Grant 50/70, 200/240, 50/90, 90/120, 120/155 User, Installation And Servicing Instructions

USER, INSTALLATION

and

SERVICING INSTRUCTIONS

Vortex Condensing Oil Boilers

For use with Kerosene only

Part No. IRL 003 Rev. 02 May 2010

Indoor/Utility, System and Boiler House Models

with outputs up to 240,000 Btu/h

This appliance is deemed a controlled service and specific regional statutory

requirements may be applicable.

After installing the boiler leave these instructions with the User

IMPORTANT NOTICE

This appliance must be commissioned upon installation, the information recorded and returned to

Grant Engineering (Ireland) Ltd., using the form contained within the boiler passport provided.

Failure to do so may invalidate the warranty.

EFFIC IENT HEATIN G SO LUTION S

GRANT

2

Grant Vortex Indoor/Utility, System and Boiler House Oil Boilers

Subject PageSection

1 Introduction .............................................. 3

2 User instructions ...................................... 4

3 Boiler technical information .................... 7

4 General boiler information....................... 11

5 Condensate disposa; ................................. 27

6 Boiler installation ..................................... 30

7 Commissioning and Boiler passport ........ 35

8 Information for the user ........................... 38

9 Boiler servicing ........................................ 38

10 Wiring diagrams ....................................... 42

11 Fault finding ............................................. 46

12 Boiler spares ............................................ 48

13 Burner spares ........................................... 49

14 Health and safety information .................. 51

15 EC declaration of conformity .................. 52

LIST OF CONTENTS

3

Grant Vortex Indoor/Utility, System and Boiler House Oil Boilers

During the combustion process, hydrogen and oxygen
combine to produce heat and water vapour. The water
vapour produced is in the form of superheated steam in
the heat exchanger. This superheated steam contains
sensible heat (available heat) and latent heat (heat
locked up in the flue gas). A conventional boiler
cannot recover any of the latent heat and this energy is
lost to the atmosphere through the flue.

The Grant Vortex condensing boiler contains an extra
heat exchanger which is designed to recover the latent
heat normally lost by a conventional boiler. It does this
by cooling the flue gases to below 90° C, thus
extracting more sensible heat and some of the latent
heat. This is achieved by cooling the flue gases to their
dew point (approximately 55° C).

To ensure maximum efficiency, the boiler return
temperature should be 55° C or less, this will enable
the latent heat to be condensed out of the flue gases.
The boiler will achieve nett thermal efficiencies of
100%.

To achieve maximum performance from the Grant
Vortex boiler, it is recommended that the heating
system is designed so that a temperature differential of
20° C between the flow and return is maintained. The
use of modulating circulating pumps (now widely
available) and effective control systems should be
considered.

The Grant Vortex boiler will however still operate at
extremely high efficiencies even when it is not in
condensing mode and therefore is suitable for fitting to
an existing heating system without alteration to the
radiator sizes. The boiler is capable of a maximum
flow temperature of 75° C.

How a condensing boiler works

1.1

Heating system design considerations

1.2

To achieve the maximum efficiencies possible from
the Grant Vortex boiler, the heating system should be
designed to the following parameters:

Radiators:-

Flow temperature 70° C

Return temperature 50° C

Differential 20° C

Underfloor:-

Flow temperature 50° C

Return temperature 40° C

Differential 10° C

1 Size radiators with a mean water temperature of

60° C.

2 Design system controls with programmable room

thermostats or use weather compensating controls
to maintain return temperatures below 55° C.

The boiler should not be allowed to operate with
return temperatures of less than 40° C when the
system is up to operating temperature.

3 The use of a pipe stat is recommended to control

the return temperature when using weather
compensating controls.

1 - INTRODUCTION

4

Grant Vortex Indoor/Utility, System and Boiler House Oil Boilers

2 - USER INSTRUCTIONS

The boiler is fully automatic once switched on, providing
central heating (and also heating your domestic hot water
if you have a hot water cylinder fitted).

A 'mains on' neon, see Fig. A, lights when the boiler is
switched on, but does not necessarily indicate the burner
is firing.

To gain acces to the controls, pull the front panel
forward at the top to disengage the fixing clips then lift
it up and off the boiler. To replace locate the bottom of
the panel over the fixing tags then push it towards the
boiler to engage the fixing clips.

Fig. A Boiler controls (Indoor/Utility model shown)

About your boiler

2.1

Boiler controls (see Fig. A)

2.2

1 Ensure that - There is sufficient fuel, of the correct

type, in the supply tank and all fuel supply valves are
open. The water supply is on. The electricity supply
to the boiler is off. The boiler On/Off switch is set to
OFF. The room thermostat (if fitted) is at the desired
setting. The boiler thermostat is set to the required
setting (see Section 2.7).

2 Switch on the electricity supply to the boiler.

3 Set the On/Off switch to ON and, if fitted, the

programmer (CH or HW) to ON.

