations, except the front must be
completely open to the room at a distance no greater than 18 in. [457 mm] from the front of the boiler and the
room is at least three (3) times the size of the alcove. Provided these conditions are met, the boiler requires no
extra ventilation air openings to the space. See Table 3-1 for minimum clearances.

Residential Garage Installations

When installed in a residential garage, mount the boiler a minimum of 18 in. [457 mm] above the floor. Locate
or protect the boiler so it cannot be damaged by a moving vehicle. Check with your local authorities for other
possible regulations pertaining to the installation of a boiler in a garage.

Wall Mounting Installations

The Vmax VM110 & VM110P are provided with integrated wall mounting brackets. Refer to Figure 3-2 for
instructions and illustrations on wall mounting.

Table 3-1 Minimum Clearances for Installation and Service

Water or flood damaged components must be replaced immediately with new factory­approved components as failure to do so may result in fire, serious injury, or death.

If the "Boiler Area" does not meet the recommended clearances listed in Table 3-1, and if
the boiler area has a volume less than 150 ft3, it is considered a Closet or Alcove. In

Closet/Alcove installations in US and Canada require approved CPVC, Polypropylene or
Stainless Steel vent and air-inlet pipe and fittings (see Table 4-4); PVC is not permitted.

Failure to follow these instructions may result in damage or serious injury.

8

Figure 3-1 Closet Installation, Minimum Clearances

Ventilation Air Openings are
not required if the boiler area
meets the Recommended
Clearances listed in Table 3-1.

Top ventilation
opening Max. 6” below
ceiling / top

Ventilation air opening
1in2 per 1000 Btu/hr,

2

Removable surface /
closet door

Ventilation air
opening 1in2 per 1000
Btu/hr, min. 100in

2

Bottom ventilation
opening Max. 6”
above floor / bottom

Top = 12”

Bottom = 16”

Min. 1” clearance

for hot water and

vent pipes

Front = 6”

(if removable)

Boiler Location │ Vmax I&O Manual

9

Figure 3-2 Wall Mounting Instructions

 Leave the Top Wall-mount Bracket (A) intact

and remove the Bottom Wall-mount Bracket
(B) that is attached to the bottom-back of the

boiler.

 Secure Bottom Bracket (B), removed from the

bottom back of the boiler in Step 1, to a solid
wall using field supplied lag screws (anchors
when mounting to a concrete wall) that are
adequate to support the weight of the appliance
when filled with water (refer to Table 2-1
Specifications). Ensure the bracket is level and
flush to the wall. Mounting holes to be on the
bottom with flange pointed upward and angled
away from the wall.

 Mount the boiler to the wall by aligning the

two wall mount brackets, Top Bracket (A)
with the Bottom bracket (B). Slide the top
bracket fastened to the boiler down over the
wall-mounted bracket until it hooks.

 Once the boiler is resting securely on the wall,

attach the L-shaped Brackets (C) to the
underside of the appliance using the mounting
hardware supplied in the boiler kit box – adjust
to plumb the boiler. Anchor the L-shaped
Brackets (C) to the wall as shown using field
supplied hardware.

Failure to follow instructions may
result in fire, serious injury, or death.

This unit requires two people to lift it
or damage and injury may result.



Bottom
Bracket (B)

Wall

Boiler



Ensure Bracket
(A) fully inserts
into Bracket (B)

(B)

(A)



L-shaped Brackets

(C) shipped with

boiler kit box

Top Bracket (A)



Bottom

Bracket (B)

Vmax I&O Manual │Boiler Location

10

General Venting │ Vmax I&O Manual

4.0 GENERAL VENTING

The Vmax VM110 & VM110P are certified as a “Category IV” boiler requiring a “Special Venting System”
designed for pressurized venting. The Exhaust Vent must be piped to the outdoors, using the vent materials and
rules outlined in this section. Under no conditions may this unit vent gases into a masonry chimney, unless it is
vacant, and utilizes the approved venting material and rules described in this section.

Direct Vent Installation (Best Practice)

When installed as a Direct Vent boiler the combustion air-inlet must also be piped directly to the outdoors using
the methods described in this section and in accordance with the National Fuel Gas Code, ANSI Z223.1 (U.S.) or
CSA B149.1 (Canada) and local requirements.

Installation Using Indoor Combustion Air

When the installation uses Indoor Combustion Air (i.e. piping is not directly connecting the appliance air-inlet
fitting to the outdoors), the combustion air-inlet is drawn from Indoors or Outdoors via the appliance area using
the methods described in this section and in accordance with the National Fuel Gas Code, ANSI Z223.1 (U.S.) or
CSA B149.1 (Canada) and local requirements.

to provide combustion air requirements. Failure to ensure adequate make up air to all appliances may result in
personal injury or death.

Indoor Combustion Air - Opening Size and Location: The methods detailed below for determining Opening
Size and Location for accessing indoor combustion air, shall be used when the air infiltration rate is adequate, i.e.
greater than 0.4 ACH (air changes per hour) and when the boiler area and communicating spaces have a
minimum volume of 50 cubic ft per 1000 Btu/hr. If the air infiltration rate is known to be less than 0.4 ACH,
refer to the National Fuel Gas Code for further guidance.

