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The Ideal W wall mounted boiler comes in a range of outputs

45, 60 or 80kW and all are capable of being installed as a single

unit or in simple modular formations for even bigger outputs. The

W is a highly efficient fully condensing boiler - up to 98%

efficient nett (88.5% gross) non condensing and an impressive

108% nett (97.3% gross cv) at 30% load, fully condensing. Even

higher efficiencies are achieved at lower system temperatures. The

fully modulating gas/air design ensures that maximum efficiency is

maintained down to very low loads reflecting the needs of modern

systems. At its heart is a robust cast aluminium heat exchanger

providing a compact, space saving design making this the ideal

boiler for plant rooms where space is at a premium.

Ideal boilers are fan assisted and have been designed with

siting flexibility in mind. Flues can be concentric, twin duct, room

sealed or open flued in single or multiple installations. It is one of

the easiest commercial boiler ranges to install and service.

The premix burner design ensures the lowest level of emissions. The

range has been approved to the most stringent European Standards

governing safety and performance of commercial boilers and is

classified as low NOx (Class 5).

The Ideal W incorporates an advanced microprocessor based

control system which operates all electrical functions of the boiler

including ignition, flame detection, temperature control and burner

modulation. In addition the system has full commissioning and fault

diagnostic displays.

The boilers are offered with an extensive range of option kits

including flues, system controls and modular header kits for

maximum flexibility and ease of specification.

Conforms with all relevant
European standards and
requirements

modulation to low outputs for

high operating efficiencies

Plus

The Plus extends the Ideal condensing boiler range with

outputs from 80kW to 280kW in a range of six compact floor

standing boilers and can be installed in multiple formation to provide

even larger outputs if the system requires.

High efficiencies are the norm for boilers and the Plus

is up to 96.6% efficient nett (87% gross cv) non-condensing, and

108.4% nett (97.7% gross cv) at 30% load. Even higher efficiencies

are achieved at lower temperatures. The fully modulating gas/air

design ensures maximum efficiency is maintained down to as low as

11.6kW output. This class-leading figure is achieved even with the

largest model as the unique Plus design optimises load

matching. The robust cast aluminium heat exchanger comprises of

several sections, each flueway or module has its own burner fan, gas

valve, ignition and safety controls and after all have modulated down

to their combined minimum, modules are switched off to further

match a reducing system load. Wasteful on/off cycling is reduced to

the absolute minimum with the Plus, and a further benefit is

that standby support is built into the design.

Plus boilers are designed for ease of installation and the flue

can be positioned to left, right or rear, whilst system and gas

connections can be made to left or right of the boiler. All to ensure

boiler house siting is as simple and fast as possible.

Naturally the range meets the most stringent European Standards

governing safety and performance and is classified as low NOx (Class

5). It is also the quietest boiler of its size at less than 50dBA.

The Plus uses advanced microprocessor based controls to

operate all electrical functions and provides full commissioning and

fault diagnostic displays. Furthermore it takes into account each

modules' operating hours and evens out their usage. Further benefits

are that Hours Run Meters and BMS control is built-in as standard,

whilst an outside sensor for weather compensation is supplied with

each boiler.

Introduction

Customers increasingly demand higher efficiencies and lower emissions from the heating plant. All this must be achieved in ever smaller

dimensions. Ideal now provide a range of solutions with the high efficiency condensing wall hung boilers and Plus floor standing range.

Performance

The Ideal range offers high operating efficiencies,

together with the lowest possible emissions, and is certified to

comply with the Gas Appliance Directive (90/396) and the Boiler

Efficiency Directive (92/42), the European Directives governing

safety and performance of gas boilers ensuring high quality

performance.

The design of the boiler ensures high efficiencies at both full

and part loads to meet the new `Building Regulations 2000'

conservation of fuel and power. Approved efficiencies are up to 98%

at 80°C flow based on net calorific value of fuel (88.5% gross) at full

load. At 30% part load the efficiencies exceed 108% net (97.3%

gross).

Electrical Controls

The boilers incorporate an advanced microprocessor based

control system which operates all electrical functions of the boiler

including ignition, flame detection, flow/return temperature sensors

and output modulation. In addition the microprocessor displays

boiler status and a fault diagnosis program.

Boiler

Range

Certificate No.

Notified Body

Reference

W45 - 80

0063BN3218I

Gastec NV

0063

Plus

F80 - 280

49BM3615

AFNOR, Paris

0049

Boiler Operation

On a call for heat, air is drawn into the boiler variable speed fan.

