ICI Caldaie REX, REX F, REX K, REX K F, REX DUAL/REX DUAL F Technical Manual

...

Download

Page 1

TECHNICAL MANUAL

REX/REX F/REX K/REX K F

REX DUAL/REX DUAL F

STR

PRESSURISED STEEL BOILERS

Page 2

INDEX

1 GENERAL WARNINGS.............................................................................................................................................. 1

2 TECHNICAL SPECIFICATIONS................................................................................................................................. 2

2.1 REX/REX F/REX K/REX K F 7-130 BOILER....................................................................................................... 2

2.2 REX/REX F/REX K/REX K F 140-500 BOILER................................................................................................... 4

2.3 REX 400-600 BOILER......................................................................................................................................... 5

2.4 REX DUAL/REX DUAL F (staked) 14-170 BOILER ............................................................................................ 6

2.5 REX DUAL/REX DUAL F (side by side) 80-260 BOILER.................................................................................... 8

2.6 STR BOILER..................................................................................................................................................... 10

3 INSTALLATION........................................................................................................................................................11

3.1 THERMAL PLANT............................................................................................................................................. 11

3.1.1 BOILER ROOM ......................................................................................................................................... 11

3.1.2 FLUE ......................................................................................................................................................... 11

3.2 HYDRAULIC CONNECTION............................................................................................................................. 12

3.2.1 Hot water heating system with closed expansion vessel - Furnace output ≤ 300.000 kcal/h - pressure 5 bar .. 12

3.2.2 Hot water heating system with closed expansion vessel - Furnace output > 300,000 kcal/h - pressure 5 bar .. 12

3.2.3 REX DUAL/REX DUAL F (side by side) 80÷260 positioning instruments.................................................. 13

3.3 ELECTRICAL CONNECTION ........................................................................................................................... 14

3.4 REX/REX F/REX K/REX K F/STR CONTROL PANEL ..................................................................................... 14

3.5 REX DUAL/REX DUAL F OPERATING PRINCIPLES ...................................................................................... 15

3.5.1 REX DUAL/REX DUAL F control panel ..................................................................................................... 15

3.6 INVERTING THE DOOR APERTURE ..............................................................................................................16

3.7 BURNER CONNECTION .................................................................................................................................. 16

4 ASSEMBLY .............................................................................................................................................................. 17

4.1 REX K/REX K F ASSEMBLY ............................................................................................................................ 17

4.2 REX/REX F/REX K/REX K F 7-40 BOILER CASINGS .....................................................................................19

4.3 REX/REX F/REX K/REX K F 50-130 BOILER CASINGS.................................................................................. 20

4.4 REX DUAL/REX DUAL F 14-70 BOILER CASINGS ......................................................................................... 21

4.5 STR BOILER CASINGS....................................................................................................................................22

5 START UP ................................................................................................................................................................ 23

5.1 PRELIMINARY CHECKS .................................................................................................................................. 23

5.2 WATER TREATMENT ...................................................................................................................................... 23

5.3 FILLING THE SYSTEM..................................................................................................................................... 23

6 OPERATION.............................................................................................................................................................24

6.1 OPERATING CHECKS ..................................................................................................................................... 24

6.2 CLEANING AND SERVICING........................................................................................................................... 25

1 GENERAL WARNINGS

Each generator is provided with a manufacture plate that can be found in the envelope with the boiler documents. The plate lists:

• Serial number or identification code;

• Rated thermal output in kcal/h and in kW;

• Furnace thermal output in kcal/h and in kW;

• Types of fuels that can be used;

• Max operating pressure.

A manufacture certificate is also provided which certifies the hydraulic test positive performance. The installation must be performed in compliance with the regulations in force by professionally qualified personnel. The term “professionally qualified personnel” means persons with specific technical skills in the sector of heating system components. Incorrect installation may cause damage to persons, animals or objects for which the manufacturer cannot be held responsible. At the first start up, all regulation and control devices positioned on the control panel should be checked for efficiency. The guarantee shall be valid only upon compliance with the instruction given in this manual.

Our boilers have been built and tested in observance of EEC requirements and, as a consequence, CE-marked. EEC directives are as follows:

• Directive on Gas 90/396/EEC

• Directive on Output 92/42/EEC

• Directive on Electromagnetic Compatibility 89/336/EEC

• Directive on Low Voltage 73/23/EEC

IMPORTANT: This boiler has been designed to heat hot water at a temperature inferior to the boiling temperature at atmospheric pressure and must be connected to a heating plant and/or a domestic hot water plant within the limits of its performance and output.

Page 3

2 TECHNICAL SPECIFICATIONS

2.1 REX/REX F/REX K/REX K F 7-130 BOILER

Efficiency 100%

(N.C.V.)

Effic. 100%

(stars)

NG max flow

rate G20

NG max flow

rate G30

NG max flow

rate G31

Max flow rate

of flues

Efficiency at 30%

(N.C.V.)

NG min flow

rate G20

NG min flow

rate G30

NG min flow

rate G31

Min flow rate

of flues

kW kcal/h kW kcal/h % % m³/h kg/h kg/h kg/h

kW kcal/h kW kcal/h % m³/h kg/h kg/h kg/h

Medium Temp.

70°C

(Efficienty Dir.

92/42/CEE)

Medium Temp.

70°C

REX 7 REX K 7

60.000 76 65.360 92,11

8,04 5,97 5,90 119,80 35 30.000 38,3 32.930 91,40 4,05 3,01 2,97 60,37

REX 8 REX K 8

69.000 87 74.820 91,95

9,21 6,83 6,76 137,23 40 34.000 43,7 37.600 91,50 4,63 3,43 3,40 68,94

REX 9 REX K 9

77.000 98 84.280 91,84

10,37 7,70 7,61 154,51 45 39.000 49,2 42.270 91,55 5,20 3,86 3,82 77,50

REX 10 REX K 10

100

86.000 109 93.740 91,74

11,53 8,56 8,47 171,80 50 43.000 54,5 46.910 91,66 5,77 4,28 4,24 86,00

REX 12 REX K 12

120

103.000 130 111.800 92,31

13,76 10,21 10,10 205,02 60 52.000 65,6 56.420 91,45 6,94 5,15 5,10 103,44

REX 15 REX K 15

150

129.000 163 140.180 92,02

17,25 12,80 12,66 257,03 75 65.000 82,1 70.650 91,30 8,69 6,45 6,38 129,53

REX 20 REX K 20

200

172.000 216 185.760 92,59

22,86 16,96 16,78 340,61 100 86.000 109,5 94.130 91,36 11,58 8,60 8,50 172,58

REX 25 REX K 25

250

215.000 271 233.060 92,25

28,68 21,28 21,05 427,33 125 108.000 136,3 117.230 91,70 14,42 10,71 10,59 214,93

REX 30 REX K 30

300

258.000 325 279.500 92,31

34,39 25,53 25,25 512,41 150 129.000 163,2 140.370 91,90 17,27 12,82 12,68 257,35

REX 35 REX K 35

350

301.000 379 325.940 92,35

40,11 29,77 29,44 597,64 175 151.000 190,4 163.760 91,90 20,15 14,96 14,79 300,24

REX 40 REX K 40

400

344.000 433 372.380 92,38

45,82 34,01 33,64 682,72 200 172.000 217,9 187.360 91,80 23,05 17,11 16,93 343,50

REX 50 REX K 50

500

430.000 542 466.120 92,25

57,35 42,57 42,11 854,52 250 215.000 272,0 233.950 91,90 28,79 21,37 21,13 428,92

REX 62 REX K 62

620

533.000 672 577.920 92,26

71,11 52,78 52,21 1059,54 310 267.000 337,7 290.410 91,80 35,73 26,52 26,23 532,44

REX 75 REX K 75

750

645.000 813 699.180 92,25

86,03 63,85 63,16 1281,85 375 323.000 408,5 351.310 91,80 43,23 32,08 31,74 644,09

REX 85 REX K 85

850

731.000 921 792.060 92,29

97,46 72,33 71,55 1452,15 425 366.000 463,0 398.150 91,80 48,99 36,36 35,97 729,97

REX 95 REX K 95

950

817.000 1030 885.800 92,23

108,99 80,89 80,02 1623,95 475 409.000 518,0 445.470 91,70 54,81 40,68 40,24 816,72

REX 100 REX K 100

1020

877.000 1106 951.160 92,22

117,04 86,86 85,92 1743,90 510 439.000 555,0 477.260 91,90 58,73 43,59 43,11 875,01

REX 120 REX K 120

1200

1.032.000 1301 1.118.860 92,24

137,67 102,18 101,07 2051,28 600 516.000 653,6 562.090 91,80 69,16 51,33 50,78 1030,53

REX 130 REX K 130

1300

1.118.000 1409 1.211.740 92,26

149,10 110,66 109,46 2221,59 650 559.000 708,8 609.600 91,70 75,01 55,67 55,07 1117,64

Minimum

input

Characteristics

Minimum

output

Medium Temp.

70°C

Heat output Furnace output

Medium Temp.