1. Combined spaces on the same story – Each opening shall have a minimum free area of 1in.2/1000 Btu/hr.

of the total input rating of all appliances in the space, but not less than 100 in2. One opening shall commence
within 12 in. of the top, and one opening shall commence within 12 in. of the bottom, of the enclosure, see
Figure 4-1a. The minimum dimension of air openings shall be not less than 3in.

2. Combined spaces in different stories – The volumes of spaces in different stories shall be considered as

communicating spaces where such spaces are connected by one or more openings in doors or floors having a
total minimum free area of 2 in.2 /1000 Btu/hr. ft.

3. Of total input rating of all appliances.

Outdoor Combustion Air – Opening Size and Location: Outdoor combustion air shall be provided through
opening(s) to the outdoors in accordance with the methods detailed below. The minimum dimension of air
openings shall not be less than 3 in.

1. Two Permanent Openings Method – Two permanent openings, one commencing within 12 in. of the top,

and one commencing within 12 in. of the bottom of the enclosure, shall be provided. The openings shall
communicate directly, or by ducts, with the outdoors or spaces that freely communicate with the outdoors, as
follows:

a. Where communicating with the outdoors or where communicating to the outdoors through vertical ducts,

each opening shall have a minimum free area of 1 in2/4000 Btu/hr. of total input rating of all appliances
in the enclosure; see Figures 4-1b and 4-1c.

b. Where communicating with the outdoors through horizontal ducts, each opening shall have a minimum

free area of 1 in2/2000 Btu/hr. of total input rating of all appliances in the enclosure; see Figure 4-1d.

Vent and Air-inlet are to be piped separately. The Vmax VM110 & VM110P cannot share
a common vent or air-inlet with multiple boilers. Failure to comply will result in serious
injury or death.

The boiler shall be located so as not to interfere with proper circulation of combustion,
ventilation, and dilution air.

Make up air requirements for the operation of exhaust fans, kitchen ventilation systems,
clothes dryers, and fireplaces shall be considered in determining the adequacy of a space

11

Figure 4-1(a) Indoor Air

Figure 4-1(b) Two Vertical Ducts

Figure 4-1(c) Two Vertical Ducts

Figure 4-1(d) Two Horizontal Ducts

Figure 4-1(e) One Duct Options

Opening (within

1 ft of ceiling)

Opening (within

1 ft of floor)

Exhaust Vent

Opening

Opening

Exhaust Vent

Ventilation Louvers
(each end of attic)

Ventilated & unheated
crawl space

Exhaust Vent

Ventilation Louvers
(each end of attic)

Opening

Opening (duct

extended to within

1 ft of floor)

Exhaust Vent

Opening (within

1 ft of ceiling)

Opening (within

1 ft of floor)

Exhaust Vent

Ventilation Louvers
(each end of attic)

Opening Option B

(within 1 ft of ceiling)

Opening Option A

Vmax I&O Manual │General Venting

2. One Permanent Opening Method – One permanent opening, commencing within 12 in. of the top of the

enclosure, shall be provided. The appliance shall have clearances of at least 4 in. from the sides, 1 in. from
the back and 6 in. from the front of the appliance. The opening shall directly communicate with the outdoors
or shall communicate through a vertical or horizontal duct to the outdoors or spaces that freely communicate
with the outdoors (see Figure 4-1e) and shall have a minimum free area of the following:
a. 1 in2/3000 Btu/hr. of the total input rating of all appliances located in the enclosure, and
b. Not less than the sum of the areas of all appliance vent connectors in the space.

3. Combination Indoor and Outdoor Combustion Air – The use of a combination of indoor and outdoor

combustion air shall be in accordance with the following:
a. Indoor Openings – where used, openings connecting the interior spaces shall comply with “Indoor

Combustion Air – Opening and Size and Location” described above.

b. Outdoor Openings – Outdoor opening(s) shall be located in accordance with “Outdoor Combustion Air

– Opening Size and Location” described above.

c. Outdoor Opening(s) Size – The outdoor opening(s) size shall be calculated in accordance with the

following:

i. The ratio of interior spaces shall be the available volume of all communicating spaces divided by the

required volume (i.e. 50 cubic ft per 1000 Btu/hr. if 0.4 ACH or greater).

ii. The outdoor size reduction factor shall be 1 minus the ratio of interior spaces.

iii. The minimum size of outdoor opening(s) shall be the full size of outdoor opening(s) calculated in

accordance with “Outdoor Combustion Air – Opening Size and Location” described above, multiplied
by the reduction factor. The minimum dimension of air openings shall not be less than 3 in.

12

Products to Avoid

Contaminated Sources to Avoid

Antistatic fabric softeners, bleaches, detergents, cleaners

Laundry facilities

Perchloroethylene (PCE), hydrocarbon based cleaners

Dry cleaning facilities

Chemical fertilizer, herbicides/pesticides, dust, methane gas

Farms or areas with livestock and manure

Paint or varnish removers, cements or glues, sawdust

Wood working or furniture refinishing shops

Water chlorination chemicals (chloride, fluoride)

Swimming pools, hot tubs

Solvents, cutting oils, fiberglass, cleaning solvents

Auto body or metal working shops

Refrigerant charge with CFC or HCFC

Refrigerant repair shops

Permanent wave solutions

Beauty shops

Fixer, hydrochloric acid (muriatic acid), bromide, iodine

Photo labs, chemical / plastics processing plants

Cement powder, crack fill dust, cellulose, fiber based insulation

Concrete plant or construction site

General Venting │ Vmax I&O Manual

Combustion Air-inlet Contamination

Be careful not to locate the air-inlet termination in an area where contaminants can be drawn in and used for
combustion. Combustion air containing dust, debris or air-borne contaminants will drastically increase the
required maintenance and may cause a corrosive reaction in the Heat Exchanger which could result in premature
failure, fire, serious injury, or death. See Table 4-1 for a list of areas to avoid when terminating air-inlet piping:

Table 4-1 Corrosive Products and Contaminant Sources

Do not store or use gasoline or other flammable vapors and liquids in the vicinity of this
or any other boiler. Failure to follow instructions may result in serious injury or death.