The boiler will now light automatically.

4 If you have a programmer fitted, refer to the

instructions supplied with the programmer and set the
programmer. Set the HW and CH functions to TIMED.
The boiler will now operate during the 'on' periods set
on the programmer.

Lighting your boiler (see Fig. A)

2.3

Pressure gauge

(System models only)

Boiler

thermostat

Overheat

thermostat

reset button

(under cover)

On/Off
switch

OVERHEAT

RESET

SYSTEM PRESSURE

HEATING

TEMPERATURE

OVERHEAT

RESET

BOILER

OFF

ON

HEATING

TEMPERATURE

ON

BOILER

OFF

Lock-out

button

Front panel removed

(pull forward at top, then lift off)

Front panel

fixing clips

Front panel bottom locating tags

GR

AN

T

Mains On

neon

5

Grant Vortex Indoor/Utility, System and Boiler House Oil Boilers

For short periods - Set the On/Off to OFF.
To restart, simply set the switch to ON.

For long periods: Set the On/Off switch to OFF and
switch off the electricity supply to the boiler. If
required, the fuel supply valve may be closed and the
water and electricity supplies turned off at the mains.

To restart, refer to the full lighting instructions given
in Section 2.3.

1 Check that the boiler On/Off switch is ON.

2 Check that the programmer (if fitted) is working

and is in an 'on' period.

3 Check that all thermostats are set to the desired

setting and are calling for heat.

4 Check if the burner 'Lock-out' reset button (on the

burner) is lit. If it is, press it to start the burner. If
the burner fails to light and goes to 'Lock-out'
again, check that you have sufficient fuel in the
storage tank and that the fuel supply valve is open.
Check that the fire valve in the oil supply line has not
tripped

5 Ensure that a fuse has not blown or that the

electricity supply has not failed.

6 Check to see if the safety thermostat has operated

(see Section 2.7).

If the burner still fails to light after carrying out these
checks then a fault exists. Switch off the electricity
supply to the boiler and contact your Service engineer.

Grant Vortex boilers only operate on Class C2 Kerosene
to BS 2869:1998.

You should always quote this type of fuel when ordering
from your supplier.

Do not wait until the fuel runs out before you order
some more. Sludge in the bottom of the tank may be
drawn into the fuel lines. If it is possible, switch off the
boiler when the new supply is delivered and leave the
fuel to settle for an hour before restarting the boiler.

2 - USER INSTRUCTIONS

1 Boiler thermostat - This control allows the

temperature of the water leaving the boiler to heat
the radiators and domestic hot water to be adjusted.

Note: If you have a cylinder thermostat on your hot
water cylinder, this will control the temperature of
your domestic hot water. The boiler thermostat
setting must be equal to or above the cylinder
thermostat setting to enable the cylinder thermostat
to control the domestic hot water system.

2 Burner Lock-out reset button - If there is a

burner malfunction, a built-in safety circuit
switches the burner off and the 'Lock-out' reset
button (on the burner) will light. Usually such
malfunctions are short lived and pressing the reset
button will restore normal operation.

If the burner continually goes to 'Lock-out' a fault
exists or the fuel supply is low. If you have sufficient
fuel, you will need to call your Service engineer.

3 Safety thermostat - Your boiler is fitted with a safety

overheat thermostat which will automatically switch
off the boiler in the case of a control malfunction
causing overheating.

If your boiler goes off and you try to light it but
nothing happens and the 'Lock-out' reset button on the
burner is not lit, the overheat thermostat has probably
operated. The boiler will not light until the thermostat
is reset. To reset, unscrew the small plastic cap (see
Fig. A), press the button then replace the cap.

If this condition continually repeats, contact your
Service engineer.

4 Programmer (if fitted) - Refer to the instructions

supplied with the Programmer.

5 Ventilation - Always ensure that the boiler has

adequate ventilation. Any ventilation openings
provided by the Installer must not be obstructed.
Periodically check that they are clear.

Do not attempt to 'box in' the boiler or build a
compartment around it before consulting your
Installer.

Do not place any combustible material around or
on the boiler or flue pipe.

6 Flue terminal - The flue terminal on the outside

wall must not be obstructed or damaged.

In severe conditions check that the terminal does
not become blocked by snow.

Turning off your boiler (see Fig. A)

2.4

Points to check if burner fails to light

2.5

About your fuel

2.6

General notes and care of your system

2.7

6

Grant Vortex Indoor/Utility, System and Boiler House Oil Boilers

7 Frost protection - Your Installer may have fitted a

frost thermostat. If not, and you are likely to be
away for a short time, leave the boiler on with the
boiler thermostat set at a low setting. For longer
periods the boiler and system should be drained.
Contact your Service engineer for draining and
filling the system.

8 Cleaning and servicing - Lightly wipe over the

case with a damp cloth and a little detergent. Do
not use abrasive pads or cleaners.