70°C

Pressure losses

flue

as side

Heat losses through

the chimne

Heat losses through

the casin

Heat losses with

burner off

Press. losses

water side

Design

Pressure

Total

acit

Total

wei

Electric

suppl

Freque

Insulation

class

Electric

ower

mbar % % % °C °C °C % % % mbar ba

Volt ~ Hz IP

GAS GASOIL

HEAVY

OIL

GAS GA SOIL

HEAVY

OIL

(∆T=12°C)

With electr.

contr. (excluded

pump and burner)

Nat. gas

Lpg

Gasoil

Heavy oil

Wood

REX 7 REX K 7

0,8 7,09 0,80 0,10 188 191 191

10,5 13,5 14,0

95105216

230 50 IP X0D

20 XXXX -

REX 8 REX K 8

1,0 7,25 0,80 0,10 192 195 194

10,5 13,5 14,0

95105216

230 50 IP X0D

20 XXXX -

REX 9 REX K 9

0,8 7,36 0,80 0,10 194 197 197

10,5 13,5 14,0

10 5 123 258

230 50 IP X0D

20 XXXX -

REX 10 REX K 10

1,0 7,46 0,80 0,10 197 199 199

10,5 13,5 14,0

12 5 123 258

230 50 IP X0D

20 XXXX -

REX 12 REX K 12

1,1 6,89 0,80 0,10 184 186 186

10,5 13,5 14,0

13 5 123 258

230 50 IP X0D

20 XXXX -

REX 15 REX K 15

1,2 7,18 0,80 0,10 190 193 193

10,5 13,5 14,0

14 5 172 346

230 50 IP X0D

20 XXXX -

REX 20 REX K 20

1,9 6,61 0,80 0,10 177 180 180

10,5 13,5 14,0

15 5 172 346

230 50 IP X0D

20 XXXX -

REX 25 REX K 25

2,0 6,95 0,80 0,10 185 188 187

10,5 13,5 14,0

15 5 220 431

230 50 IP X0D

20 XXXX -

REX 30 REX K 30

2,0 6,89 0,80 0,10 184 186 186

10,5 13,5 14,0

16 5 300 475

230 50 IP X0D

20 XXXX -

REX 35 REX K 35

2,9 6,85 0,80 0,10 183 186 185

10,5 13,5 14,0

18 5 356 542

230 50 IP X0D

20 XXXX -

REX 40 REX K 40

4,1 6,82 0,80 0,10 182 185 184

10,5 13,5 14,0

20 5 360 584

230 50 IP X0D

20 XXXX -

REX 50 REX K 50

4,2 6,95 0,80 0,10 185 188 187

10,5 13,5 14,0

22 5 540 853

230 50 IP X0D

20 XXXX -

REX 62 REX K 62

6,4 6,94 0,80 0,10 185 188 187

10,5 13,5 14,0

27 5 645 963

230 50 IP X0D

20 XXXX -

REX 75 REX K 75

5,2 6,95 0,80 0,10 185 188 187

10,5 13,5 14,0

25 5 855 1205

230 50 IP X0D

20 XXXX -

REX 85 REX K 85

7,2 6,91 0,80 0,10 184 187 187

10,5 13,5 14,0

27 5 855 1205

230 50 IP X0D

20 XXXX -

REX 95 REX K 95

5,2 6,97 0,80 0,10 185 188 188

10,5 13,5 14,0

32 5 950 1417

230 50 IP X0D

20 XXXX -

REX 100 REX K 100

4,0 6,98 0,80 0,10 186 189 188

10,5 13,5 14,0

26 5 1200 1843

230 50 IP X0D

20 XXXX -

REX 120 REX K 120

5,5 6,96 0,80 0,10 185 188 188

10,5 13,5 14,0

30 5 1200 1843

230 50 IP X0D

20 XXXX -

REX 130 REX K 130

6,5 6,94 0,80 0,10 185 188 187

10,5 13,5 14,0

32 5 1200 1843

230 50 IP X0D

20 XXXX -

Flue gas temp. at boiler

output and air at 20 deg.

CO2 Fuel

Characteristics

Efficiency 100%

(

N.C.V.

)

Effic. 100%

(

stars

)

NG max flow

rate G20

NG max flow

rate G30

NG max flow

rate G31

Max flow rate

of flues

Efficiency at 30%

(

N.C.V.

)

NG min flow

rate G20

NG min flow

rate G30

NG min flow

rate G31

Min flow rate

of flues

kW kcal/h kW kcal/h % % m³/h kg/h kg/h kg/h

kcal/h kW kcal/h % m³/h kg/h kg/h kg/h

Medium Temp.

70°C

(Efficienty Dir.

92/42/CEE

)

Medium Temp.

70°C

REX 7 F REX K 7 F

60.000 74,2 63.812 94,34

***

7,85 5,83 5,76 116,97 35 30.000 36,9 31.750 94,80 3,91 2,90 2,87 58,21

REX 8 F REX K 8 F

69.000 84,7 72.842 94,45

***

8,96 6,65 6,58 133,50 40 34.000 42,2 36.330 94,70 4,47 3,32 3,28 66,61

REX 9 F REX K 9 F

77.000 95,2 81.872 94,54

***

10,07 7,48 7,40 150,04 45 39.000 47,4 40.740 95,00 5,01 3,72 3,68 74,69

REX 10 F REX K 10 F

100

86.000 105,6 90.816 94,70

***

11,17 8,29 8,20 166,43 50 43.000 52,7 45.360 94,80 5,58 4,14 4,10 83,16

REX 12 F REX K 12 F

120

103.000 126,5 108.790 94,86

***

13,39 9,94 9,83 199,51 60 52.000 63,1 54.260 95,10 6,68 4,96 4,90 99,48

REX 15 F REX K 15 F

150

129.000 157,8 135.708 95,06

***

16,70 12,39 12,26 248,83 75 65.000 78,4 67.400 95,70 8,29 6,16 6,09 123,57

REX 20 F REX K 20 F

200 172.000 210 180.600 95,24

***

22,22 16,49 16,31 331,08 100 86.000 104,9 90.240 95,30 11,10 8,24 8,15 165,45

REX 25 F REX K 25 F

250

215.000 263,5 226.610 94,88

***

27,88 20,69 20,47 415,41 125 108.000 131,1 112.710 95,38 13,87 10,29 10,18 206,64

REX 30 F REX K 30 F

300

258.000 315,5 271.330 95,09

***

33,39 24,78 24,51 497,51 150 129.000 156,9 134.950 95,59 16,61 12,32 12,19 247,42

REX 35 F REX K 35 F

350

301.000 367 315.620 95,37

***

38,84 28,82 28,51 578,72 175 151.000 183,1 157.430 95,60 19,37 14,38 14,22 288,63

REX 40 F REX K 40 F

400

344.000 420 361.200 95,24

***

44,44 32,99 32,63 662,16 200 172.000 209,6 180.290 95,40 22,18 16,46 16,29 330,54

REX 50 F REX K 50 F

500

430.000 524 450.640 95,42

55,45 41,15 40,71 826,21 250 215.000 261,2 224.660 95,70 27,64 20,52 20,29 411,89

REX 62 F REX K 62 F

620

533.000 649 558.140 95,53

68,68 50,97 50,42 1023,33 310 267.000 323,3 278.000 95,90 34,21 25,39 25,11 509,68

REX 75 F REX K 75 F

750

645.000 786 675.960 95,42

83,17 61,73 61,06 1239,23 375 323.000 391,0 336.220 95,92 41,37 30,71 30,37 616,42

REX 85 F REX K 85 F

850

731.000 891 766.260 95,40

94,29 69,98 69,22 1404,92 425 366.000 443,6 381.520 95,80 46,94 34,84 34,46 699,48

REX 95 F REX K 95 F

950

817.000 997 857.420 95,29

105,50 78,30 77,45 1571,95 475 409.000 495,9 426.450 95,79 52,47 38,95 38,52 781,85

REX 100 F REX K 100 F

1020

877.000 1069 919.340 95,42

113,12 83,96 83,05 1685,49 510 439.000 532,4 457.830 95,80 56,33 41,81 41,36 839,38

REX 120 F REX K 120 F

1200

1.032.000 1259 1.082.740 95,31

133,23 98,88 97,81 1985,13 600 516.000 626,2 538.570 95,81 66,27 49,18 48,65 987,41

REX 130 F REX K 130 F

1300

1.118.000 1364 1.173.040 95,31

144,34 107,13 105,97 2150,67 650 559.000 679,2 584.120 95,70 71,87 53,34 52,77 1070,92

Characteristics

Minimum

output

Medium Temp.

70°C

Heat output Furnace output

Medium Temp.