It is BEST PRACTICE to pipe the combustion air-inlet directly to the outdoors (Direct
Vent installation) to avoid contamination often contained in indoor air.

Flammable Solvents and Plastic Piping

Due to the extremely flammable characteristics of most glues, cements, solvents and primers used in the process
of joining plastic vent and air-inlet pipe, explosive solvent vapors must be evacuated from the vent and air-inlet
prior to start-up. Avoid using excess cement or primer that may lead to pooling inside the pipe assembly. Freshly
assembled piping assembly should be allowed to cure for a minimum of 8 hours before applying power to the gas
fired boiler. Refer to Mandatory Pre-commissioning Procedure for Plastic Venting in this section.

to reduce these risks. Failure to follow these instructions can cause explosions, property damage, injury or death.

Mandatory Pre-commissioning Procedure for Plastic Venting (PVC or CPVC)

1) Working with the power turned off to the boiler, completely install the vent and air intake system, securely

cementing joints together. If possible, allow primers/cements to cure for 8 hours before firing the burner. If
curing time is less than 8 hours, proceed with Steps 2 through 6.

2) Maintain the boiler gas supply shut-off valve in the off position.

3) Remove the cable from the Spark Ignition Electrode and Ignition Controller.

4) Turn power on to the boiler and apply a heat demand.

5) Allow for 5 complete trials for ignition, consisting of pre and post purge of the combustion blower, until an

ignition lockout occurs. Repeat the process one more time (i.e. 10 complete ignition sequences in total).

6) Turn power off and reconnect the cable to the Spark Ignition Transformer.

Flammable Cements and Primers – It is the installers’ responsibility to familiarize
themselves with the hazards associated with explosive solvents and to take all precautions

Do not apply power to the boiler prior to Step 4 in the Mandatory Pre-commissioning
Procedure for Plastic Venting.

Spark Ignition Circuit - Maintain a safe distance (2 in. minimum) from the spark ignition
circuit to avoid injury from electrical shock.

Vmax I&O Manual │General Venting

13

Near Boiler Vent/Air-inlet Piping

The Vmax employs universal Exhaust-vent and Air-inlet appliance adapters that accept 3 in. PVC/CPVC,
Polypropylene (PP) or FasNSeal Stainless Steel (SS) piping, without the need for additional adapters. The
universal adapters incorporate three seals, one for 3 in. PVC/CPVC pipe (3.5 in. OD), one for 3 in. PP pipe (3.15
in. OD) and one for 3 in. FasNSeal SS pipe (3 in. OD). See Figure 4-2(a) for gasket identification and pipe
insertion depth based on pipe material used. Prior to inserting the piping into the universal adapter, ensure it is
properly bevel (approximately 1/8 in.) to avoid damaging or dislodging the sealing gasket during installation; see
Figure 4-2(b).

Gasket Seating - Improper seating can cause leakage and eventual failure of the sealing
gasket. Ensure the vent pipe is properly beveled, prior to installation, and that the pipe is
fully inserted into universal applicance adapter. Failure to follow these instructions may
result in serious injury or death.

PVC/CPVC Piping – Ensure the upper gasket of the universal appliance adapter is in place and properly

positioned prior to installation. Ensure the venting system does not apply a load or strain on the boiler flue
outlet adapter; recommend using two elbows to create a “swing joint” to reduce potential strain on vent piping
and cemented joints. When exhaust venting with PVC, use the supplied 5” long CPVC Transition Pipe
provided with the boiler; insert the CPVC pipe into the exhaust adapter and cement the other end to the PVC
exhaust venting using a field supplied PVC or CPVC coupling. See Figures 4-3(a) and 4-3(b).

PVC Exhaust Venting – DO NOT insert PVC pipe directly into the appliance exhaust
adapter, as it can deform from the clamping force of the gear clamp. Failure to follow
these instructions may result in gasket failure and/or the dislodging of the exhaust pipe
from the appliance adapter, resulting in property damage, serious injury or death.

PP Piping – Ensure the middle gasket of the universal appliance adapter is in place and properly positioned

prior to installation. Ensure the venting system does not apply a load or strain on the boiler flue outlet adapter;
recommend using an elbow with an offset to reduce potential strain on vent piping and cemented joints. See
Figure 4-3(c).

Stainless Steel Piping – The Vmax universal appliance adapter is designed to connect directly to DuraVent –

FasNSeal AL29-4C Stainless Steel Special Gas Vent. Ensure the lower gasket of the universal appliance
adapter is in place and properly positioned prior to installation. Ensure the venting system does not apply a

load or strain on the boiler flue outlet adapter; recommend using two elbows to create a “swing joint” to

reduce potential strain on vent piping and cemented joints. See Figure 4-3(d).

Exhaust venting must be supported to reduce strain on piping joints. Failure to follow
these instructions may result in result in damage, serious injury or death.