The fan inlet incorporates a special mixing arrangement for gas

supplied from the gas valve. The gas/air mixture is automatically

ignited at low rate beneath the burner via a spark electrode and

ignition proved by a flame rectification electrode. The flue gases pass

downwards through the heat exchanger and via the sump and flue

outlet to atmosphere. A plume of vapour will be visible at the

terminal due to the low exit temperature.

The boiler modulates its output according to demand via the

flow/return sensors and any external controls. The fan speed and gas

flow are adjusted under this electronic control to provide the correct

mixture and output. This maintains high efficiency part loads.

Condensation within the boiler will start to occur when the

return temperature is below the dew point (55°C). The flue gases will

condense and increase boiler efficiency by giving up their latent heat

to the system. Condensation formed within the boiler is removed via

the integral drain.

Plus

When the boiler receives a call for heat, the boiler control

Modular Boiler Drive (MBD) calculates the necessary output

according to the difference between the set flow temperature (or

compensated flow temperature for a CH call when using an outside

sensor) and the boiler modules' combined flow temperature. The first

module fan operates and the gas/air mixture is automatically ignited

below the burner via a spark electrode and proved by a detection

electrode. Ignition occurs in 5 seconds and once detected the

module starts operating. Subsequently, additional modules will fire

to provide the load required.

The boiler principle method of operation is to run as many

modules simultaneously, at the lowest possible load, for maximum

efficiency e.g.

If an F160 with 160kW max. output is only requested to provide

72kW.

72 / 4 = 18kW per module

Therefore, the boiler operates all modules at the reduced rate of

18kW. If the required load is less than the min. 12kW per module,

then one module after the other will automatically shut down and the

load shared by the remaining modules. The modules with the lowest

number of hours run are automatically chosen to satisfy the demand.

In order to give you assurance and peace of mind a Certification of

Compliance to the Building Regulations 2000 can be obtained from

the commercial heating department.

product specification

Quality

As with all Ideal boilers, the W & Plus boilers are

engineered to the highest quality standards. Ideal Boilers products

meet or exceed the requirements of all relevant standards. Before

despatch each boiler is fired and fully tested. The control valves are

also adjusted to give the correct gas flow rate. Ideal Boilers are

recognised as a World Class Manufacturer.

assurance of quality

BS EN ISO 9001: 2000

Packing

The Ideal is despatched from works in separate packs

as follows:

W contains:

Plus contains:

Complete boiler

Assembled boiler body

with separate:-

Casing pack

Flue option packs

Condensate pipe & fixings

Control option packs

Flue manifold, socket & gasket

Modular header kits

Outside sensor pack

A full commissioning service is available at an extra charge.

System Application

Ideal boilers are designed for central heating of large

domestic and commercial premises and also for supplying domestic

hot water via a calorifier or plate heat exchanger. They are suitable

for fully pumped, open vented or pressurised systems and can be

connected to heating and/or domestic hot water systems.

They are not suitable for direct hot water supply or gravity

heating/hot water systems.

Plus

Maximum static head:

40.7 metres

61 metres

(134 feet)

(200 feet)

Maximum working pressure:

4 bar

6 bar

(58.7psi)

(87psi)

Maximum design flow temperature is 82°C (180f)

(This is adjustable to 90°C if required at the control panel).

Pump overrun is provided as standard, and a period of 5 minutes

must be allowed for in system design.

Frost protection is built into the boiler control, if the boiler sensor

falls below 7°C, this will result in the appliance firing.

This will protect the boiler only, not exposed system elements.

Jacket side panel

Jacket front panel assy.

Controls fascia

Controls door assy.

Wall mounting plate

Internal flue tube

Air pressure switch

Fan

Mounting plate manifold

10.

Gas valve

11.

Upper gas pipe

12.

Lower gas pipe

12A. Gas pipe

13.

Sight glass complete

14.

Ignition/detection electrode

15.

Auto air vent

16.

Manifold flow

17.

Heat exchanger assy.

18.

Inspection cover assy.

19.

Condensate outlet pipe

20.

Manifold return

21.

Thermistor flow or return

22.

Transformer

23.

Control module

24.

Pressure gauge

25.

Water pressure switch

31.

Gas manifold

(W80 model shown)

W45 & W60

product specification

W Boiler Construction

Ideal W wall mounted boilers are constructed from cast

aluminium heat exchangers with tubular steel flow and return manifolds.

The heat exchanger is mounted in a sealed white enamelled

steel casing.

A premix downfiring burner is mounted above the heat exchanger.

A cast aluminium sump is fitted below with condensate drain

connection.

The concentric flue outlet and air inlet is positioned on the

boiler top, with gas and system connections at the base.

Controls are accessible behind a drop down door. Maintenance

and servicing is all achieved from the boiler front.