70°C

Minimum

input

Page 4

Pressure losses

flue gas side

Heat losses through

the chimney

Heat losses through

the casing

Heat losses with

burner off

Flue gas temp. at boile

output and air at 20 deg. C

CO2

Press. losses

water side

Design

Pressure

Total

capacity

Total

weight

Electric

supply

Freque

ncy

Insulation

class

Electric

power

mbar % % % °C % mbar bar l

Volt ~ Hz IP

GAS GAS

(∆T=12°C)

With electr.

contr. (excluded

pump and burner)

N at. g as

Lpg

Gasoil

Heavy oil

Wood

REX 7 F REX K 7 F

0,9 5,16 0,50 0,10 148

11,0

9 5 105 222

230 50 IP X0D

20 XX---

REX 8 F REX K 8 F

1,1 5,05 0,50 0,10 146

11,0

9 5 105 222

230 50 IP X0D

20 XX---

REX 9 F REX K 9 F

0,9 4,96 0,50 0,10 143

11,0

10 5 123 266

230 50 IP X0D

20 XX---

REX 10 F REX K 10 F

1,1 4,80 0,50 0,10 140

11,0

12 5 123 266

230 50 IP X0D

20 XX---

REX 12 F REX K 12 F

1,3 4,64 0,50 0,10 136

11,0

13 5 123 266

230 50 IP X0D

20 XX---

REX 15 F REX K 15 F

1,3 4,44 0,50 0,10 131

11,0

14 5 172 357

230 50 IP X0D

20 XX---

REX 20 F REX K 20 F

2,2 4,26 0,50 0,10 127

11,0

15 5 172 357

230 50 IP X0D

20 XX---

REX 25 F REX K 25 F

2,4 4,62 0,50 0,10 135

11,0

15 5 220 442

230 50 IP X0D

20 XX---

REX 30 F REX K 30 F

2,4 4,41 0,50 0,10 130

11,0

16 5 300 489

230 50 IP X0D

20 XX---

REX 35 F REX K 35 F

3,4 4,13 0,50 0,10 124

11,0

18 5 356 558

230 50 IP X0D

20 XX---

REX 40 F REX K 40 F

4,7 4,26 0,50 0,10 127

11,0

20 5 360 600

230 50 IP X0D

20 XX---

REX 50 F REX K 50 F

4,8 4,08 0,50 0,10 122

11,0

22 5 540 871

230 50 IP X0D

20 XX---

REX 62 F REX K 62 F

7,3 3,97 0,50 0,10 120

11,0

27 5 645 981

230 50 IP X0D

20 XX---

REX 75 F REX K 75 F

5,8 4,08 0,50 0,10 122

11,0

25 5 855 1230

230 50 IP X0D

20 XX---

REX 85 F REX K 85 F

8,0 4,10 0,50 0,10 123

11,0

27 5 855 1230

230 50 IP X0D

20 XX---

REX 95 F REX K 95 F

5,9 4,21 0,50 0,10 126

11,0

32 5 950 1446

230 50 IP X0D

20 XX---

REX 100 F REX K 100 F

4,5 4,08 0,50 0,10 122

11,0

26 5 1200 1880

230 50 IP X0D

20 XX---

REX 120 F REX K 120 F

6,2 4,19 0,50 0,10 125

11,0

30 5 1200 1880

230 50 IP X0D

20 XX---

REX 130 F REX K 130 F

7,3 4,19 0,50 0,10 125

11,0

32 5 1200 1880

230 50 IP X0D

20 XX---

Fuel

Characteristics

H1 H2 H4 H6 H10

P2 P3 P4 P5 P6 Øb Øc N1 N2 N3 N4 N5 N6 N8

mm mm mm mm mm mm mm mm mm mm mm mm mm mm mm mm DN/in DN/in DN/in DN/in DN/in in in

REX 7 REX K 7 REX 7 F REX K 7 F

1063

853 415 912 415 54,5

756

700

994

630 413 240 341 200-250 130 200 50 50 1" 1" - 1/2" 1/2"

REX 8 REX K 8 REX 8 F REX K 8 F

1063

853 415 912 415 54,5

756

700

994

630 413 240 341 200-250 130 200 50 50 1" 1" - 1/2" 1/2"

REX 9 REX K 9 REX 9 F REX K 9 F

1030

855 415 912 415 54,5

756

700

1119

755 513 265 341 200-250 130 200 50 50 1" 1" - 1/2" 1/2"

REX 10 REX K 10 REX 10 F REX K 10 F

1030

855 415 912 415 54,5

756

700

1119

755 513 265 341 200-250 130 200 50 50 1" 1" - 1/2" 1/2"

REX 12 REX K 12 REX 12 F REX K 12 F

1030

855 415 912 415 54,5

756

700

1119

755 513 265 341 200-250 130 200 50 50 1" 1" - 1/2" 1/2"

REX 15 REX K 15 REX 15 F REX K 15 F

1080

905 440 962 440 54,5

806

750

1364

1000 513 475 376 200-250 160 250 50 50 1" 1" - 1/2" 1/2"

REX 20 REX K 20 REX 20 F REX K 20 F

1080

905 440 962 440 54,5

806

750

1364

1000 513 475 376 200-250 160 250 50 50 1" 1" - 1/2" 1/2"

REX 25 REX K 25 REX 25 F REX K 25 F

1080

905 440 962 440 54,5

806

750

1614

1250 513 725 376 200-250 160 250 50 50 1" 1" - 1/2" 1/2"

REX 30 REX K 30 REX 30 F REX K 30 F

1180

1005 490 1061 490 54,5

906

850

1614

1250 523 700 391 200-250 180 250 65 65 1" 1" - 1/2" 1/2"

REX 35 REX K 35 REX 35 F REX K 35 F

1180

1005 490 1061 490 54,5

906

850

1864

1500 523 980 361 200-250 180 250 65 65 1" 1" - 1/2" 1/2"

REX 40 REX K 40 REX 40 F REX K 40 F

1190

1015 500 1095 500 50

946

890

1872

1502 600 850 422 230-280 225 250 80 80 1" 1" 1"1/4(1) 1/2" 1/2"

REX 50 REX K 50 REX 50 F REX K 50 F

1380

1205 610 1285 610 60

1166

1110

1946

1502 663 850 433 270-320 225 300 80 80 1" 1"1/4 1"1/4 1/2" 1/2"

REX 62 REX K 62 REX 62 F REX K 62 F

1380 1205 610 1285 610 60 1166 1110 2235 1792 663 1150 422 270-320 225 300 80 80 1" 1"1/4 1"1/4 1/2" 1/2"

REX 75 REX K 75 REX 75 F REX K 75 F

1510 1335 675 1417 675 60 1296 1240 2247 1753 704 1100 443 270-320 280 350 100 100 1" 1"1/4 1"1/2 1/2" 1/2"

REX 85 REX K 85 REX 85 F REX K 85 F

1510 1335 675 1417 675 60 1296 1240 2247 1753 704 1100 443 270-320 280 350 100 100 1" 1"1/4 1"1/2 1/2" 1/2"

REX 95 REX K 95 REX 95 F REX K 95 F

1510 1335 675 1417 675 60 1296 1240 2497 2003 704 1200 593 270-320 280 350 100 100 1" 1"1/4 1"1/2 1/2" 1/2"

REX 100 REX K 100 REX 100 F REX K 100 F

1660 1485 750 1568 750 60 1446 1390 2477 2003 703 1200 574 270-320 280 400 125 125 1" 1"1/4 1"1/2 1/2" 1/2"

REX 120 REX K 120 REX 120 F REX K 120 F

1660 1485 750 1568 750 60 1446 1390 2477 2003 703 1200 574 270-320 280 400 125 125 1" 1"1/4 1"1/2 1/2" 1/2"

REX 130 REX K 130 REX 130 F REX K 130 F

1660 1485 750 1568 750 60 1446 1390 2477 2003 703 1200 574 270-320 280 400 125 125 1" 1"1/4 1"1/2 1/2" 1/2"

Dimensions

(1)

One fitting only

N1 - Flow N2 - Return N3 - Fitting for instruments N4 - System filling/drainage N5 - Fitting for safety valves N6 - Bulb wells N8 - Inspection well

Page 5

2.2 REX/REX F/REX K/REX K F 140-500 BOILER

Efficiency 100%

(

N.C.V.

)

NG max flow

rate G20

NG max flow

rate G30

NG max flow

rate G31

Max flow rate

of flues

Efficiency at

30%

NG min flow

rate G20

NG min flow

rate G30

NG min flow

rate G31

Min flow rate

of flues

kW kcal /h kW kcal/h % m³/h kg/h kg/h kg/h

kW kcal/h kW kcal/h % m³/h kg/h kg/h kg/h

Medium Temp.

70°C

Medium Temp.