In Canada, the first 3 ft (915 mm) of vent piping must be readily accessible for inspection.

14

Figure 4-2 (a) Universial Exhaust-vent & Air-inlet Appliance Adapter

Gasket Identification and Pipe Insertion Depth

Figure 4-2 (b) Universial Exhaust-vent & Air-inlet Appliance Adapter

Proper Exhaust Vent Connection

Lower Gasket – 3” OD Seal

use with Stainless Steel

Middle Gasket – 3.14” OD Seal

use with Polypropylene

Upper Gasket – 3.5” OD Seal

use with CPVC (PVC for Air-inlet)

2.36” (CPVC/PVC)

3.46” (PP)

4.17” (SS)

CPVC/PP/SS Exhaust Pipe
With 1/8” bevel to prevent
damage to gasket. When venting

with PVC, use 5” long CPVC

Transition Pipe (factory supplied)

Exhaust-Vent

Air-Inlet

Tighten Gear Clamp after

fulling inserting piping

General Venting │ Vmax I&O Manual

15

Figure 4-3(a) VM110 & VM110P

Figure 4-3(b) VM110 & VM110P

Near Boiler Venting (PVC)

Near Boiler Venting (CPVC)

Figure 4-3(c) VM110 & VM110P

Figure 4-3(d) VM110 & VM110P

Near Boiler Venting (PPs)

Near Boiler Venting (SS)

PP Elbow w. offset angle
to account for slope

PP Exhaust Vent

Flue Outlet Adapter

(factory supplied)

Air-inlet Adapter

(factory supplied)

PP Air-inlet Pipe*

Swing Joint to attain

slope in horizontal runs

SS Exhaust Vent

Flue Outlet Adapter

(factory supplied)

Air-inlet Adapter

(factory supplied)

SS Air-inlet Pipe

Air Inlet Pipe*

Swing Joint to attain

slope in horizontal runs

CPVC Exhaust Vent

Air Inlet Adapter

(factory supplied)

Flue Outlet Adapter
(factory supplied)

Swing Joint

to attain slope in
horizontal runs

CPVC Transition Pipe
**minimum 5” long
(factory supplied)

Flue Outlet Adapter
(factory supplied)

**CPVC Transition Pipe

is mandatory when

venting with PVC

PVC Coupling

Air Inlet Adapter

(factory supplied)

PVC Air Inlet Pipe*

PVC Exhaust Vent

Vmax I&O Manual │General Venting



Air-inlet - check with applicable local codes for acceptable pipe material.

16

Items 1

Materials

2, 3

Venting System Standards

All Vent and Air-Inlet
materials installed on gas
fired appliances in CAN/US
must meet the Standards
listed in this Table. Failure
to comply could result in
fire, serious injury or death.

United States

Canada 4

Vent Piping

and Fittings

PVC - DWV

ANSI/ASTM D2265

All venting material in

Canada must be

ULC S636 approved.

See Note 4 below for

appropriate temperature

applications.

PVC Schedule 40

ANSI/ASTM D1785

CPVC Schedule 40

ANSI/ASTM F441

Stainless Steel (SS)

UL-1738

Polypropylene (PP)

-

Pipe Cement
PVC

ANSI/ASTM D2564

CPVC

ANSI/ASTM F493

Primers

PVC / CPVC

ANSI/ASTM F656

Notes:

1

Refer to Table 4-5 for Allowable Vent and Air-inlet Pipe Sizes and Lengths.

2

PVC venting (exhaust and air-inlet) is not permitted within the Closet/alcove of a Closet/alcove installation.

3

The Air-inlet does not require high temperature pipe material. Check applicable local codes for acceptable materials.

4

ULC S636 PVC is approved for flue gas temperatures up to 149oF (65oC) and must only be used for low temperature
applications. High temperature applications requiring boiler supply water temperatures greater than 140oF (60oC) must
use ULC S636 CPVC, PP or SS.

Pipe Size

Length (ft) 2

Number of Elbows (90’s or 45’s) and Equivalent Feet

1 2 3 4 5 6 7 8 9

2” 1 100 3

95

90

85

80

75

70

65

60

55

3”

150

145

140

135

130

125

120

115

110

105

Note:

1

See WARNING below.

2

Minimum length of each the exhaust vent and combustion air-inlet piping is 5 feet equivalent.

3

When using 2 in., the combustion air-inlet piping must not exceed the length of the exhaust vent piping by more than 25
equivalent feet.

General Venting │ Vmax I&O Manual

Vent/Air-inlet Pipe Material

Table 4-2 Approved Vent and Air-Inlet Pipe Material

The use of cellular core PVC (ASTM F891), cellular core CPVC, or Radel®
(polyphenolsulfone) in the exhaust venting system is prohibited. Failure to follow these

instructions may result in property damage, personal injury or death.

Covering non-metallic vent pipe and fittings with thermal insulation is prohibited. Failure
to follow these instructions may result in property damage, personal injury or death.

Vent/Air-inlet Pipe Length Determination
Use Table 4-3 to determine the maximum pipe length that can be used. The table calculates 90º elbows, and 45º

elbows at 5 equivalent feet each.
Example: When using 3 in. pipe, the Vmax can be installed with 150 equivalent feet of air-inlet piping and 150

equivalent feet of exhaust-vent piping. See Table 4-3 for more details.