Option Kits

Modulating sequencer kit

Programmable room thermostat kit

Control interface kit

Outside sensor kit

Tank sensor kit

Remote indication kit

Hours run meter(s)

BMS (0-10V) kit

Pump kit

Multi boiler frame and header kits

*Provided as standard

Plus

option kits

Control Interface Kit

Remote Indication Kit

Programmable Room
Thermostat Kit

Modulating Sequencer Kit

Tank Sensor Kit

BMS (0-10v) Kit

Outside Sensor Kit

The boiler range comes with a host of options designed to

give greater flexibility and control to your heating system.

W Flue Kits

Horizontal wall flue kit

A range of concentric flue pipes

together with wall mounted grille for

horizontal flue applications.

Vertical roof flue kit

A range of concentric flue pipes

together with terminal grille for roof

flue applications.

Twin pipe flue kits

Air and flue pipe terminals for extra

long runs using twin ducts.

Open flue kit

A range of air inlet grilles for direct

installation to the boiler with flue

connection.

For more information see Flueing page 12.

Flue Options

W Multiple Boiler Frame Kit

W boilers are also designed for multiple boiler installations.

Such installations can be an advantage in many situations:

· Compact size means easier location, transportation and

handling.

· Close load matching means higher annual operating

efficiencies.

· Inherent reliability and service continuity. One boiler may be

shut down for servicing whilst the remainder continue

operating.

· A sequencer kit and multiple boiler pipework kits are available

for the W.

The header kit comes complete with all the components

necessary to complete a multiple installation:

· Gas and water headers (2 or 3 boilers)

· Mixing header

· Individual flow, return and gas connection pipework

incorporating isolating valves

· All necessary mounting brackets for pipework

Ideal W boilers are also designed for use with a boiler

frame mounting kit which allows boilers to be mounted onto a free

standing boiler frame rather than onto the wall.

This frame mounting kit is especially useful when wall space is

at a premium or wall condition is suspect. The frame mounting kit is

suitable for use with installations of 1 or more boilers.

1. Non-return valve

2. Safety valve

3. Service valve

4. Expansion vessel

5. Mixing header

6. Flow sensor

7. System pump

8. Modulating

Sequencer kit

9. Flue gas terminal

10. Room Temp. sensor

11. Drain cock

12. Outdoor sensor

W Multiple Boiler Kit Installations

1. Frame kit

2. 3 Blr. flow & return

header kit

3. 3 Blr. gas header kit

4. Connection kit

5. Mixing header

6. Pump

(For dimensions

see page 22)

Plus boilers are suitable for installations where the load

requires more than one boiler.

e.g. 2 x F280 = 560kW or in larger multiples

The flexibility of flue connection position (left, right or rear) and

system and gas connections (left or right) allows multiple boilers to

be sited more easily in confined boiler homes.

Plus boilers can be laid out for example with rears

towards each other and flues at the same end. Many more options

are possible to minimise plant room area.

Plus Multiple Boiler Installations

concentric and

twin duct systems

W Flue Kits

W Only

The flue kits are suitable for use with the Ideal boiler only.

These kits and the associated options are suitable for both roof

and wall mounting applications.

Several flue options are available:

· Horizontal flue kits (80/125mm or 100/150mm dia.)

· Vertical roof flue kits (80/125mm or 100/150mm dia.)

· Twin pipe flue kits

· Open flue kits

The twin pipe flue kit is suitable where particularly long flue

runs are required and compact flue and air ducts are required.

The roof kit is suitable for both flat and pitched roof termination,

using a concentric flue (tube within tube) to run vertically from the

top of the boiler and terminating above the roof level.

If obstructions prevent direct flue routing then both 90° and 45°

elbows can be provided to offset any of the flue systems.

Accessories

Flue duct extension kits are available for flue lengths extending

beyond 1 metre. These packs contain additional 1 metre ducts and

may be cut to the desired length.

Elbows, 90° and 45°, are also available.

flueing

Weatherproofing

Where the flue passes through the roof line an adequate seal

must be made. This can be achieved by using either:

· Flat weather collar 125mm or 150mm

· Pitched weather collar 125mm or 150mm

Additional information covering selection and installation can be

found within this guide.

Flue Systems

To ensure safe and satisfactory operation, the boiler must be

connected to a chimney system capable at all times of adequately

evacuating the combustion products (see performance data table on

page 14 for approximate volumes).

The Ideal W & Plus boilers are suitable for use in

both room sealed and open flue fan assisted operation. Connections

for combustion air inlet and flue products discharge are located on

the top of the appliance ( Plus: separate vertical flue outlet to

left, right or rear, air inlet at left or right).