You must have your boiler serviced at least once a
year to ensure safe and efficient operation. Contact
your Service engineer for further details.

9 Failure of electricity supply - If the electricity

supply fails, the boiler will not operate. It should
relight automatically when the supply is restored.

If a programmer is fitted it will retain the time
settings for up to 24 hours and will not have to be
reset to the correct time of day when the supply is
restored (the display remains for up to 1 hour, but
will re-appear when the supply is restored).

The boiler requires a 230/240 V ~ 50 Hz supply. It
must be protected by a 5 Amp fuse.

Warning: This appliance must be earthed.

If your boiler is operating on a sealed heating system,
the installer will have pressurised the system and
should have told you (or set it on the pressure gauge)
the system pressure when cold (this is normally
between 0.5 and 1.0 bar, which will increase slightly
when hot). If the pressure (when cold) is below the set
pressure mentioned above, you can re-pressurise the
system. If the system requires frequent re-pressurising,
ask your Installer or Service engineer to check the
heating system for leaks and to check the expansion
vessel air charge.

The boiler or system will be fitted with an automatic air
vent to remove air from the system. Any air trapped in the
radiators should be removed by venting the radiators
using the vent screw at the top of each radiator. Only vent
a radiator if the top is cool and the bottom is hot.
Excessive venting will reduce the system pressure, so
only vent when necessary and check the system pressure
as mentioned above. Re-pressurise the system if necessary.

2 - USER INSTRUCTIONS

The boiler or system may be fitted with a safety valve
to release excess pressure from the system. If water or
steam is emitted from the end of the safety valve
discharge pipe, switch off the boiler and contact your
Installer or Service engineer.

The expansion vessel air charge must be checked
annually. Failure to maintain an adequate air
charge in the vessel may invalidate the warranty.

To re-pressurise the system by adding water:

1 Only add water to the system when it is cold and

the boiler is off. Do not overfill.

2 Ensure the flexible filling loop (see Fig. B) is

connected and that the shut off valve connecting it
to the boiler is open and the double check valve at
the front is closed.
A valve is open when the operating lever is in line with
the valve, and closed when it is at right angles to it.

3 Gradually open the double check valve on the front

of the filling loop until water is heard to flow.
When the black needle of the pressure gauge is
between 0.5 and 1 bar, close the valve.

4 Vent each radiator in turn, starting with the lowest

one in the system, to remove air.

5 Continue to fill the system until the pressure gauge

indicates between 0.5 and 1.0 bar. Close the fill
point valve.

6 Repeat steps 4 and 5 as required.

7 Close the valves either side of the filling loop and

disconnect the loop.

Electricity supply

2.8

Sealed central heating system

2.9

Sealed system filling loop arrangement - Fig. B

7

Grant Vortex Indoor/Utility, System and Boiler House Oil Boilers

125 mm (5 in)**

150

6.4

1.2

22 mm (only connect plastic pipe)

26.0 mbar

9.5 mbar

28 m

1m

65 to 75° C

111° C ± 3° C

Less than 50° C

230/240 V ~ 50 Hz Fused at 5 Amp

¼" BSP Male (on end of flexible fuel hose)

Minimum flue draught - 8.7 N/m² (0.035 in wg)

Maximum flue draught - 37 N/m² (0.15 in wg)

2.5 bar

2.5 bar

90

2.6

0.85

125 mm (5 in)**100 mm (4 in) 100 mm (4 in)

Boiler technical data

3.1

3- BOILER TECHNICAL INFORMATION

Model

Water content litre

gal

* Weight (dry) kg

Max. heat output kW

(kerosene) Btu/h

Flow connection

Return connection

Min. flow rate (∆T=10°C) l/h

Min. flow rate (∆T=20°C) l/h

Condensate connection

Flue diameter (conventional)

Waterside resistance

Flow/Return temp. diff. of 10°C

Flow/Return temp. diff. of 20°C

Maximum static head

Minimum circulating head

Boiler thermostat range

Limit (safety) stat shut off temp

Max. hearth temperature

Electricity supply

Motor power Watts

Starting current Amps

Running current Amps

Oil connection

Conventional flue

Max operating press - sealed sys

Max operating press - open sys

* Weight includes burner but excludes flue.
** 125 mm diameter flue required for flexible flue liner (Orange system). Refer to Sections 4.1 and 4.7 for further details.