Table 4-3 Allowable Vent and Air-inlet Pipe Size and Lengths

PVC Exhaust Venting – When using 2 inch PVC venting, the first seven (7) equivalent
feet of exhaust venting must be approved 2 inch CPVC or 3 inch PVC; see exceptions in
Table 4-2.

17

Description

Vent

Size

Supplier P/N

Figure

Vent Material

Compatibility

Vent Option

Roof

Wall

IPEX Low Profile
(Flush Mount)

7

2”

196984

4-4(b), 4-6(c)

PVC/CPVC

7





3”

196985 (NTI P/N 84357)

IPEX Concentric
(Wall/Roof)

5,6,7

2”

196005

4-4(c), 4-5(c),

4-6(b), 4-7(b)





3”

196116 (NTI P/N 82666)

197009

DuraVent - PolyPro
Concentric (Wall)

2”

2PPS-HK

4-4(c), 4-6(d)

PVC/CPVC/PP





3”

3PPS-HK

DuraVent - PolyPro
Concentric (Roof)

2”

2PPS-VK

4-5(c), 4-7(c)





3”

3PPS-VK

Centrotherm – InnoFlue

(Flush Mount)

2”

ISLPT0202

4-4(b), 4-6(c)





3”

ISLPT0303

Centrotherm – InnoFlue
Concentric (Wall)

8

2”

ICWS2413 & ICTC0224

4-4(c), 4-6(d)





3”

ICWS3513 & ICTC0335

ICWT352 & ICTC0335

Centrotherm – InnoFlue
Concentric (Roof)

8

2”

ICRT2439 & ICTC0224

4-5(c), 4-7(c)





3”

ICRT3539 & ICTC0335

Notes:

1

Instructions included with termination kits contain detailed assembly and installation instructions.

2

All factory termination kits are ULC S636 approved.

3

Clearance requirements in this manual supersede those of the instructions included with the vent terminal.

4

Piping MUST be secured to the vent terminal during installation.

5

IPEX Concentric Terminal MUST be cemented together and to the vent pipes during installation.

6

Vent Screens provided with boiler may be used with the IPEX Concentric Vent Kits; otherwise use IPEX vent screens

(2 in. vent screen P/N 196050; 3 in. vent screen P/N 196051 – each sold separately).

7

IPEX Low Profile and Concentric kits (excluding P/N 197009) are constructed out of ULC S636 approved PVC; check

with your local authority for the acceptance of PVC as a venting material prior to use.

8

Centrotherm Concentric termination kits must use the applicable “Twin pipe to concentric adapter,” part number

ICTC0224 or ICTC0336.

Vmax I&O Manual │General Venting

Termination Options – Direct Vent Installation

The venting system of the VM110 and VM110P may be terminated using field supplied piping to construct a
“Two-Pipe” termination, see Figures 4-4(a), 4-5(a), 4-5(d), 4-6(a), 4-7(a) and 4-7(d); alternatively the venting
may be terminated using a factory kit selected from Table 4-4.

Optional Termination Kits – Direct Vent Installation
Kits certified with the Vmax VM110 & VM110P are listed in Table 4-4 and available from IPEX, DuraVent,

Centrotherm and/or NTI. For more information on System 636 Vent Kits or wholesaler locations contact IPEX
directly USA: 1-800-463-9572 or www.IPEXamerica.com │ CAN: 1-866-473-9462 or www.ipexinc.com. For
more information on PolyPro Vent Kits or wholesaler locations contact DuraVent directly 1-800-835-4429 or

www.duravent.com. For more information on InnoFlue Vent Kits or wholesaler locations contact Centrotherm

directly at 1-877-434-3432 or www.centrotherm.us.com.

Table 4-4 Optional Vent Termination Kits

Venting Options - Due to potential moisture loading (build-up) along the exterior wall,

sidewall venting may not be the preferred venting option (see Figures 4-5 and 4-7).

18

Figure 4-4(a)

Figure 4-4(b)

Two-pipe Termination (Sidewall)

Low Profile Termination (Sidewall)

Figure 4-4(c)

Concentric Termination (Sidewall)

Exhaust must terminate a
minimum of 18” above Air-inlet
termination; see Figure 4-6(a) for
more details.

Exhaust

Inlet

3” IPEX Low Profile Termination

illustrated; see Figure 4-6(c) for
more details.

Exhaust

Inlet

3” DuraVent Concentric

Termination illustrated, see
Figure 4-6(d) for more details.

Exhaust

Inlet

3” IPEX Concentric Termination

illustrated, see Figure 4-6(b) for
more details.

Exhaust

Inlet

General Venting │ Vmax I&O Manual

19

Figure 4-5(a)

Figure 4-5(b)

Two-pipe Termination (Roof)

Two-pipe Termination (Roof-exhaust / Sidewall-inlet)

Figure 4-5(c)

Concentric Termination (Roof)

3” DuraVent Concentric

Termination illustrated, see
Figure 4-7(c) for more details.

Exhaust

Inlet

Exhaust

Inlet

Exhaust must terminate a
minimum of 18” above the Air­inlet termination; see Figure 4­7(a) for more details.

3” IPEX Concentric termination

illustrated, see Figure 4-7(b) for
more details.

Exhaust

Inlet

Exhaust

Inlet

Exhaust must terminate a

minimum of 12” above snow

level; see Figure 4-7(d) for more
details.