The jacket of the Ideal condensing boiler is constructed

such that it forms an air tight seal. It is therefore important that the

jacket of the unit is fitted properly whilst the boiler is in operation.

The boiler is suitable for use in either single or multiple flue

configurations and can be fitted with a wide variety of flue systems.

Horizontal flue runs MUST be inclined at 2.5° to the horizontal

in order that any condensate formed can be discharged through the

boiler.

W & Plus

All joints or connections in the flue system must be impervious

to condensate leakage and also any low points in the flue system

should be drained using pipe of material resistant to condensate

corrosion.

The flue duct termination point must be positioned so that it will

not be affected by adverse wind conditions and be free from any

obstructions. Note: A vapour plume will be visible at the terminal.

Therefore where possible terminal positions which could cause

problems due to plumeing should be avoided.

The use of a fan on the boiler permits long flue runs however,

the resistance of bends etc will reduce the overall length. Full details

of the W flue sizes and resistances can be found on page 13

of this booklet.

NO additional diverter, stabiliser, or draught break should be

installed in the chimney system without prior consultation with

Caradon Ideal Ltd.

Flues and terminal positions should be designed with strict

regard to the requirements of BS 5440: Part 1, BS 6644, IGE

UP/10 and the Building Regulations Part J as appropriate. Particular

attention should be paid to these for multiple boiler installations and

if required, the Clean Air Act.

W Flue Termination Position

Concentric Wall Terminal Positions

Minimum spacing

A. Below an opening (1)

300 mm

12 in

B. Above an opening (1)

300 mm

12 in

C. Horizontally to an opening (1)

300 mm

12 in

D. Below gutters, soil pipes or drain pipes

75 mm

3 in

E. Below eaves

200 mm

8 in

F. Below balcony or car port roof

200 mm

8 in

G. From a vertical drain pipe or soil pipe

150 mm

6 in

H. From an internal or external corner or to a boundary alongside the terminal

300 mm

12 in

Above ground, roof or balcony level

300 mm

12 in

J. From a surface or a boundary facing the terminal

600 mm

24 in

K. From a terminal facing the terminal

1200 mm

48 in

L. From an opening in the car port into the building

1200 mm

48 in

M. Vertically from a terminal on the same wall

1500 mm

60 in

N. Horizontally from a terminal on the same wall

300 mm

12 in

Concentric Roof Terminal Positions

Directly below an opening, air brick, windows, etc

300 mm

12 in

Below plastic/painted gutters

500 mm*

20 in

Below painted surface

500 mm*

20 in

Below eaves or balcony

500 mm

20 in

From wall

1000 mm

40 in

W Important - The boiler must be installed in a vertical position.

The pressure available at the boiler outlet is sufficient to

overcome the resistance of considerable flue lengths. The maximum

straight length of concentric flue may be as long as 31.6 metres,

dependent on model. A twin duct arrangement can be up to 29

metres combined flue and air pipes, with small wall terminals.

The maximum potential length for each flue type by boiler model

is shown in the table opposite, although allowances must be made

when elbows are used. The length to be subtracted for each elbow

used is also provided in the table below.

Maximum equivalent lengths (metres)

W45

W60

W80

Horizontal Wall Flue Kit 80/125

9.5

7.8

Horizontal Wall Flue Kit 100/150

31.6

Vertical Roof Flue Kit 80/125

9.5

7.8

Vertical Roof Flue Kit 100/150

31.6

Twin Pipe Flue Kit (W45 & W60 only)*

Open Flue Kit 80

13.3

Open Flue Kit 100

* Maximum combined air and flue ducts

Fitting equivalent lengths (metres)

W45

W60

W80

1 metre extension 80/125

1.0

1 metre extension 100/150

1.0

45° elbow 80/125

1.1

45° elbow 100/150

1.2

90° elbow 80/125

1.6

90° elbow 100/150

2.0

1 metre extension 80 dia. (Twin duct type)

1.0

90° elbow 80 dia. (Twin duct type) Air tube

1.4

90° elbow 80 dia. (Twin duct type) Flue tube

2.1

45° elbow 80 dia. (Twin duct type) Air tube

0.4

45° elbow 80 dia. (Twin duct type) Flue tube

0.6

Flue Data

If the terminal is fitted less than 500mm below
plastic gutters, painted eaves or any other painted
surface then an aluminium shield at least 1m long
should be fitted to protect the surface.

may be reduced to 300 mm if a shield fitted

(1) An opening here means an openable element, such as an openable window, or a fixed opening such as an air vent. However, in addition, the outlet should not be nearer

than 150 mm (fanned draught) to an opening into the building fabric formed for the purpose of accommodating a built in element, such as a window frame.