Indoor/Utility

System

90

2.6

0.85

90

2.6

0.85

150

6.4

1.2

90

4.2

0.85

50/90

19

4.2

126.5

26

88,700

22 mm

22 mm

2,200

1,100

90/120

21

4.7

142

36

122,840

28 mm

28 mm

3,000

1,500

120/155

21

4.7

142

46

157,000

28 mm

28 mm

4,000

2,000

50/70

16.5

3.6

70

21

71,650

22 mm

22 mm

90

4.2

0.85

200/240

50

11

299

70

238,840

1¼"BSP

1¼"BSP

6,000

3,000

155/200

50

11

295

58

197,896

1¼"BSP

1¼"BSP

5,200

2,600

120/155

21

4.7

134

46

157,000

28 mm

28 mm

4,000

2,000

90

4.2

0.85

90/120

21

4.7

134

36

122,840

28 mm

28 mm

3,000

1,500

50/90

19

4.2

112

26

88,700

22 mm

22 mm

2,200

1,100

50/90

19

4.2

116

26

88,710

1"BSP

1"BSP

2,200

1,100

90/120

21

4.7

133

36

122,840

1"BSP

1"BSP

3,000

1,500

120/155

21

4.7

46

157,000

1"BSP

1"BSP

4,000

2,000

155/200

50

11

249

58

197,896

1¼"BSP

1¼"BSP

5,200

2,600

200/240

50

11

253

70

238,840

1¼"BSP

1¼"BSP

6,000

3,000

Boiler House

133

90

4.2

0.85

8

Grant Vortex Indoor/Utility, System and Boiler House Oil Boilers

3 - BOILER TECHNICAL INFORMATION

Note: Grant Vortex boilers are only for use with kerosene.

Grant Vortex oil boilers using Class C2 kerosene

3.3

(kW)

15.0

18.3

21.0

15.0

20.0

23.0

26.0

26.0

31.5

36.0

36.0

41.5

46.0

46.0

52.0

58.0

58.0

64.0

70.0

(Btu/h)

51 200

62 400

71 650

51 180

68 240

78 475

88 700

88 700

107 500

123 000

123 000

142 000

157 000

156 952

177 424

197 896

197 896

218 368

238 840

Nozzle

0.50/80°EH

0.55/80°EH

0.60/80°EH

0.50/80°EH

0.60/80°EH

0.65/80°EH

0.75/80°EH

0.75/80°EH

0.85/80°EH

1.00/80°EH

1.00/80°EH

1.20/80°S

1.25/80°S

1.25/80°S

1.35/80°S

1.65/80°S

1.65/80°S

1.65/80°S

1.75/80°S

Oil

press.

(bar)

7.0

7.5

9.0

7.0

8.0

8.5

8.0

8.0

9.0

9.1

9.0

8.0

8.0

8.0

9.5

8.0

8.0

9.5

9.5

Smoke

No.

0 - 1

0 - 1

0 - 1

0 - 1

0 - 1

0 - 1

0 - 1

0 - 1

0 - 1

0 - 1

0 - 1

0 - 1

0 - 1

0 - 1

0 - 1

0 - 1

0 - 1

0 - 1

0 - 1

Fuel flow

rate

(kg/h)

1.29

1.56

1.83

1.25

1.67

1.94

2.16

2.18

2.57

3.01

3.01

3.56

3.90

4.01

4.47

5.05

5.05

5.58

6.01

Flue gas

temp.

(° C)

60 - 65

65 - 70

70 - 75

75 - 80

65 - 70

70 - 75

75 - 80

75 - 80

80 - 85

85 - 90

75 - 80

75 - 80

75 - 80

75 - 80

75 - 80

75 - 80

CO

2

(%)

12.0

12.0

12.0

12.0

12.0

12.0

12.0

12.0

12.0

12.0

12.0

12.0

12.0

12.0

12.0

12.0

12.0

12.0

12.0

Burner

head type

T1

T1

T1

T1

T1

T2

T2

T3

T3

T3

T5

T5

T5

GIB

GIB

GIB

GIB

GIB

GIB

Heat Output

50/70

Riello RDB2.2

50/90

Riello RDB1

90/120

Riello RDB2

120/155

Riello RDB2.2

155/200

Riello RDB3.2

200/240

Riello RDB3.2

Model and

burner type

Sealed system data - System models (not 50/70, 155/200 and 200/240)

3.2

Heating system pressure (cold)

Operating pressure of pressure relief valve

Expansion vessel size (50/90)

Expansion vessel size (90/120)

Expansion vessel size (120/155)

Max heating system volume (including boiler) (50/90)*

Max heating system volume (including boiler) (90/120)*

Max heating system volume (including boiler) (120/155)*

Cold water mains connection

Pressure relief valve discharge connection

Maximum 1.0 bar, Minimum 0.5 bar

2.5 bar

10 litres (pre-charged at 1 bar)

12 litres (pre-charged at 1 bar)

16 litres (pre-charged at 1 bar)

106 litres (approximately)

128 litres (approximately)

170 litres (approximately)

15 mm copper pipe

15 mm copper pipe

* Based on vessel charge and system cold fill pressure of 0.5 bar

SEDBUK
efficiency

(%)