Vmax I&O Manual │General Venting

20

Sidewall Termination Details – Direct Vent Installation

Figure 4-6(a)

Figure 4-6(b)

Two-Pipe Termination (Sidewall)

Two-Pipe Termination (Sidewall)

Refer to documentation included with termination kit for
complete installation instructions.

Figure 4-6(c)

Figure 4-6(c)

Low Profile Termination (IPEX Illustrated)

Low Profile Termination (IPEX Illustrated)

Refer to documentation included with termination kit for
complete installation instructions.

Min. 12”

above grade
or snow level

Exhaust

Air-inlet

Exhaust

Air-inlet around

perimeter

Min. 12”

above grade
or snow level

Exhaust center

Air-inlet bottom

Exhaust

Air-inlet

Gas Vent Directly Below

Keep Free of Obstructions

Refer to documentation included with termination kit for
complete installation instructions.

Exhaust

Air-inlet

Min. 12”

above grade
or snow level

Vertical

Min. 18”

Horizontal
4-12” or greater
than 36”

Exhaust

Air-inlet

Vent Screen

Vent pipe piece to
retain vent screen

Gas Vent Directly Below

Keep Free of Obstructions

Exhaust

Air-inlet

Min. 12”

above grade
or snow level

Air-inlet around
perimeter (1-2”
from wall)

Exhaust through
center

Vent Screen

Vent pipe piece to
retain vent screen

General Venting │ Vmax I&O Manual

Vmax I&O Manual │General Venting

21

Roof Termination Details – Direct Vent Installation

Figure 4-7(a)

Figure 4-7(b)

Two-Pipe Termination (Roof)

IPEX Concentric Termination (Roof)

Figure 4-7(c)

Figure 4-7(d)

PolyPro / InnoFlue Roof Termination

Exhaust only Roof Termination

Min. 12”
above grade
or snow level

Vent Screen

Vent pipe piece to
retain vent screen

Exhaust

Air-inlet

Vertical

Min. 18”

Horizontal

4-12” or greater

than 36”

Flashing

Min. 12”

above grade
or snow level

Vent Screen

Vent pipe piece to
retain vent screen

Exhaust center

Air-inlet around

perimeter

Flashing

Refer to documentation included with termination kit for
complete installation instructions.

Refer to documentation included with termination kit for
complete installation instructions.

Min. 12”

above grade

or snow level

Flashing

Exhaust

Air-inlet

Figure illustrates two options for exhaust termination only;
neither vent pipe illustrated is for combustion air-inlet.

Min. 12”

above grade
or snow level

Flashing

Vent pipe piece to
retain vent screen

Vent Screen

Exhaust
Option 1

Exhaust
Option 2



22

General Venting │ Vmax I&O Manual

Venting Rules and Guidelines

1. Prevailing Winds: Ensure the vent is located where it will not be exposed to normal prevailing winds.

2. Combustion Air-inlet Contamination: Air for combustion must be drawn from an area free of dust and

contaminants. Combustion air containing chemicals such as chloride, fluoride, bromine or iodine or dust and
debris will cause corrosion damage of the heat exchanger voiding your NTI warranty. Refer to Table 4-1 for
a list of corrosive products and contaminants sources to avoid.

3. Vertical Separation: The exhaust must be a minimum of 18 in. above the air inlet, and the air inlet must

always be a minimum of 12 in. plus snow allowance above any surface that will support snow. (Two feet
plus snow allowance is highly recommended). Consult your weather office for the maximum typical
snowfall for your region.
Example: New Brunswick Canada - typical maximum snowfall is 19 in., thus the inlet must be (12”+19”) =
31 in. above grade and exhaust must be (31”+18”) = 49” above grade.

4. Horizontal Separation: The horizontal distance between the inlet and exhaust must be a minimum of 4”

[102 mm] center to center.

5. Wall Flashing: Under normal operating conditions this boiler will produce a plume of white gases, and

should be taken into consideration when selecting an adequate location. A 36 in. diameter stainless, plastic,
or vinyl shield can be used to flash the exterior of the residence.

6. Flue Gas Hazard: Position the vent termination where vapors cannot make accidental contact with people

and pets or damage nearby shrubs and plants.

7. Elbow Extensions: Elbows on outside of wall must be no more than ½ in. away from the wall.

8. Vent Sloping: All indoor exhaust piping must be on a slope back to the boiler a minimum of ¼ in. per

linear foot of vent. For applications where excessive condensation is possible ½ in. per linear foot is
recommended.

9. Vent Supports: Where required Vent and Air-inlet piping shall be secured to the wall for more rigidity. All

interior vent pipe shall be supported a minimum of every 36 in..

10. Roof Exhaust: In all roof applications the discharge must point away from the pitch of the roof.

11. Roof Flashing: Install adequate flashing where the pipe enters the roof, to prevent water leakage.

12. Rain Cap: Install and seal a rain cap over existing chimney openings, in vacant chimney applications.

13. Venting Below Grade: For installations that exit the wall below grade refer to Figure 4-8.

14. Vent Screens: Install factory supplied vent screens on the outside of the last elbow for both the inlet and

exhaust vent terminal elbows. Install the screen into the female opening of the elbow, and then cut a small
piece of pipe to sandwich the screen into the elbow. NOTE: ensure the small piece of pipe cut, does not
extend past the end of the elbow. Two screens are provided in the package. See Figures 4-6 and 4-7.