Plus

Proprietary flue systems are available for use with this range. A

pressure of 100Pa is available at the flue outlet.

W Flue Designs

Flue designs are calculated against the maximum available

resistance using the flue data table on page 10. The examples

provided are given as a guide only, therefore a greater number of

variations can be obtained

Example of Calculating Flue Resistance/Lengths -

Horizontal Concentric Flue

Horizontal flue for W45 (80/125 dia.)

Part No.

Lengths (m)

Maximum equivalent length

9.5

Horizontal wall flue kit 80/125

158659

2 x 1m extension flue

152400

1 x 90° elbow

152616

1.6

Total length reduction

3.6

The total equivalent length reduction is 3.6 metres, which is less than the

maximum length possible of 9.5m. Therefore this arrangement is

satisfactory.

Example of Calculating Flue Resistance/Lengths -

Vertical Concentric Flue

Vertical Roof flue for W60 (80/125 dia.)

Part No.

Lengths (m)

Maximum equivalent length

7.5

Vertical flue kit 80/125

158654

2 x 1m extension flue

152400

2 x 45° elbows

152618

2.2

Total length reduction

4.2

The total equivalent length reduction is 4.2 metres, which is less than the

maximum length possible of 7.5m. Therefore this arrangement is

satisfactory.

flueing

Example of Calculating Flue Resistance/Lengths -

Open Flue

Open flue for W60 (80 dia.)

Part No.

Lengths (m)

Maximum equivalent length

13.3

Open flue kit 80

158662

Vertical flue terminal 80

158769

2 x 1m twin extension pipes 80

158771

2.0

2 x 45° elbows 80

158775

2.0

Total length reduction

4.0

The total equivalent length reduction is 4.0 metres, which is less than the

maximum length possible of 13.3m. Therefore this arrangement is

satisfactory and a longer flue length is possible if required.

Example of Calculating Flue Resistance/Lengths -

Twin Duct

Twin Duct for W45 & W60(80 dia.)

Part No.

Horizontal flue terminal 80

158777

Horizontal air terminal 80

158778

1m flue extension pipes 80 (pair)

158771

90° elbow 80

158773

Calculation

1. Air pipe length Y = 8.5m.

2. Refer to graph below and plot vertical line on air axis at 8.5m as shown.

Where vertical line intersects the bold W45 line, read off maximum

allowable flue length.

In this example maximum straight flue pipe length is 14m.

3. Bend allowance to be subtracted from flue length.

In this example is 2 x 90° bends = 2 x 3.5m = 7m.

Therefore X = 14 - 7 = 7 metres max. flue pipe.

W Flue Designs

Open Systems

The system should be vented directly off the boiler flow pipe, as

close to the boiler as possible. The cold feed entry should be

inverted and MUST be positioned between the pump and the vent,

and not more than 150mm (6") away from the vent connection.

There should be a minimum height, 500mm (20") of open vent

above the cistern water level. The vertical distance between the

highest point of the system and the feed/expansion cistern water

level MUST not be less than 3 metres.

The information provided is based on the following assumptions:

The boiler is at the highest point of the circulation system.

Systems designed to raise above the flow tappings will, of course,

automatically require a minimum static head higher than shown.

The position of the open vent/safety pipe above the expansion

cistern water level is given as a guide only. The final position will

depend upon particular characteristics of the system. Pumping over

of water into the expansion cistern should be avoided.

Cold Feed/Open Vent

The independent cold feed and the open vent must comply with

BS 6644 and be of the following minimum size:

Boiler output (kW)

Cold feed

Open vent

45 60

61 - 150

151 - 300

" (19mm)

1" (25mm)

" (32mm)

1" (25mm)

" (32mm)

" (38mm)

Sealed (Pressurised) Systems

Working pressure 4 bar (58psi) maximum.

Plus

Working pressure 6 bar (87psi) maximum.

Particular reference should be made to BS 6644: Section 2;

Subsection 11, Guidance note PM5 "Automatically controlled steam

and hot water boilers" published by the Health and Safety Executive

and Water Regulations Guide.

The information and guidance given below is not intended to

override any requirements of either of the above publications or the

requirements of the Local Authority, gas or water undertakings.

In general, commercial closed pressurised systems are provided

with either manual or automatic water make up.

In both instances it will be necessary to fit automatic controls

intended to protect the boiler circulating system and ancillary

equipment by shutting down the boiler plant if a potentially

hazardous situation should arise.

Examples of such situations are low water level and operating

pressure or excessive pressure within the system. Depending on

circumstances, controls will need to be either manual or automatic

reset. In the event of shut down, both visual and audible alarms may

be necessary.