93

95.0

97.0

92.6

94.1

93.6

Disc setting B

Disc setting C

Disc setting C

Fixed

Fixed

Fixed

Fixed

Fixed

Fixed

Fixed

Fixed

Fixed

Fixed

Head setting 0

Head setting 0

Head setting 0

Head setting 0

Head setting 0

Head setting 4

Burner

head/disc

setting

*

*

*

*

*

*

Notes:

1 The data given above is approximate only.
2 The above settings may have to be adjusted on site for the correct operation of the burner.
3 Gas Oil is not suitable for use with the Grant Vortex boiler range.
4 The net flue gas temperatures given above are ± 10%.
5 When commissioning the air damper must be adjusted to obtain the correct CO2 level.
6 * = Factory settings
7 The combustion door test point may be used for CO2 and smoke readings only. Do not use this test point for temperature or efficiency readings.
8 When setting the 50/70 to 15 kW output the burner air adjuster disc requires repositioning. Refer to Section 7 Commissioning.

When setting the 50/90 to 15 or 20 kW output the combustion head must be changed. Refer to Section 9.4 Cleaning the burner.
When setting the 200/240 to 70 kW output the combustion head setting must be changed. Refer to Section 9.4 Cleaning the burner.

9 The installer must amend the boiler data label if the output is changed.

Flue gas analysis

To allow the boiler to be commissioned and serviced, the boiler is supplied with a combustion test point on the front cleaning door. When this
test point is used please note the following:

1. The test point is for CO2 and smoke readings only.

2. The boiler efficiency and temperature must be taken from the flue test point on high level and vertical flue adaptors.

3. Low level flues do not contain a test point. The temperature and efficiency readings must be taken from the flue terminal.

9

Grant Vortex Indoor/Utility, System and Boiler House Oil Boilers

REAR

VIEW

348

21070

140

855

688

760

RIGHT SIDE

VIEW

200

19

47
25

125

594

766

805

704

17

R/H flow

R/H return

L/H flow
L/H return

LEFT SIDE

VIEW

111

566

Flue centre line

Alternative
condensate
drain outlets

3 - BOILER TECHNICAL INFORMATION

Fig. 1b - 50/90 Indoor/Utility and System dimensions

Fig. 1a - 50/70 Indoor/Utility dimensions

Boiler dimensions

3.4

Fig. 1c - 50/90 Boiler House dimensions

Alternative
condensate
drain outlets

FRONT VIEW

470

860

LEFT SIDE

VIEW

814

760

710

587

352

18

17

115

30

Flue centre line

RIGHT SIDE

VIEW

PLAN VIEW

603

110

Safety valve (System)
Cold fill (System)
Flow

170

Flue
spigot

Condensate
drain outlet

FRONT VIEW

PLAN VIEW

Return

RIGHT SIDE

VIEW

431

600

632

690

714

327

195

30

LEFT SIDE

VIEW

Condensate
drain

88

35

Flow

10

Grant Vortex Indoor/Utility, System and Boiler House Oil Boilers

3 - BOILER TECHNICAL INFORMATION

FRONT VIEW

PLAN VIEW

Return

LEFT SIDE

VIEW

Flow

RIGHT SIDE

VIEW

Condensate
drain

A

B

C

D

E

F

G

H

J

Dimension

A
B
C
D
E
F

G

H
J

90/120, 120/155

705
460
600
560
605
191

30

330

90

155/200, 200/240

1022

540
868
835
938
285

30
415
115

Boiler House model

Fig. 1d - 90/120, 120/155, 155/200, 200/240 Boiler House dimensions

Fig. 1e - 90/120, 120/155 Indoor/Utility and System dimensions

Fig. 1f - 155/200, 200/240 Indoor/Utility dimensions

Safety valve (System)
Flow (System)
Cold fill

61

170

61

LEFT SIDE

VIEW

455

555

455

24

115

63

63

Flue centre line

RIGHT SIDE

VIEW

PLAN VIEW

603

150

FRONT VIEW

470

900

205
Flue
spigot

Alternative
condensate
drain outlets

Condensate
drain outlet

170

LEFT SIDE

VIEW

731

831

1024

25

30

109

250

Flue centre line

RIGHT SIDE

VIEW

PLAN VIEW

786

109

FRONT VIEW

563

1234

225
Flue
spigot

Alternative
condensate
drain outlets

Condensate
drain outlet

11

Grant Vortex Indoor/Utility, System and Boiler House Oil Boilers

4 - GENERAL BOILER INFORMATION

Boiler description

4.1

White system ...... High level and vertical concentric

balanced flue kit - components available:

Extensions 225 mm, 450 mm, 950 mm, adjustable
275 to 450 mm and 45° elbow
Vertical concentric balanced flue kit
Extensions 225 mm, 450 mm, 950 mm, adjustable
275 to 450 mm and 45° elbow

All burners are pre-set for use with kerosene and are
supplied ready to connect to a single pipe fuel supply
system with a loose flexible fuel line and 3/8" to 1/4" BSP
male adaptor supplied with the boiler.