70°C

REX 140 REX K 140

1400 1.204.000 1517 1.304.620 92,29 160,53 119,14 117,85 2391,90 700 602.000 763,4 656.490 91,70 80,78 59,95 59,30 1203,61

REX 160 REX K 160

1600 1.376.000 1733 1.490.380 92,33 183,39 136,11 134,63 2732,51 800 688.000 871,5 749.460 91,80 92,22 68,44 67,70 1374,06

REX 180 REX K 180

1800

1.548.000 1950 1.677.000 92,31 206,35 153,15 151,4 9 3074,62 900 774 .000 980,4 843.140 91,80 103,75 77,00 76,16 1545 ,81

REX 200 REX K 200

2000 1.720.000 2167 1.863.620 92,29 229,31 170,19 168,35 3416,72 1000 860.000 1.090,5 937.840 91,70 115,40 85,65 84,72 1719 ,43

REX 240 REX K 240

2400 2.064.000 2600 2.236.000 92,31 275,13 204,20 201,99 4099,44 1200 1.032.000 1.307,2 1.124.180 91,80 138,33 102,66 101,55 2061,07

REX 300 REX K 300

3000 2.580.000 3250 2.795.000 92,31 343,92 255,25 252,48 5124,41 1500 1.290.000 1.634,0 1.405.230 91,80 172,91 128,33 126,94 2576,34

REX 350 REX K 350

3500

3.010.000 3792 3.261.120 92,3 401,27 297,82 294,59 5978,92 1750 1.505.000 1.908,4 1.641.220 91,70 201,95 149,88 148,26 3009,00

Minimum

input

Characteristics

Minimum

output

Medium Temp.

70°C

Heat output Furnace output

Medium Temp.

70°C

Pressure losses

flue

as side

Heat losses through

the chimne

Heat losses through

the casin

Heat losses with

burner off

Press. losses

water side

Design

Pressure

Total

capacit

Total

wei

Electric

suppl

Freque

Insulation

class

Electric

power

mbar % % % °C °C °C % % % mbar bar l

Volt ~ Hz IP

GAS GASOIL

HEAVY

OIL

GAS GASOIL

HEAVY

OIL

(∆T=12°C)

With electr.

contr. (excluded

pump and burner)

Nat. gas

Lpg

Gasoil

Heavy oil

Wood

REX 140 REX K 140

6,0 6,91 0,80 0,10 184 187 187

10,5 13,5 14,0

28 5 1500 2600

230 50 IP X0D

20 X X X X -

REX 160 REX K 160

6,5 6,87 0,80 0,10 183 186 186

10,5 13,5 14,0

32 5 1500 2600

230 50 IP X0D

20 X X X X -

REX 180 REX K 180

7,0 6,89 0,80 0,10 184 186 186

10,5 13,5 14,0

37 5 1650 2750

230 50 IP X0D

20 X X X X -

REX 200 REX K 200

6,0 6,91 0,80 0,10 184 187 187

10,5 13,5 14,0

35 5 2000 3650

230 50 IP X0D

20 X X X X -

REX 240 REX K 240

7,5 6,89 0,80 0,10 184 186 186

10,5 13,5 14,0

40 5 2300 3900

230 50 IP X0D

20 X X X X -

REX 300 REX K 300

8,0 6,89 0,80 0,10 184 186 186

10,5 13,5 14,0

49 5 3150 5200

230 50 IP X0D

20 X X X X -

REX 350 REX K 350

9,0 6,90 0,80 0,10 184 187 186

10,5 13,5 14,0

60 5 3650 5700

230 50 IP X0D

20 X X X X -

Flue gas temp. at boiler

output and air at 20 deg.

CO2 Fuel

Characteristics

Efficiency 100%

(

N.C.V.

)

NG max flow

rate G20

NG max flow

rate G30

NG max flow

rate G31

Max flow rate

of flues

Efficiency at

30%

NG min flow

rate G20

NG min flow

rate G30

NG min flow

rate G31

Min flow rate

of flues

kW kcal/h kW kcal/h % m³/h kg/h kg/h kg/h

kW kcal/h kW kcal/h % m ³/h kg/h kg/h kg/h

Medium Temp.

70°C

Medium Temp.

70°C

REX 140 F REX K 140 F

1400

1.204.000 1468 1.262 .480 95,37 155,34 115,29 114,05 2314,5 7 700 602.000 730 ,2 627.930 95 ,87 77,26 57,35 56,72 1151,24

REX 160 F REX K 160 F

1600

1.376.000 1675 1.440 .500 95,52 177,25 131,55 130,13 2641,0 3 800 688.000 835 ,1 718.160 95 ,80 88,37 65,59 64,87 1316,67

REX 180 F REX K 180 F

1800 1.548.000 1885 1.621.1 00 95,49 199,47 148,05 146,44 2972,10 900 774 .000 940,4 808.780 95,70 99 ,52 73, 86 73, 06 1482,81

REX 200 F REX K 200 F

2000 1.720.000 2094 1.800.8 40 95,51 221,59 164,46 162,68 3301,69 1000 860.000 1.043,8 897.700 95,80 110, 46 81,98 81,09 1645,84

REX 240 F REX K 240 F

2400 2.064.000 2518 2.165.4 80 95,31 266,46 197,76 195,62 3970,25 1200 1.032.000 1.257, 9 1.081.760 95,40 133,11 98,79 97,72 1983,29

REX 300 F REX K 300 F

3000 2.580.000 3142 2.702.120 95,48 332,49 246,77 244,09 4954,1 0 1500 1.290.00 0 1.569,0 1.349 .370 95,60 166,04 123,23 121,89 2473,93

REX 350 F REX K 350 F

3500

3.010.000 3670 3.156 .200 95,37 388,36 288,24 285,11 5786,5 6 1750 1.505. 000 1.825,4 1.5 69.830 95,87 193,16 143,36 141,81 2878,12

Minimum

input

Characteristics

Minimum

output

Medium Temp.

70°C

Heat output Furnace output

Medium Temp.

70°C

Pressure losses

flue

as side

Heat losses through

the chimne

Heat losses through

the casin

Heat losses with

burner of

Flue gas temp. at boiler

output and air at 20 de

. C

CO2

Press. losses

water side

Design

Pressure

Total

capacit

Total

wei

Electric suppl

Freque

Insulation

class

Electric

power

mbar % % % °C % mbar bar l

Volt ~ Hz IP

GAS GAS

(∆T=12°C)

With electr.

contr. (excluded

pump and burner)

Nat. g as

Lpg

Gasoil

Heavy oil

Wood

REX 140 F REX K 140 F

6,6 4,13 0,50 0,10 124

11,0

28 5 1500 2665

230 50 IP X0D

20 X X - - -

REX 160 F REX K 160 F

7,1 3,98 0,50 0,10 120

11,0

32 5 1500 2665

230 50 IP X0D

20 X X - - -

REX 180 F REX K 180 F

7,6 4,01 0,50 0,10 121

11,0

37 5 1650 2815

230 50 IP X0D

20 X X - - -

REX 200 F REX K 200 F

6,6 3,99 0,50 0,10 120

11,0

35 5 2000 3730

230 50 IP X0D

20 X X - - -

REX 240 F REX K 240 F

8,1 4,19 0,50 0,10 125

11,0

40 5 2300 3980

230 50 IP X0D

20 X X - - -

REX 300 F REX K 300 F

8,6 4,02 0,50 0,10 121

11,0

49 5 3150 5300

230 50 IP X0D

20 X X - - -

REX 350 F REX K 350 F

9,6 4,13 0,50 0,10 124

11,0

60 5 3650 5800

230 50 IP X0D

20 X X - - -

Fuel

Characteristics

H1 H2 H6 H10

P2 P3 P4 P5 P6 Øb Øc N1 N2 N3 N4 N5 N6 N8

mm mm mm mm mm mm mm mm mm mm mm mm mm mm mm DN/in DN/in DN/in DN/in DN/in in in

REX 140 REX K 140 REX 140 F REX K 140 F

1746 1630 880 880 150 1470 1270 2886 2300 831 1300 755 350-400 320 400 150 150 1" 1"1/4 1"1/2 1/2" 1/2"

REX 160 REX K 160 REX 160 F REX K 160 F

1746 1630 880 880 150 1470 1270 2886 2300 831 1300 755 350-400 320 400 150 150 1" 1"1/4 1"1/2 1/2" 1/2"

REX 180 REX K 180 REX 180 F REX K 180 F

1746 1630 880 880 150 1470 1270 3096 2510 771 1850 475 450-500 320 400 150 150 1" 1"1/4 1"1/2 1/2" 1/2"

REX 200 REX K 200 REX 200 F REX K 200 F

1876 1760 945 945 150 1600 1400 3220 2510 903 1550 767 450-500 360 500 200 200 1" 1"1/4 2" 1/2" 1/2"

REX 240 REX K 240 REX 240 F REX K 240 F

1876 1760 945 945 150 1600 1400 3480 2770 903 1950 627 450-500 360 500 200 200 1" 1"1/4 2" 1/2" 1/2"

REX 300 REX K 300 REX 300 F REX K 300 F

2146 2030 1080 1080 150 1870 1670 3480 2770 903 2050 527 450-500 400 550 200 200 1" 1"1/4 2" 1/2" 1/2"

REX 350 REX K 350 REX 350 F REX K 350 F

2146 2030 1080 1080 150 1870 1670 3935 3225 903 2050 982 450-500 400 550 200 200 1" 1"1/4 2" 1/2" 1/2"

Dimensions

N1 - Flow N2 - Return N3 - Fitting for instruments N4 - System filling/drainage N5 - Fitting for safety valves N6 - Bulb wells N8 - Inspection well

Page 6

2.3 REX 400-600 BOILER

Characteristics

Efficiency 100%

(N.C.V.)