Pressure vessels used must comply with BS 4814 and must

be sized on the basis of the total system volume and initial

charge pressure.

Initial minimum charge pressure should not be less than 0.5 bar

(7.2psi) and must take account of static head and specification of

the pressurising equipment. The maximum water temperatures

permissible at the point of minimum pressure in the system is

specified in Guidance Note PM5.

When make up water is not provided automatically it will be

necessary to fit controls which shut down the plant in the event of

the maximum system pressure approaching to within 0.35 bar (5psi)

of the safety valve setting.

Other British Standards applicable to commercial sealed

systems are:

BS 6880: Part 2

BS 1212

BS 6281: Part 1

BS 6282: Part 1

BS 6283: Part 4

* Plus only: For head heights less than 8m the pump must be
fitted on the return.

system requirements

System Design

The efficiency of this range of boilers is higher than conventional

boilers because of the increased heat exchange area.

At return temperatures of 55°C and below, the differences

become more marked because the water in the flue gases starts to

condense releasing its latent heat.

In general, the lower return temperature, the better the efficiency.

In new systems it is best to design for the lowest flow and return

temperatures that are practical (subject to the lower limit mentioned

above). For optimum operation it is advised that the system be

designed on a temperature differential of 20°C.

Installation

For safety, a competent CORGI (Council for the Registration of

Gas Installers) registered installer must fit this appliance. CORGI

requires its members to work to satisfactory standards.

Boiler installation should comply with relevant British Standard

Specifications, Codes of Practice, and current Building Regulations,

together with any special regional requirements of the Local

Authorities, Gas Supplier, and Insurance Company, and in particular:

BS 6891 Low Pressure Installation Pipes, BS 6644 Installation

of Gas Fired Boilers, BS 6880 Part 1-3 Central Heating by Low

Pressure Hot Water, CP 342.2 Centralised Hot Water Supply,

IGE/UP/10 Installation of Gas Appliances in Industrial & Commercial

Premises, Part 1: Flued appliances.

All electrical wiring must comply with lEE Regulations.

Manufacturer's notes must not be taken as overriding statutory

obligations.

Minimum clearances from walls or other fixed objects to allow

for installation, maintenance, and the free access of combustion air

are shown in the boiler clearance diagram.

Water Treatment

Corrosion will always occur within a heating/hot water system to

a greater or lesser degree irrespective of water characteristics, unless

the initial fill water from the mains is treated. For these reasons Ideal

Boilers Solutions strongly recommends that when necessary the

system be thoroughly cleaned prior to the use of a stable inhibitor

which does not require continual topping up to combat the effects of

hardness, salts and corrosion on the heat exchanger and its

associated systems.

The Ideal W & Plus boilers have an aluminium alloy

heat exchanger. Therefore it is important that if water treatment is

used it is suitable for the material of the heat exchanger. The ONLY

water treatments approved are `Fernox Copal' and `Sentinel X 100'.

Current suitability should be confirmed with the manufacturer direct:

BetzDearborn Ltd, Sentinel Division, Foundry Lane, Widnes,

Cheshire WA8 8UD Telephone: 0151 424 5351 or Fernox, Fry

Technology UK, Tandem House, Marlowe Way, Beddington Farm

Road, Croydon CRO 4XS Telephone: 01799 550811 for technical

information.

Any other treatment used will render the guarantee of Caradon

Ideal Limited for this product INVALID. The use of artificially

softened water is NOT permitted.

Gas

W & Plus

Natural Gas models: If there is any doubt concerning the

capacity of the gas meter, available gas pressure, adequacy of

existing pipes or the size required for new service pipes, contact the

Gas Region for advice. Installation pipework should be fitted and

tested for gas soundness in accordance with BS 6891. The local Gas

Region must be consulted if a gas pressure booster is needed.

W Only

Propane Gas models: Contact the local Propane Gas supplier at

the installation planning stage to ensure availability of an adequate

supply of gas. Installation pipes, cylinders and pressure regulators

should be fitted in accordance with BS 5482: 1. Bulk tank

installations must comply with the Home Office Codes of Practice for

the storage of LPG at fixed installations.

Ventilation

Open flued application

Safe, efficient, and trouble-free operation of conventionally flued

gas boilers is vitally dependent on the provision of an adequate

supply of fresh air to the room in which the appliance is installed.

Ventilation by grilles communicating directly with the outside air

is required at both high and low levels. The minimum free areas of

these grilles must be according to the scale below. The use of an

extractor fan in the same room as the boiler (or in an adjacent room

in communication) can, in certain conditions, adversely affect the

safe operation of the boiler. Where such a fan is already fitted, or if

an extractor fan is likely to be installed at a later date, then the

advice of the gas supplier should be obtained.