If required, an additional flexible fuel line (600 mm) and

3

/8" to 1/4" BSP male adaptor are available to purchase

from your local stockist, for two-pipe oil supply systems.

The temperature of the water leaving the boiler to heat
the radiators and hot water cylinder is User adjustable.

The boiler is fitted with an overheat thermostat (which
allows it to be used on a sealed central heating system) which
will automatically switch off the boiler if the heat exchanger
exceeds a pre-set temperature of 111° C ± 3° C.

The control panel is fitted with an ON/OFF switch,
boiler thermostat control knob and the manual reset
button for the overheat thermostat.

Boiler components

4.2

The Grant Vortex range of automatic pressure jet oil
boilers have been designed for use with a fully pumped
central heating system with indirect domestic hot water
cylinder. They are not suitable for use with either a direct
cylinder or a 'primatic' cylinder or gravity hot water..

The boilers are suitable for use on open vented or
sealed central heating systems. System models are
supplied with the necessary components factory fitted.
See Section 4.13.

All models are supplied with the control panel and
burner factory fitted.

The boilers can be connected to either a conventional
flue system or a balanced flue system, as required.

For Conventional flue applications where a chimney is
to be lined - Grant recommends the use of the Grant
‘Orange’ flue system, specifically designed for the
Vortex range of condensing boilers. Refer to Section

4.7 for further details.

Important: The flue system materials and construction
MUST be suitable for use with oil-fired condensing

boilers. Failure to fit a suitable conventional flue may
invalidate the warranty on the boiler.

Fitting instructions for the Low level concentric, High level
and Vertical balanced flue kits are supplied with the kits.
Where a balanced flue system is required, the following
flue kits are available from your local stockist.
Refer to Section 4.8 for further details.

Yellow system..... Standard low level concentric

balanced flue - components available:

Low level concentric balanced flue short
Extensions 225 mm, 450 mm and 675 mm
90° extension elbow
45° extension elbow
45° elbow

Where it is not possible to terminate the low level flue
at low level, a plume diverter kit is available for fitting
to the low level flue. The plume diverter kit diverts the
flue gases up and terminates at a higher level. When
fitting the plume diverter kit, follow the instructions
supplied with the kit. See Fig. 10b.

12

Grant Vortex Indoor/Utility, System and Boiler House Oil Boilers

The installation should also be in accordance with the
latest edition of the following British Standard Codes
of Practice:-

BS 715 Metal flue pipes, fittings, terminals

and accessories.
BS 799:5 Oil storage tanks.
BS 1181 Clay flue linings and flue terminals.
BS 4543:3 Factory made insulated chimneys for

oil fired appliances.
BS 4876 Performance requirements for oil

burning appliances.
BS 5410:1 Code of Practice for oil firing appliances.
BS 5449 Forced circulation hot water systems.
BS 7593 Code of Practice for treatment of

water in heating systems.
BS 7671 Requirements for electrical

installations, IEE Wiring Regulations.

Failure to install and commission appliances
correctly may invalidate the boiler warranty.

IMPORTANT

Before starting any work on the boiler, or fuel supply
please read the health and safety information given in
Section 14 on page 51.

4.4.1 Fuel storage

The tank should be positioned in accordance with the
recommendations given in BS 5410:1:1997, which gives
details of filling, maintenance and protection from fire.

A steel tank may be used and must be constructed to
BS 799:5:1987 and OFS T200.

A galvanised tank must not be used.

A plastic tank may be used and must comply with
OFS T100.

Note: Plastic tanks should be adequately and
uniformly supported on a smooth level surface, across
their entire base area.

Fuel supply

4.4

Installation of a Grant Vortex boiler must be in
accordance with the following recommendations:-

a Local Building Regulations and the Building

Standards issued by the Department of the
Environment and any local Byelaws etc.

b Model and local Water Undertaking Byelaws.

c Applicable Control of Pollution Regulations.

d The following OFTEC requirements:-

OFST 100 Polythene oil storage tanks for

distillate fuels.

OFST 200 Fuel oil storage tanks and tank

bunds for use with distillate fuels,
lubrication oils and waste oils.

Further information may be obtained from the
OFTEC Technical Information Book 3
(Installation requirements for oil fired boilers
and oil storage tanks).

4 - GENERAL BOILER INFORMATION

Regulations to comply with

4.3

Regional statutory requirements may deem this appliance to be a 'controlled service'.

Where this is the case, it is a legal requirement that the appliance is installed and

commissioned either under the remit of building control or by a 'Competent person' such

as a suitably qualified Oftec registered technician.