15. Condensate Hazard: Do not locate vent over public walkways, driveways or parking lots. Condensate

could drip and freeze resulting in a slip hazard or damage to vehicles and machinery.

16. Warning Plate: For Sidewall Venting, install the warning plate “Gas Vent Directly Below”, directly above

(within 4 ft. vertically) the location of the air-inlet pipe, so it is visible from at least 8 ft away. See Figure 4-

6.

17. Wall Thickness: Direct vent terminations are designed to work with any standard wall thickness.

Installation guidelines for min/max wall thickness are as follows: Min. = 1 in., Max. = 60 in..

18. Venting Options: Due to potential moisture loading (build-up) along the exterior wall, sidewall venting

may not be the preferred venting option. Refer to Figures 4-5 and 4-7 for roof top venting options.

23

Figure 4-8 Venting Below Grade

For installations that exit the wall below grade:

1. Excavate site to a point below where the pipes

are to exit as shown.

2. Ensure the wall is fully sealed where the pipes

penetrate.

3. The Vent/Air-inlet piping MUST be secured to

the side of the building above grade, as shown,
to provide rigidity.

4. Optional mounting bracket P/N. 82075 for

securing the exhaust pipes (only applicable for 3
in. PVC/CPVC venting).

5. Ensure that the Vent/Air-inlet clearances are

maintained, see Section 5.0 for details.

Figure 4-9 Outdoor Venting

Vent piping outside the building is permitted under
the following conditions:

1. The maximum length outside the building is 20 ft.

Note that outdoor length must be included in the
overall vent length calculation.

2. All normal termination clearances are maintained.

3. The pipe is supported every 24 in..

4. The exhaust and inlet are sloped back to the boiler

½ in. elevation for every linear foot.

Figure 4-10 Existing Chimney Chase Way

It is permissible to use an existing chimney as a chase
way to run the Vent/Air-inlet piping as long as:

1. The chimney is not being used by any other

boiler.

2. Flue gases do not enter the vacant chimney.

3. Only Vmax certified venting materials are used,

see Table 4-2.

4. Vent lengths are within the maximums specified.

5. The top of the chimney is capped and the

Vent/Air-inlet pipes are flashed to prevent
leakage into the vacant chimney.

Exhaust

Air-inlet

Wall Brackets

Supports every
24 in. [610 mm]

12 in. [305 mm] plus snow

allowance above grade

Air-Inlet

Maximum of 20 ft.
[6.1 m] is permitted
for piping outside a
building.

Exhaust
Vent

Gas Vent Directly Below

Keep Free of Obstructions

Air-Inlet

Existing
Chimney
(used as a
chase way)

Chimney
Cap

Exhaust Vent

Exhaust Vent Min.
18 in. above air­inlet

Air-Inlet
Min. 12 in. above
roof and snow level

Vmax I&O Manual │General Venting

24

Clearances to Air-Inlet Termination

Canada 1

USA 2

Min. Distance

Min. Distance

A

Above grade/roofline and snow level 8

12 in.

305 mm

12 in.

305 mm

B

Above roof line - Concentric Vent

6, 11, 13

24 in.

610 mm

24 in.

610 mm

C

To exhaust vent from any other boiler

36 in.

915 mm

12 in.

305 mm

Clearances to Exhaust Vent Termination

Min. Distance

Min. Distance

D

Minimum vertical separation above air inlet 9

18 in.

457 mm

18 in.

457 mm

E

Minimum horizontal separation from air inlet 3

4 in.

102 mm

4 in.

102 mm

F

Window, door or building opening

36 in.

915 mm

12 in.

305 mm

G

To combustion air inlet from any other boiler

36 in.

915 mm

12 in.

305 mm

H

Non-mechanical air supply inlet to building

36 in.

915 mm

12 in.

305 mm

I

Mechanical air supply inlet to building 4

6 ft.

1.83 m

3 ft.

915 mm

J

Soffit, overhang, eave or parapet

24 in.

610 mm

24 in.

610 mm

K

Soffit vent or vent opening in an overhang, eave or parapet

6 ft.

1.83 m

6 ft.

1.83 m

L

Outside corner 10

- - -

-

M

Inside corner of an L-shaped structure (including walls and fences)

36 in.

915 mm

36 in.

915 mm

N

Electric meters, gas meters, regulators and relief equipment

6 ft.

1.83 m

4 ft

1.22 m

P

Each side of center line above or below meters, regulators and relief devices 5

36 in.

915 mm

36 in.

915 mm

Q

Above a paved sidewalk, driveway, or parking lot on public property if adjacent 12

7 ft.

2.13 m

7 ft.

2.13 m

R

Above a sidewalk, driveway, or parking lot on public property

X X X

X

S

Above a sidewalk, driveway on private property between / serving both dwellings

X X X

X

T

Under a concrete veranda, porch, deck, or balcony 7

24 in.

610 mm

24 in.

610 mm

U

Above, under or near exterior stairs

X X X

X

V

Into a canopy or carport

X X X

X

Notes:

1 - Canadian installations must comply with the current CSA B149.1 Natural Gas and Propane Installation Code and local

building codes.
2 - US installations must comply with current ANSI Z223.1/ NFPA 54 National Fuel Gas Code and local building codes.
3 - Horizontal separation center-to-center (c.c.) 4”-12” (102-305 mm).