W45 & W60 Only

BS 5440: 2 - Inputs not exceeding 70kW (nett)

Total nett input

Air vent areas

rating of boilers

(air direct from outside)

Up to 70kW

5cm

per kW nett input

Total gross input

Position of

Air vent areas

rating of boilers

air vents

(air direct from outside)

270cm

plus 2.25cm

60kW to 2MW

High level

per kW in excess of

60kW total rated input

540cm

plus 4.5cm

60kW to 2MW

Low level

per kW in excess of

60kW total rated input

Balanced flue applications

Room sealed installations require no air for combustion as this is

drawn direct from the outside atmosphere. However, air may be

required to ventilate the boiler house and remove any excess heat

generated by the boiler.

W boilers have a standard range of balanced flues

available.

Plus boilers have an air inlet connection which may be

used with proprietary ducting if required. A separate flue connection

is still required.

W & Plus

BS 6644 - Inputs greater than 60kW (gross)

system requirements

Condensate Drain

Ideal boilers will produce condensate whenever the

temperature of the return water from the system is below

approximately 55°C (the dew point of the combustion products).

Natural Gas condensate is mildly acidic with a pH value of about

4 and therefore corrosion resistant materials must be used in the

construction of the condensate drain. Standard PVC pipe is suitable

for this purpose and should be connected to the plastic drain fitted

on the boiler.

A condensate trap is supplied for fitting to the boiler and the

drain may be led directly into the normal drainage system. The pipe

should be installed with an adequate slope (eg 1 in 50) and

consideration should be given to frost protection.

Plus

Pipework is supplied for fitting beneath the boiler and includes a

filling point for initial charging of a condensate siphon (not

supplied). The pipe should be installed with an adequate slope (eg 1

in 50) and consideration should be given to frost protection.

Plus Condensate Drain

Performance Data - W (45 - 80)

Model

W45 W45P

W60

W60P

W80

W80P

max

46.9

45.9

62.3

60.6

82.7

80.0

Boiler output (condensing)

Btu/h

160,000

156,000

212,560

206,750

282,170

272,950

50/30°C

min

13.9

13.7

13.9

13.6

21.3

20.7

Btu/h

47,600

46,600

47,600

46,400

72,700

70,600

max

43.7

58.9

78.2

Boiler output (non-condensing)

Btu/h

149,000

200,960

266,800

80/60°C

min

12.6

19.5

Btu/h

43,000

66,500

max

Boiler input (Nett)

Btu/h

153,540

204,720

272,960

min

Btu/h

44,350

68,240

max

49.9

48.9

66.5

65.1

88.7

86.9

Boiler input (Gross)

Btu/h

170,250

166,850

227,000

222,300

302,700

296,350

min

14.4

14.1

14.4

14.1

22.2

21.7

Btu/h

49,150

48,150

49,150

48,150

75,650

74,100

Gas rate

Natural Gas

4.76

6.35

8.46

166

222

296

Gas rate

Propane

1.84

2.45

3.27

115

Approx flue gas volume

Natural Gas

0.02

0.027

0.036

(non condensing) max rate

/min

42.33

57.67

Approx flue gas volume

Propane

0.019

0.026

0.034

(non condensing) max rate

/min

54.67

72.33

Seasonal efficiency *(SEDBUK)

90.4

91.3

90.4

92.1

90.2

91.6

Note: Gas rates are calculated using a C.V. of 37.8 MJ/m

gross (34 MJ/m

nett) for Natural Gas or 95.7 MJ/m

for Propane.

* The value is used in the UK Government's Standard Assessment Procedure (SAP) for energy rating of dwellings.

General Data - W (45 - 80)

Model

W45 & W45P

W60 & W60P

W80 & W80P

Flow connection

BSP

Return connection

BSP

Maximum static water head

40.79

133.83

Maximum pressure

Bar

4.0

psi

Gas inlet connection

Pressure required at the boiler inlet

mbar

17.5

for the rated input (Natural Gas)

in. w.g.