NG max flow

rate G20

NG max flow

rate G30

NG max flow

rate G31

Max flow rate

of flues

Efficiency at

30%

NG min flow

rate G20

NG min flow

rate G30

NG min flow

rate G31

Min flow rate

of flues

kW kcal/h kW kcal/h % m³/h k

/h kg/h kg/h

kW kcal/h kW kcal/h % m³/h k

/h kg/h kg/h

Medium Temp.

70°C

Medium Temp.

70°C

REX 400

4000

3.440.000 4333 3.726.380 92,31 458,52 340,31 336,62 6831,95 2000 1.720.000 2.178,6 1.873.640 91,80 230,55 171,11 169,25 3435,12

REX 450

4500

3.870.000 4865 4.183.900 92,5 514,81 382,09 377,95 7670,67 2250 1.935.000 2.448,3 2.105.550 91,90 259,08 192,29 190,20 3860,30

REX 500

5000

4.300.000 5402 4.645.720 92,56 571,64 424,27 419,67 8517,44 2500 2.150.000 2.720,3 2.339.500 91,90 287,87 213,65 211,34 4289,23

REX 600

6000

5.160.000 6480 5.572.800 92,59 685,71 508,93 503,41 10217,08 3000 2.580.000 3.264,4 2.807.400 91,90 345,44 256,38 253,60 5147,07

Minimum

input

Minimum

output

Medium Temp.

70°C

Heat output Furnace output

Medium Temp.

70°C

Characteristics

Pressure losses

flue gas side

Heat losses through

the chimney

Heat losses through

the casing

Heat losses with

burner off

Press. losses

water side

Design

Pressure

Total

capacity

Total

weight

Electric supply

Freque

ncy

Insulation

class

Electric

powe

mbar % % % °C °C °C % % % mbar bar l

Volt ~ Hz IP

GAS GASOIL

HEAVY

OIL

GAS GASOIL

HEAVY

OIL

(∆T=12°C)

With electr.

contr. (excluded

pump and burner)

N a t. g a s

Lpg

Gasoil

H eavy oil

W ood

REX 400

9,0 6,89 0,80 0,10 184 186 186

10,5 13,5 14,0

60 6 4450 7420

230 50 IP X0D

20 XXXX -

REX 450

10,0 6,70 0,80 0,10 179 182 182

10,5 13,5 14,0

52 6 4900 7920

230 50 IP X0D

20 XXXX -

REX 500

10,0 6,64 0,80 0,10 178 181 180

10,5 13,5 14,0

58 6 6200 9530

230 50 IP X0D

20 XXXX -

REX 600

12,0 6,61 0,80 0,10 177 180 180

10,5 13,5 14,0

62 6 6900 11330

230 50 IP X0D

20 XXXX -

Flue gas temp. at boile

output and air at 20 deg.

CO2 Fuel

Dimensions H

H1 H2 H6 H10

P2 P3 P4 P5 P6 Øb Øc N1 N2 N3 N4 N5 N6 N8

mm mm mm mm mm mm mm mm mm mm mm mm mm mm mm DN/in DN/in DN/in DN/in DN/in in in

REX 400

2326

2140 1135 1135 150

1980

1780

4310

3596 1105 2200 1005 450-500 400 600 200 200 50 1"1/4 50 1/2"-3/4" 1/2"

REX 450

2326

2140 1135 1135 150

1980

1780

4660

3946 1105 2550 1005 500-550 400 600 200 200 50 1"1/4 50 1/2"-3/4" 1/2"

REX 500

2529

2340 1235 1235 150

2180

1980

4729

3948 1174 2550 1005 500-550 450 650 250 250 65 1"1/4 65 1/2"-3/4" 1/2"

REX 600

2529

2340 1235 1235 150

2180

1980

5261

4488 1174 3100 987 530-580 450 650 250 250 65 1"1/4 65 1/2"-3/4" 1/2"

N1 - Flow N2 - Return N3 - Fitting for instruments N4 - System filling/drainage N5 - Fitting for safety valves N6 - Bulb wells N8 - Inspection well

Page 7

2.4 REX DUAL/REX DUAL F (staked) 14-170 BOILER

Characteristics

Efficiency 100%

(N.C.V.)

Effic. 100%

(stars)

NG max flow

rate G20

NG max flow

rate G30

NG max flow

rate G31

Max flow rate

of flues

Efficiency at

30%

NG min flow

rate G20

NG min flow

rate G30

NG min flow

rate G31

Min flow rate

of flues

kW kcal/h kW kcal/h % % m³/h kg/h kg/h kg /h

kW kcal/h kW kcal/h % m³/h kg/h kg/h kg/h

Medium Temp.

70°C

(Efficienty Dir.

92/42/CEE

)

Medium Temp.

70°C

REX DUAL 14

140

120.000 152 130.720 9 2,11

16,08 11,94 11,8 1 239,59 35 30.000 38,3 32.930 91,40 4,05 3,01 2,97 60,37

REX DUAL 16

160 138 .000 174 149.640 91,95

18,41 13,67 13,5 2 274,31 40 34.000 43,7 37.600 91,50 4,63 3,43 3,40 68,94

REX DUAL 18

180 155 .000 196 168.560 91,84

20,74 15,39 15,2 3 309,03 45 39.000 49,2 42.270 91,55 5,20 3,86 3,82 77,50

REX DUAL 20

200

172.000 218 187.480 9 1,74

23,07 17,12 16,9 4 343,74 50 43.000 54,5 46.910 91,66 5,77 4,28 4,24 86,00

REX DUAL 24

240 206 .000 260 223.600 92,31

27,51 20,42 20,2 0 409,90 60 52.000 65,6 56.420 91,45 6,94 5,15 5,10 103,44

REX DUAL 30

300

258.000 326 280.360 9 2,02

34,50 25,60 25,3 3 514,05 75 65.000 82,1 70.650 91,30 8,69 6,45 6,38 129,53

REX DUAL 40

400 344 .000 432 371.520 92,59

45,71 33,93 33,5 6 681,08 100 86.000 109,5 94.130 91,36 11,58 8,60 8,50 172,58

REX DUAL 50

500 430 .000 542 466.120 92,25

57,35 42,57 42,1 1 854,52 125 108.000 136,3 117.230 91,70 14,42 10,71 10,59 214,93

REX DUAL 60

600

516.000 650 559.000 9 2,31

68,78 51,05 50,5 0 1024,82 150 129.000 163,2 140.370 91,90 17,27 12,82 12,68 257, 35

REX DUAL 70

700

602.000 758 651.880 9 2,35

80,21 59,53 58,8 9 1195,13 175 151.000 190,4 163.760 91,90 20,15 14,96 14,79 300, 24

REX DUAL 80

800

688.000 866 744.760 9 2,38

91,64 68,01 67,2 8 1365,44 200 172.000 217,9 187.360 91,80 23,05 17,11 16,93 343, 50

REX DUAL 100

1000 860.000 1084 932.240 92,25

114,71 85,14 84,21 1709,18 250 215.000 272,0 233.950 91,90 28,79 2 1,37 21,13 428,92

REX DUAL 124

1240 1.066.000 1344 1.155.840 92,26

142,22 105,56 104,41 2119,08 310 267.000 337,7 290.410 91,80 35,73 26,52 26,23 532,44

REX DUAL 150

1500

1.290.000 1626 1.398.360 92,25

172,06 127,70 126,32 2563,69 375 323.000 408,5 351.310 91,80 43,23 32,08 31,74 644,09

REX DUAL 170

1700 1.462.000 1842 1.584.120 92,29

194,92 144,67 143,10 2904,31 425 366.000 463,0 398.150 91,80 48,99 36,36 35,97 729,97

Heat output Furnace output

Medium Temp.

70°C

Minimum

input

Minimum

output

Medium Temp.