Fig. 2 - System model (Also refer to Fig. 15)

SYSTEM PRESSURE

10508

HEATING

TEMPERATURE

OVERHEAT

RESET

BOILER

OFF

Expansion
vessel

Air supply
tube

Lock-out
button

Burner

Pump

Pump
isolating
valves

Condensate
trap

Drain tap

13

Grant Vortex Indoor/Utility, System and Boiler House Oil Boilers

4 - GENERAL BOILER INFORMATION

4.4.2 Fuel pipes

1 Fuel supply pipes should be of copper tubing with

an external diameter of at least 10 mm.
Galvanised pipe must not be used.
All pipe connections should preferably use flared
fittings. Soldered connections must not be used on
oil pipes.

2 Flexible hoses must not be used outside the boiler case.

3 A remote sensing fire valve must be installed in the

fuel supply line (outside) where it enters the building,
with the sensing head located above the burner.
Recommendations are given in BS 5410:1:1997.

4 A metal bowl type filter with a replaceable micronic

filter must be fitted in the fuel supply line adjacent to
the boiler. A shut-off valve should be fitted before the
filter, to allow the filter to be serviced.

5 A flexible fuel hose, adaptor and 1/4" BSP isolation

valve are supplied loose with the boiler for the final
connection to the burner. If a two pipe system or
'Tiger Loop' type de-aerator is used, an additional
flexible fuel hose (600 mm) and 3/8" to 1/4" BSP male
adaptor are available to purchase from your local
stockist.

6 Metal braided flexible hoses should be replaced

annually when the boiler is serviced. Long life
flexible hoses should be inspected annually and
replaced at least every 60 months.

4.4.3 Single pipe system - (See Fig. 3)

1 Where the storage tank outlet is above the burner

the single pipe system should be used. The height
of the tank above the burner limits the length of
pipe run from the tank to the burner.

2 As supplied the burner is suitable for a single pipe

system.

4.4.4 Two pipe system - (See Fig. 4)

1 When the storage tank outlet is below the burner,

the two pipe system should be used. The pipe runs
should be as shown in Fig. 4. The return pipe
should be at the same level in the tank as the
supply pipe, both being 75 to 100 mm above the
base of the tank. The pipe ends should be a
sufficient distance apart so as to prevent any
sediment disturbed by the return entering the
supply pipe.

2 Avoid the bottom of the tank being more than 3 m

below the burner.

3 A non-return valve should be fitted in the supply

pipe together with the filter and fire valve. A non­return valve should be fitted in the return pipe if
the top of the tank is above the burner.

4 To be used with a two-pipe system, the burner

must be fitted with an additional flexible fuel hose
(a flexible fuel hose (600 mm) and 3/8" to 1/4" BSP
male adaptor are available to purchase from your
local stockist. See Section 4.4.6.

5 The pump vacuum should not exceed 0.4 bar.

Beyond this limit gas is released from the oil.

For guidance on installation of top outlet fuel tanks and
suction oil supply sizing, see OFTEC booklet T1/139.
Available at www.oftec.org.uk.

Fig. 3 - Single pipe system

Filter

Fire
valve

Shut-off
valve

Shut-off
valve

A

Sludge
valve

Fill
pipe

Vent
pipe

Level
gauge

Fuel
storage
tank

Fire
valve
sensor

Pump

Head A

(m)

Maximum pipe run (m)

0.5

1.0

1.5

2.0

10mm OD pipe

10
20
40
60

12mm OD pipe

20
40
80

100

14

Grant Vortex Indoor/Utility, System and Boiler House Oil Boilers

Fig. 5 - De-aeration device system

4.4.5 Tiger Loop system - (See Figs. 5 and 6)

1 When The storage tank is below the burner, an alternative

to a two pipe system can be achieved using a 'Tiger Loop'
type oil de-aerator. This effectively removes the air from
the oil supply on a single pipe lift.

2 The de-aerator is connected close to the boiler as a

two pipe system (omitting the non-return valve) as
shown in Fig. 5. Refer to the manufacturers
instructions supplied with the de-aerator.
The de-aerator must be mounted vertically and
external.

4 - GENERAL BOILER INFORMATION

Fig. 4 - Two pipe system

Note: To prevent any possibility of fuel fumes
entering the building, the de-aerator must be fitted
outside.

3 To be used with a de-aerator, the burner must be

fitted with an additional flexible fuel hose (a
flexible fuel hose (600 mm) and 3/8" to 1/4" BSP
male adaptor are available to purchase from yor
local stockist. See Section 4.4.6.

Filter

Fire
valve

Shut-off
valve

Shut-off valve

Shut-off
valve

See

section 4.4.6

A

Return

Supply

Head A

(m)

Maximum pipe run (m)

0

0.5

1.0

1.5

2.0

3.0

3.5

10mm OD pipe

35
30
25
20
15

8
6

12mm OD pipe

100
100
100

90
70
30
20

Non
return
valve

Fire
valve
sensor

Sludge
valve

Fill
pipe

Vent

pipe
Level
gauge

Fuel
storage
tank

Fire
valve

Tankmaster

See

section 4.4.6

Sludge
valve

Fill
pipe

Vent
pipe

Fuel
storage
tank

De-aeration device

e.g. Tiger Loop

See Fig. 6

Fire
valve
sensor

Return

Supply

15

Grant Vortex Indoor/Utility, System and Boiler House Oil Boilers

4.4.6 Two pipe oil supplies

Riello RDB burner - See Fig. 7

1 The fuel pump is supplied for use with a single

pipe fuel supply system. For use on a two pipe
system, it is necessary to fit the By-pass screw (see
Fig. 7) into the tapping in the return port.