7.0

Electricity supply

230V 50Hz

Nominal flue size / concentric

80 / 125

100 / 150

Nominal flue size / twin pipe

80 / 80

100 / 100

Condensate drain

NOx emissions

mg / kW / hr

ppm (0% O

)

Water content

gal

1.76

2.20

Weight

101

191

194

222

Power consumption

120

general & performance data

Performance Data - Plus (80 - 280)

Model

F80

F120

F160

F200

F240

F280

max

83.9

125.9

167.8

209.8

251.8

293.7

Boiler output (condensing)

Btu/h

286,300

429,600

572,550

715,850

859,200

1,002,150

Mean 50/30°C

min

13.0

Btu/h

44,350

max

77.3

116.0

154.6

193.2

231.8

270.5

Boiler output (non-condensing)

Btu/h

263,750

395,800

545,950

659,250

818,900

923,000

Mean 80/60°C

min

11.6

Btu/h

39,600

Nett

120

160

200

240

280

Boiler input maximum rate

Btu/h

272,950

409,450

545,950

682,450

818,900

955,400

Gross

88.8

133.2

177.6

222.0

266.4

310.8

Btu/h

303,000

454,500

606,000

757,500

909,000

1,060,500

Nett

Boiler input minimum rate

Btu/h

40,950

Gross

13.3

Btu/h

45,400

Gas rate

Natural Gas

8.42

12.63

16.83

21.04

25.26

29.46

297

446

594

743

892

1040

Approx flue gas volume

Natural Gas

130

196

261

326

392

457

(non condensing) max rate

/min

4,590

6,920

9,220

11,510

13,840

16,140

Note: Gas rates are calculated using a C.V. of 37.8 MJ/m

gross (34 MJ/m

nett) for Natural Gas.

General Data - Plus (80 - 280)

Model

F80

F120

F160

F200

F240

F280

Flow connection

BSP

R2"

Return connection

BSP

R2"

Maximum static water head

200

Maximum pressure

Bar

psi

Gas inlet connection

BSP

Pressure required at the boiler inlet

mbar

15.0

for the rated input (Natural Gas)

in. w.g.

6.0

Electricity supply

230V 50Hz

Nominal flue size

150

200

Nominal air inlet size

150

Condensate drain

NOx emissions

mg / kW / hr

< 62

ppm (0% O

)

< 35

Water content

10.1

14.2

18.3

22.4

26.5

30.6

gal

2.22

3.13

4.03

4.93

5.84

6.74

Weight

125

170

215

260

305

345

276

375

474

573

673

761

Power consumption

175

250

325

400

475

550

Plus Boiler Dimensions

Model

120

160

200

240

280

Modules No. off

695

832

968

1102

1236

150

200

Weight

153

182

223

261

301

345

Connections

Gas

G : 1

Flow

M : 2"

Return

R : 2"

Condensate Drain

S : ø40

Plus Boiler House Clearances

The following minimum clearances must be maintained for operation and servicing:

· Rear of boiler

- 300mm; except with rear flue 600mm.

· Sides of boiler

- 50mm; except with side flue 600mm or pipework side 300mm.

· Front of boiler

- 700mm; except compartment access doors may be closer, but not less than 200mm, and 700mm must still be

available for service across the full width of the boiler.

· Between multiple boilers - 50mm; however due consideration must be respected for electrical connections, side pipework and flues if

located between boilers.

100 150 200

600

800

1000

1500

3500

136

340 511 682

2047

2729

3412

5118

11942

Boiler output

Concord CXS/H, CXSD/H

Concord CXSi/H, CXDi/H

Concord ES/H

Concord Modular

Concord Super Series 4

Buccaneer GTE

Falcon GTE

Harrier GTE

Viceroy GT

Viscount GTE

Vanguard L

Btu/h (000)

Concord CXA/H

40-120

80-280

110-180

140-380

80-720

50-600

45-80

Concord Super Plus

200-600

21-39

36-102

105-330

300-780

754-1450

130-3500

Buccaneer / Falcon
Combination Boilers

Senator Calorifiers

21-64

150-1000 litres

Atmospheric Boilers

High Efficiency Boilers

Pressure Jet Boilers

Hot water solutions

Ideal Boilers Limited, PO Box 103, National Avenue, Kingston upon Hull HU5 4JN.
www.idealcommercialboilers.com email: commercial_heating@idealboilers.com

Imax/1/04

Issued subject to standard conditions

Assurance of quality
BS EN ISO 9001: 2000

Contact Numbers

Sales

Tel:

01482 498690

Fax:

01482 498621

Technical

Tel:

01482 498376

Fax:

01482 498621

Training

Tel:

01482 498432

Fax:

01482 498605

Approval
These appliances are certified to
G.A.D. 90/396 and B.E.D. 92/42
safety and performance Directives
for gas boilers.

Ideal Boilers pursues a policy of
continuous improvement in design
and performance of its products
and reserves the right to vary
specification without notice.
Statutory rights of the consumer
are not affected.

Condensing Boilers

GT Condenser

180-990

Plus

Concord CXC

49-116

The Ideal Commercial Range