70°C

Characteristics

Pressure losses

flue

as side

Heat losses through

the chimne

Heat losses through

the casin

Heat losses with

burner off

Press. losses

water side

Design

Pressure

Total

acit

Total

wei

Electric suppl

Freque

Insulation

class

Electric

owe

mbar % % % °C °C °C % % % mbar bar l

Volt ~ Hz IP

GAS GASOIL

HEAVY

OIL

GAS GASOIL

HEAVY

OIL

(∆T=12°C)

With electr.

contr. (excluded

pump and burner)

Nat. ga s

Lpg

Gasoil

Heavy oil

Wood

REX DUAL 14

0,8 7,09 0,80 0,10 188 191 191

10,5 13,5 14,0

11 5 2 10 442

230 50 IP X0D

20 XXXX -

REX DUAL 16

1,0 7,25 0,80 0,10 192 195 194

10,5 13,5 14,0

11 5 2 10 442

230 50 IP X0D

20 XXXX -

REX DUAL 18

0,8 7,36 0,80 0,10 194 197 197

10,5 13,5 14,0

12 5 2 46 536

230 50 IP X0D

20 XXXX -

REX DUAL 20

1,0 7,46 0,80 0,10 197 199 199

10,5 13,5 14,0

14 5 2 46 536

230 50 IP X0D

20 XXXX -

REX DUAL 24

1,1 6,89 0,80 0,10 184 186 186

10,5 13,5 14,0

15 5 2 46 536

230 50 IP X0D

20 XXXX -

REX DUAL 30

1,2 7,18 0,80 0,10 190 193 193

10,5 13,5 14,0

16 5 3 44 776

230 50 IP X0D

20 XXXX -

REX DUAL 40

1,9 6,61 0,80 0,10 177 180 180

10,5 13,5 14,0

17 5 3 44 776

230 50 IP X0D

20 XXXX -

REX DUAL 50

2,0 6,95 0,80 0,10 185 188 187

10,5 13,5 14,0

17 5 4 40 882

230 50 IP X0D

20 XXXX -

REX DUAL 60

2,0 6,89 0,80 0,10 184 186 186

10,5 13,5 14,0

18 5 6 00 969

230 50 IP X0D

20 XXXX -

REX DUAL 70

2,9 6,85 0,80 0,10 183 186 185

10,5 13,5 14,0

20 5 712 1114

230 50 IP X0D

20 XXXX -

REX DUAL 80

4,1 6,82 0,80 0,10 182 185 184

10,5 13,5 14,0

20 5 720 1167

230 50 IP X0D

20 XXXX -

REX DUAL 100

4,2 6,95 0,80 0,10 185 188 187

10,5 13,5 14,0

22 5 1080 1705

230 50 IP X0D

20 XXXX -

REX DUAL 124

6,4 6,94 0,80 0,10 185 188 187

10,5 13,5 14,0

27 5 1290 1925

230 50 IP X0D

20 XXXX -

REX DUAL 150

5,2 6,95 0,80 0,10 185 188 187

10,5 13,5 14,0

25 5 1710 2409

230 50 IP X0D

20 XXXX -

REX DUAL 170

7,2 6,91 0,80 0,10 184 187 187

10,5 13,5 14,0

27 5 1710 2409

230 50 IP X0D

20 XXXX -

Flue gas temp. at boile

output and air at 20 deg.

CO2 Fuel

Characteristics

Efficiency 100%

(N.C.V.)

Effic. 100%

(stars)

NG max flow

rate G20

NG max flow

rate G30

NG max flow

rate G31

Max flow rate

of flues

Efficiency at

30%

NG min flow

rate G20

NG min flow

rate G30

NG min flow

rate G31

Min flow rate

of flues

kW kcal/h kW kcal/h % % m³/h kg/h kg/h kg/h

kW kcal/h kW kcal/h % m³/h kg/h kg/h kg/h

Medium Temp.

70°C

(Efficienty Dir.

92/42/CEE

)

Medium Temp.

70°C

REX DUAL 14 F

140 120.000 148 127.624 94,34

***

15,70 11,66 11,53 233,93 35 30.000 36,9 31.750 94,80 3,91 2,90 2,87 58,21

REX DUAL 16 F

160 138.000 169 145.684 94,45

***

17,93 13,30 13,16 267,16 40 34.000 42,2 36.330 94,70 4,47 3,32 3,28 66,61

REX DUAL 18 F

180

155.000 190 163.744 94,54

***

20,15 14,95 14,79 300,24 45 39.000 47,4 40.740 95,00 5,01 3,72 3,68 74,69

REX DUAL 20 F

200

172.000 211 181.632 94,70

***

22,35 16,59 16,41 333,02 50 43.000 52,7 45.360 94,80 5,58 4,14 4,10 83,16

REX DUAL 24 F

240 206.000 253 217.580 94,86

***

26,77 19,87 19,65 398,87 60 52.000 63,1 54.260 95,10 6,68 4,96 4,90 99,48

REX DUAL 30 F

300

258.000 316 271.416 95,06

***

33,40 24,79 24,52 497,66 75 65.000 78,4 67.400 95,70 8,29 6,16 6,09 123,57

REX DUAL 40 F

400

344.000 420 361.200 95,24

***

44,44 32,99 32,63 662,16 100 86.000 104,9 90.240 95,30 11,10 8,24 8,15 165,45

REX DUAL 50 F

500 430.000 527 453.220 94,88

55,77 41,39 40,94 830,97 125 108.000 131,1 112.710 95,38 13,87 10,29 10,18 206,64

REX DUAL 60 F

600 516.000 631 542.660 95,09

66,77 49,56 49,02 994,87 150 129.000 156,9 134.950 95,59 16,61 12,32 12,19 247,42

REX DUAL 70 F

700

602.000 734 631.240 95,37

77,67 57,65 57,02 1157,28 175 151.000 183,1 157.430 95,60 19,37 14,38 14,22 288,63

REX DUAL 80 F

800 688.000 840 722.400 95,24

88,89 65,97 65,26 1324,46 200 172.000 209,6 180.290 95,40 22,18 16,46 16,29 330,54

REX DUAL 100 F

1000 860.000 1048 901.280 95,42

110,90 82,31 81,42 1652,41 250 215.000 261,2 224.660 95,70 27,64 20,52 20,29 411,89

REX DUAL 124 F

1240

1.066.000 1298 1.116.280 95,53

137,35 101,94 100,84 2046,52 310 267.000 323,3 278.000 95,90 34,21 25,39 25,11 509,68

REX DUAL 150 F

1500

1.290.000 1572 1.351.920 95,42

166,35 123,46 122,12 2478,62 375 323.000 391,0 336.220 95,92 41,37 30,71 30,37 616,42

REX DUAL 170 F

1700 1.462.000 1782 1.532.520 95,40

188,57 139,96 138,44 2809,69 425 366.000 443,6 381.520 95,80 46,94 34,84 34,46 699,48

Minimum

input

Minimum

output

Medium Temp.

70°C

Heat output Furnace output

Medium Temp.

70°C

Characteristics

Pressure losses

flue

as side

Heat losses through

the chimne

Heat losses through

the casin

Heat losses with

burner of

Flue gas temp. at boiler

out

ut and air at 20 deg. C

CO2

Press. losses

water side

Design

Pressure

Total

capacit

Total

wei

Electric

suppl

Freque

Insulation

class

Electric

ower

mbar % % % °C % mbar bar l

Volt ~ Hz IP

GAS GAS

(∆T=12°C)

With electr.

contr. (excluded

pump and burner)

Nat. ga s

Lpg

Gasoil

Heavy oil

Wood

REX DUAL 14 F

0,9 5,16 0,50 0,10 148

11,0

11 5 210 442

230 50 IP X0D

20 X X - - -

REX DUAL 16 F

1,1 5,05 0,50 0,10 146

11,0

11 5 210 442

230 50 IP X0D

20 X X - - -

REX DUAL 18 F

0,9 4,96 0,50 0,10 143

11,0

12 5 246 536

230 50 IP X0D

20 X X - - -

REX DUAL 20 F

1,1 4,80 0,50 0,10 140

11,0

14 5 246 536

230 50 IP X0D

20 X X - - -

REX DUAL 24 F

1,3 4,64 0,50 0,10 136

11,0

15 5 246 536

230 50 IP X0D

20 X X - - -

REX DUAL 30 F

1,3 4,44 0,50 0,10 131

11,0

16 5 344 776

230 50 IP X0D

20 X X - - -

REX DUAL 40 F

2,2 4,26 0,50 0,10 127

11,0

17 5 344 776

230 50 IP X0D

20 X X - - -

REX DUAL 50 F

2,4 4,62 0,50 0,10 135

11,0

17 5 440 882

230 50 IP X0D

20 X X - - -

REX DUAL 60 F

2,4 4,41 0,50 0,10 130

11,0

18 5 600 969

230 50 IP X0D

20 X X - - -

REX DUAL 70 F

3,4 4,13 0,50 0,10 124

11,0

20 5 712 1114

230 50 IP X0D

20 X X - - -

REX DUAL 80 F

4,7 4,26 0,50 0,10 127

11,0

20 5 720 1167

230 50 IP X0D

20 X X - - -

REX DUAL 100 F

4,8 4,08 0,50 0,10 122

11,0

22 5 1080 1705

230 50 IP X0D

20 X X - - -

REX DUAL 124 F

7,3 3,97 0,50 0,10 120

11,0

27 5 1290 1925

230 50 IP X0D

20 X X - - -

REX DUAL 150 F

5,8 4,08 0,50 0,10 122

11,0

25 5 1710 2409

230 50 IP X0D

20 X X - - -

REX DUAL 170 F

8,0 4,10 0,50 0,10 123

11,0

27 5 1710 2409

230 50 IP X0D

20 X X - - -

Fuel

Page 8

H1 H2 H3 H4 H6 H7 H8 H10 H11

L1 L2 L4

P2 P3 P4 P6 Øb Øc N1 N2 N3 N4 N5 N6 N8

mm mm mm mm mm mm mm mm mm mm mm mm mm mm mm mm mm mm mm mm mm DN/in DN/in DN/in DN/in DN/in in in