4 - For US installations, an exhaust vent may be 3 ft. above a mechanical air supply inlet if within 10 ft. [3 m] horizontally.
5 - Horizontal clearance must be observed up to a height of 15 ft. [4.6 m] above/below the meter, regulator, or relief devices.
6 - Concentric Vent must protrude from the roof precisely 24 in. [610 mm] measuring from the terminal end-cap vanes.
7 - Permitted if veranda, porch, deck, or balcony is made of concrete and a minimum of two sides are fully open beneath.
8 - 24 in. is the recommended snow level allowance above grade/roofline or any surface that will support snow, debris, or

ice (i.e. for roof venting clearances - roofline and snow level). If living in a snowfall region, consult your local weather
office for the maximum typical snowfall for your area.

9 - Note that the vent must maintain a minimum vertical distance above the air-inlet. Example: Vent height = 18 in. (457

mm) above air inlet + 12 in. (305 mm) for air inlet above grade/roof line and snow level = 30 in. (762 mm) above grade

and snow level.
10 - Clearances to an outside corner to be in accordance with local installation codes.
11 - In Canada, concentric vent materials are subject to approval by local inspectors. See Termination Kits in Section 4.0.

12 - Above public walkways, driveways or parking lots if adjacent to it and condensate cannot drip, freeze, or create a hazard.
13 - Contact the manufacturer for special exemptions relating to multiple boiler installations using concentric vents.

Termination Clearances │ Vmax I&O Manual

5.0 VENT/AIR-INLET TERMINATION CLEARANCES

instructions detailed in this section are a combination of Vmax specific and National Gas Code restrictions.
Compliance alone does not insure a satisfactory installation as good common sense must also be applied. Failure
to follow these instructions may result in fire, property damage, serious injury or death.

Table 5-1 Termination Clearances Quick Reference Table (See Figures 5-1 and 5-2)

The quick reference table below is to be read in conjunction with the numbered notes as
indicated, Figures 5-1 and 5-2, and the Venting Rules and Guidelines in Section 4.0. The

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G – Letter represents a specific Termination Position. Refer to Table 5-1 for corresponding termination clearances.

Concentric Vent
Termination

Q

Two-Pipe
Termination

F

Clearance “Q”
Adjacent to Public
Walkway or Driveway
Minimum 7ft. [2.13 m]

G

Clearances “F” and “G”
Canada – Minimum 3 ft. [915 mm]
The US – Minimum 1 ft. [305 mm]

Vmax I&O Manual │Termination Clearances

Figure 5-1 Termination Clearance Quick Reference Diagram (See Table 5-1)

Illustrations of Termination Clearances

Figure 5-2 Sidewall Termination (See Table 5-1)

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Termination Clearances │ Vmax I&O Manual

Removing an Existing Boiler from Common Venting System

Upon removal of an existing boiler, the following steps shall be followed for each boiler remaining in the
common venting system; prior to commencing this procedure, shutdown all boilers remaining in the common
venting system.

Steps to Removing an Existing Boiler:

1. Seal any unused openings in the common venting system.

2. Visually inspect the venting system for proper size and horizontal pitch. Verify that there is no blockage,

restriction, leakage, corrosion or other deficiencies which could cause an unsafe condition.

3. Insofar as is practical, close fireplace dampers, all building doors and windows and all doors between the

space in which the boilers remaining connected to the common venting system are located and other spaces
of the building. Turn on clothes dryers and any boiler not connected to the common venting system. Turn on
any exhaust fans, such as range hoods and bathroom exhausts, so they will operate at maximum speed. Do
not operate a summer exhaust fan.

4. Place in operation the boiler being inspected. Follow the applicable lighting instructions. Adjust thermostat

so boiler will operate continuously.

5. Test for spillage at the draft hood relief opening after 5 minutes of main burner operation. Use the flame of a

match or candle, or smoke from a cigarette, cigar or pipe.

6. After it has been determined that each boiler remaining connected to the common venting system properly

vents when tested as outlined above, return doors, windows, exhaust fans, fireplace dampers and any other
gas burning boiler to their previous condition of use.

7. Any improper operation of the common venting system should be corrected so the installation conforms to

the National Fuel Gas Code, ANSI Z223.1/NFPA 54 and/or CAN/CSA B149.1, Natural Gas and Propane
Installation Code. When resizing any portion of the common venting system, the common venting system
should be resized to approach the minimum size as determined using the appropriate tables in Part 11 of the
National Fuel Gas Code, ANSI Z223.1/NFPA 54 and/or CAN/CSA B149.1, Natural Gas and Propane
Installation Code.

Extra precaution must be taken to adequately support the weight of the Vent/Air-inlet
piping in applications using roof-top terminations. Failure to follow these instructions
may result in venting or boiler component failure resulting in flue gas spillage leading to
property damage, serious injury or death.

Under no circumstances may an existing chimney or chase-way be used to vent or
provide combustion intake air to a Vmax VM110 or VM110P. Failure to follow these
instructions will result in fire, property damage, serious injury or death.

Do not install the Vmax VM110 or VM110P into a common venting system with any
other boiler. Failure to comply with this warning will cause flue gas spillage and leech
carbon monoxide emissions into the surrounding air resulting in serious injury or death.

When an existing boiler is removed from a common venting system, the common venting
system is likely to be too large for proper venting of the remaining boilers connected to
it. Instructions have been provided on how to remove the existing boiler and how to
resize the remaining venting system. Failure to follow these instructions may result in
property damage, serious injury or death.