2 The By-pass screw is supplied in the boiler

accessory pack.

3 On all models except 155/200 and 200/240:

Remove the plastic burner cover (secured by two
screws).

On 155/200 and 200/240 models only:

Remove the plastic burner cover (secured by three
screws). For ease of access to the fuel pump, to fit the
by-pass screw and connect the oil lines, the burner can
be removed from the boiler. To do this, unscrew the
single nut at the top of the burner (using a 13 mm
spanner) and withdraw the burner from the boiler.

4 Remove and discard the blanking plug from the

return connection of the pump and fit the By-pass
screw using an hexagonal key.

5 Connect the return oil flexible fuel hose to the pump.

6 Connect the 3/8" to 1/4" BSP adaptor to the flexible

fuel hose.

7 Flexible fuel hoses and adaptors are available to

purchase from your local stockist.

Fig. 6 - Tiger loop 'de-aeration' device

4 - GENERAL BOILER INFORMATION

Fig. 7 - Riello RDB pump

1 Oil inlet connection
2 Return connection
3 By-pass screw
4 Pressure gauge connection
5 Pressure adjuster
6 Vacuum gauge connection
7 Solenoid
8 Supply to nozzle

1 A 230/240 V ~ 50 Hz mains supply is required.

The boiler must be earthed.

2 The supply must be fused at 5 Amp and there must

only be one common isolator for the boiler and
control system, providing complete electrical
isolation.

3 A fused double pole switch or a fused three pin

plug and shuttered outlet socket should be used for
the connection.

4 The power supply cable should be at least 0.75 mm²

PVC as specified in BS 6500, Table 16.

5 All the wiring and supplementary earth bonding

external to the boiler must be in accordance with
the current I.E.E. Wiring Regulations.

6 Any room thermostat or frost thermostat used must

be suitable for use on mains voltage.

7 In the event of an electrical fault after installation

of the boiler, the following electrical system checks
must be carried out:- Short circuit, Polarity, Earth
continuity and Resistance to earth.

Electricity supply

4.5

1/4" BSP female

connections

Tiger Loop

SUPPLY

TO PUMP

RETURN

FROM PUMP

SUPPLY

FROM TANK

1

2

3

4

5

6

7

8

16

Grant Vortex Indoor/Utility, System and Boiler House Oil Boilers

BOILER IN
ROOM

Conventional open flue

C

BOILER IN
COMPARTMENT

Conventional open flue

compartment ventilated from room

Conventional open flue

compartment ventilated from outside

C

C

D

D

E

BOILER IN
ROOM

Room sealed balanced flue

no ventilation required to room

BOILER IN
COMPARTMENT

Room sealed balanced flue

compartment ventilated from room

Room sealed balanced flue

compartment ventilated from outside

B

B

A

A

Fig. 8 - Air supply for room sealed balanced flue boilers

4 - GENERAL BOILER INFORMATION

Fig. 9 - Air supply for conventional flue boilers

155/200

319 cm² (50 in²)

638 cm² (100 in²)

200/240

385 cm² (60 in²)

770 cm² (120 in²)

Model

Vent A

Vent B

50/70

116 cm² (18 in²)

232 cm² (36 in²)

90/120

198 cm² (31 in²)

396 cm² (62 in²)

Model

Vent A

Vent B

120/155

253 cm² (40 in²)

506 cm² (80 in²)

155/200

319 cm² (50 in²)

638 cm² (100 in²)

957 cm² (150 in²)

200/240

385 cm² (60 in²)

770 cm² (120 in²)

1155 cm² (180 in²)

Model

Vent C

Vent D

Vent E

50/70

116 cm² (18 in²)

232 cm² (36 in²)

348 cm² (54 in²)

90/120

198 cm² (31 in²)

396 cm² (62 in²)

594 cm² (93 in²)

Model

Vent C

Vent D

Vent E

120/155

253 cm² (40 in²)

506 cm² (80 in²)

759 cm² (120 in²)

Air supply

4.6

See Figs. 8 and 9

A sufficient permanent air supply to the boiler should
be provided:

a For proper combustion of fuel and effective

discharge of combustion products to the open air.

b For the ventilation of any confined space in

which the boiler is installed to prevent
overheating of the boiler any equipment in and
near the boiler.

50/90

143 cm² (23 in²)

286 cm² (46 in²)

429 cm² (69 in²)

50/90

143 cm² (23 in²)

286 cm² (46 in²)