REX DUAL 14 REX DUAL 14 F

1693

- 415 1245 1610 415 1245 780 54,5 884,5

939

756 700 540

1365

630 996 369 200-250 130 200 65 65 1" 1" 1" 1/2" 1/2"

REX DUAL 16 REX DUAL 16 F

1693

- 415 1245 1610 415 1245 780 54,5 884,5

939

756 700 540

1365

630 996 369 200-250 130 200 65 65 1" 1" 1" 1/2" 1/2"

REX DUAL 18 REX DUAL 18 F

1693 - 415 1245 1610 415 1245 780 54,5 884,5 939 756 700 540 1490 755 1121 369 200-250 130 200 65 65 1" 1" 1" 1/2" 1/2"

REX DUAL 20 REX DUAL 20 F

1693

- 415 1245 1610 415 1245 780 54,5 884,5

939

756 700 540

1490

755 1121 369 200-250 130 200 65 65 1" 1" 1" 1/2" 1/2"

REX DUAL 24 REX DUAL 24 F

1693

- 415 1245 1610 415 1245 780 54,5 884,5

939

756 700 540

1490

755 1121 369 200-250 130 200 65 65 1" 1" 1" 1/2" 1/2"

REX DUAL 30 REX DUAL 30 F

1793 - 440 1320 1710 440 1320 830 54,5 934,5 989 806 750 590 1798 1000 1400 398 200-250 160 250 80 80 1" 1" 1" 1/2" 1/2"

REX DUAL 40 REX DUAL 40 F

1793

- 440 1320 1710 440 1320 830 54,5 934,5

989

806 750 590

1798

1000 1400 398 200-250 160 250 80 80 1" 1" 1" 1/2" 1/2"

REX DUAL 50 REX DUAL 50 F

1793

- 440 1320 1710 440 1320 830 54,5 1034,5

989

806 750 590

2048

1250 1650 398 200-250 160 250 80 80 1" 1" 1" 1/2" 1/2"

REX DUAL 60 REX DUAL 60 F

1993 - 490 1470 1910 490 1470 930 54,5 1034,5 1089 906 850 690 2049 1250 1651 398 200-250 180 250 80 80 1" 1" 1" 1/2" 1/2"

REX DUAL 70 REX DUAL 70 F

1993

- 490 1470 1910 490 1470 930 54,5 1034,5

1089

906 850 690

2299

1500 1901 398 200-250 180 250 80 80 1" 1" 1" 1/2" 1/2"

REX DUAL 80 REX DUAL 80 F

2244

2040 500 1525 2139 500 1525 1069 50 1075

1129

946 890 720

2440

1502 1795 645 230-280 225 250 100 100 1" 1"

"1/4(1)+1"1/2(2 1/2" 1/2"

REX DUAL 100 REX DUAL 100 F

2624

2420 610 1825 2520 610 1825 1259 60 1275

1349

1166 1110 900

2490

1502 1847 643 270-320 225 300 100 100 1" 1"1/4 1"1/4+1"1/2(2) 1/2" 1/2"

REX DUAL 124 REX DUAL 124 F

2640 2420 610 1825 2520 610 1825 1259 60 1275 1349 1166 1110 900 2792 1792 2113 679 270-320 225 300 125 125 1" 1"1/4 1"1/4+1"1/2(2) 1/2" 1/2"

REX DUAL 150 REX DUAL 150 F

2935

2680 675 2020 2793 675 2020 1372 60 1405

1479

1296 1240 1000

2756

1753 2087 668 270-320 280 350 150 150 1" 1"1/4 1"1/2+1"1/2(2) 1/2" 1/2"

REX DUAL 170 REX DUAL 170 F

2935

2680 675 2020 2793 675 2020 1372 60 1405

1479

1296 1240 1000

2756

1753 2087 668 270-320 280 350 150 150 1" 1"1/4 1"1/2+1"1/2(2) 1/2" 1/2"

Dimensions

(1)

One fitting only

Mod 14-70

N1 - Flow N2 - Return N3 - Fitting for instruments N4 - System filling/drainage N5 - Fitting for safety valves N6 - Bulb wells N8 - Inspection well

Mod. 80-170

Page 9

2.5 REX DUAL/REX DUAL F (side by side) 80-260 BOILER

Characteristics

Efficiency 100%

(N.C.V.)

NG max flow

rate G20

NG max flow

rate G30

NG max flow

rate G31

Max flow rate

of flues

Efficiency at

30%

NG min flow

rate G20

NG min flow

rate G30

NG min flow

rate G31

Min flow rate

of flues

kW kcal/h kW kcal/h % m³/h kg/h kg/h kg/h

Medium Temp.

70°C

Medium Temp.

70°C

REX DUAL 80

800

688.000 866 744.760 92,38 91,64 68,01 67,28 1365,44 200 172.000 217,9 187.360 91,80 23,05 17,11 16,93 343,50

REX DUAL 100

1000

860.000 1084 932.240 92,25 114,71 85,14 84,21 1709,18 250 215.000 272,0 233.950 91,90 28,79 21,37 21,13 428,92

REX DUAL 124

1240

1.066.000 1344 1.155.840 92,26 142,22 105,56 104,41 2119,08 310 267.000 337,7 290.410 91,80 35,73 26,52 26,23 532,44

REX DUAL 150

1500

1.290.000 1626 1.398.360 92,25 172,06 127,70 126,32 2563,69 375 323.000 408,5 351.310 91,80 43,23 32,08 31,74 644,09

REX DUAL 170

1700

1.462.000 1842 1.584.120 92,29 194,92 144,67 143,10 2904,31 425 366.000 463,0 398.150 91,80 48,99 36,36 35,97 729,97

REX DUAL 190

1900

1.634.000 2060 1.771.600 92,23 217,99 161,79 160,04 3248,05 475 409.000 518,0 445.470 91,70 54,81 40,68 40,24 816,72

REX DUAL 200

2040

1.754.000 2212 1.902.320 92,22 234,07 173,73 171,84 3487,64 510 439.000 556,2 478.300 91,70 58,85 43,68 43,21 876,91

REX DUAL 240

2400

2.064.000 2602 2.237.720 92,24 275,34 204,36 202,14 4102,57 600 516.000 653,6 562.090 91,80 69,16 51,33 50,78 1030,53

REX DUAL 260

2600

2.236.000 2818 2.423.480 92,26 298,20 221,32 218,92 4443,18 650 559.000 708,8 609.600 91,70 75,01 55,67 55,07 1117,64

Minimum

input

Minimum

output

Medium Temp.

70°C

Heat output Furnace output

Medium Temp.

70°C

Characteristics

Pressure losses

flue

as side

Heat losses through

the chimne

Heat losses through

the casin

Heat losses with

burner off

Press. losses

water side

Design

Pressure

Total

acit

Total

wei

Electric

suppl

Freque

Insulation

class

Electric

owe

mbar % % % °C °C °C % % % mbar bar l

Volt ~ Hz IP

GAS GASOIL

HEAVY

OIL

GAS GASOIL

HEAVY

OIL

(∆T=12°C)

With electr.

contr. (excluded

pump and burner)

N a t. ga s

Lpg

Gasoil

Heavy oil

W ood

REX DUAL 80

4,1 6,82 0,80 0,10 182 185 184

10,5 13,5 14,0

20 5 720 1167

230 50 IP X0D

20 XXXX-

REX DUAL 100

4,2 6,95 0,80 0,10 185 188 187

10,5 13,5 14,0

22 5 1080 1705

230 50 IP X0D

20 XXXX-

REX DUAL 124

6,4 6,94 0,80 0,10 185 188 187

10,5 13,5 14,0

27 5 1290 1925

230 50 IP X0D

20 XXXX-

REX DUAL 150

5,2 6,95 0,80 0,10 185 188 187

10,5 13,5 14,0

25 5 1710 2409

230 50 IP X0D

20 XXXX-

REX DUAL 170

7,2 6,91 0,80 0,10 184 187 187

10,5 13,5 14,0

27 5 1710 2409

230 50 IP X0D

20 XXXX-

REX DUAL 190

5,2 6,97 0,80 0,10 185 188 188

10,5 13,5 14,0

32 5 1900 2833

230 50 IP X0D

20 XXXX-

REX DUAL 200

4,0 6,98 0,80 0,10 186 189 188

10,5 13,5 14,0

26 5 2400 3686

230 50 IP X0D

20 XXXX-

REX DUAL 240

5,5 6,96 0,80 0,10 185 188 188

10,5 13,5 14,0

30 5 2400 3686

230 50 IP X0D

20 XXXX-

REX DUAL 260

6,5 6,94 0,80 0,10 185 188 187

10,5 13,5 14,0

32 5 2400 3686

230 50 IP X0D

20 XXXX-

Flue gas temp. at boile

output and air at 20 deg.

CO2 Fuel

Characteristics

Efficiency 100%

(N.C.V.)

NG max flow

rate G20

NG max flow

rate G30

NG max flow

rate G31

Max flow rate

of flues

Efficiency at

30%

NG min flow

rate G20

NG min flow

rate G30

NG min flow

rate G31

Min flow rate

of flues

kW kcal/h kW kcal/h % m³/h kg/h kg/h kg/h

Medium Temp.

70°C

Medium Temp.

70°C

REX DUAL 80 F

800

688.000 840 722.400 95,24 88,89 65,97 65,26 1324,46 200 172.000 209,6 180.290 95,40 22,18 16,46 16,29 330,54

REX DUAL 100 F

1000 860.000 1048 901.280 95,42 110,90 82,31 81,42 1652,41 250 215.000 261,2 224.660 95,70 27,64 20,52 20,29 411,89

REX DUAL 124 F

1240

1.066.000 1298 1.116.280 95,53 137,35 101,94 100,84 2046,52 310 267.000 323,3 278.000 95,90 34,21 25,39 25,11 509,68

REX DUAL 150 F

1500

1.290.000 1572 1.351.920 95,42 166,35 123,46 122,12 2478,62 375 323.000 391,0 336.220 95,92 41,37 30,71 30,37 616,42

REX DUAL 170 F

1700

1.462.000 1782 1.532.520 95,40 188,57 139,96 138,44 2809,69 425 366.000 443,6 381.520 95,80 46,94 34,84 34,46 699,48

REX DUAL 190 F

1900

1.634.000 1994 1.714.840 95,29 211,01 156,61 154,91 3144,05 475 409.000 496,3 426.850 95,70 52,52 38,98 38,56 782,58

REX DUAL 200 F

2040

1.754.000 2138 1.838.680 95,42 226,24 167,92 166,10 3370,98 510 439.000 532,6 458.070 95,75 56,36 41,83 41,38 839,82

REX DUAL 240 F

2400

2.064.000 2518 2.165.480 95,31 266,46 197,76 195,62 3970,25 600 516.000 626,0 538.340 95,85 66,24 49,16 48,63 986,99

REX DUAL 260 F

2600

2.236.000 2728 2.346.080 95,31 288,68 214,25 211,93 4301,33 650 559.000 678,6 583.630 95,78 71,81 53,30 52,72 1070,02

Heat output Furnace output

Medium Temp.

70°C

Minimum

input

Minimum

output

Medium Temp.

70°C

Characteristics

Pressure losses

flue gas side

Heat losses through

the chimney

Heat losses through

the casing

Heat losses with

burner off

Flue gas temp. at boiler

output and air at 20 deg. C

CO2

Press. losses

water side

Design

Pressure

Total

capacity

Total

weight

Electric supply

Freque

ncy

Insulation

class

Electric

power

mba

%%% °C%mba

rbar

Volt ~ Hz IP

GAS GAS

(∆T=12°C)

With electr.

contr. (excluded

pump and burner)

Nat. gas

Lpg

Gasoil

Heavy oil

Wood

REX DUAL 80 F

4,7 4,26 0,50 0,10 127

11,0

20 5 720 1167

230 50 IP X0D

20 X X - - -

REX DUAL 100 F

4,8 4,08 0,50 0,10 122

11,0

22 5 1080 1705

230 50 IP X0D

20 X X - - -

REX DUAL 124 F

7,3 3,97 0,50 0,10 120

11,0

27 5 1290 1925

230 50 IP X0D

20 X X - - -

REX DUAL 150 F

5,8 4,08 0,50 0,10 122

11,0

25 5 1710 2409

230 50 IP X0D

20 X X - - -

REX DUAL 170 F

8,0 4,10 0,50 0,10 123

11,0

27 5 1710 2409

230 50 IP X0D

20 X X - - -

REX DUAL 190 F

5,9 4,21 0,50 0,10 126

11,0

32 5 1900 2833

230 50 IP X0D

20 X X - - -

REX DUAL 200 F

4,5 4,08 0,50 0,10 122

11,0

26 5 2400 3686

230 50 IP X0D

20 X X - - -

REX DUAL 240 F

6,2 4,19 0,50 0,10 125

11,0

30 5 2400 3686

230 50 IP X0D

20 X X - - -

REX DUAL 260 F

7,3 4,19 0,50 0,10 125

11,0

32 5 2400 3686

230 50 IP X0D

20 X X - - -

Fuel

Page 10

H1 H2 H4 H6 H10

L2 L4

P2 P3 P4 P5 P6 Øb Øc N1 N2 N3 N4 N5 N6 N8

mm mm mm mm mm mm mm mm mm mm mm mm mm mm mm mm mm DN/in DN/in DN/in DN/in DN/in in in

REX DUAL 80 REX DUAL 80 F

1690

1015 500 1095 500 50

1901

890 955

1872

1502 600 850 422 230-280 225 250 100 100 1" 1" 1"1/4(1) 1/2" 1/2"

REX DUAL 100 REX DUAL 100 F

1880

1205 610 1285 610 60

2341

1110 1175

1946

1502 663 850 433 270-320 225 300 100 100 1" 1"1/4 1"1/4 1/2" 1/2"

REX DUAL 124 REX DUAL 124 F

1900

1205 610 1285 610 60

2341

1110 1175

2235

1792 663 1150 422 270-320 225 300 125 125 1" 1"1/4 1"1/4 1/2" 1/2"

REX DUAL 150 REX DUAL 150 F

2155

1335 675 1417 675 60

2600

1240 1305

2247

1753 704 1100 443 270-320 280 350 150 150 1" 1"1/4 1"1/2 1/2" 1/2"

REX DUAL 170 REX DUAL 170 F

2155

1335 675 1417 675 60

2600

1240 1305

2247

1753 704 1100 443 270-320 280 350 150 150 1" 1"1/4 1"1/2 1/2" 1/2"

REX DUAL 190 REX DUAL 190 F

2155

1335 675 1417 675 60

2600

1240 1305

2497

2003 704 1200 593 270-320 280 350 200 200 1" 1"1/4 1"1/2 1/2" 1/2"

REX DUAL 200 REX DUAL 200 F

2030

1485 750 1568 750 60

2900

1390 1455

2477

2003 703 1200 574 270-320 280 400 200 200 1" 1"1/4 1"1/2 1/2" 1/2"

REX DUAL 240 REX DUAL 240 F

2030

1485 750 1568 750 60

2900

1390 1455

2477

2003 703 1200 574 270-320 280 400 200 200 1" 1"1/4 1"1/2 1/2" 1/2"

REX DUAL 260 REX DUAL 260 F

2030

1485 750 1568 750 60

2900

1390 1455

2477

2003 703 1200 574 270-320 280 400 200 200 1" 1"1/4 1"1/2 1/2" 1/2"

Dimensions

(1)

One fitting only

N1 - Flow N2 - Return N3 - Fitting for instruments N4 - System filling/drainage N5 - Fitting for safety valves N6 - Bulb wells N8 - Inspection well

Page 11

2.6 STR BOILER

Characteristics

Efficiency 100%

(N.C.V.)

Effic. 100%

(stars)

NG max flow

rate G20

NG max flow

rate G30

NG max flow

rate G31

Max flow rate

of flues

Efficiency at

30%

NG min flow

rate G20

NG min flow

rate G30

NG min flow

rate G31

Min flow rate

of flues

kcal/h kW kcal/h % % m³/h kg/h kg/h kg/h

kW kcal/h kW kcal/h % m³/h kg/h kg/h kg/h

Medium Temp.

70°C

(Efficienty Dir.

92/42/CEE

)

Medium Temp.

70°C

STR 20

232

200.000 252 216.720 92,06

26,67 19,79 19,58 397,38 116 100.000 127,7 109.810 90,85 13,51 10,03 9,92 201,33

STR 25

291

250.000 314 270.040 92,68

33,23 24,66 24,39 495,13 145,5 125.000 160,7 138.170 90,56 17,00 12,62 12,48 253,32

STR 30

349

300.000 378 325.080 92,33

40,00 29,69 29,37 596,00 174,5 150.000 192,4 165.440 90,71 20,36 15,11 14,94 303,32

STR 35

407

350.000 441 379.260 92,29

46,67 34,64 34,26 695,38 203,5 175.000 223,9 192.530 90,90 23,69 17,58 17,39 352,98

Heat output Furnace output

Medium Temp.

70°C

Minimum

input

Minimum

output

Medium Temp.

70°C

Characteristics

Pressure losses

flue

as side

Heat losses through

the chimne

Heat losses through

the casin

Heat losses with

burner of

Press. losses

water side

Design

Pressure

Total

capacit

Total

wei

Electric suppl

Freque

Insulation

class

Electric

powe

mbar % % % °C °C °C % % % mbar bar l

Volt ~ Hz IP

GAS GASOIL

HEAVY

OIL

GAS GASOIL

HEAVY

OIL

(∆T=12°C)

With electr.

contr. (excluded

pump and burner)

Nat. gas

Lpg

Gasoil

H eavy oil

Wood

STR 20

2,0 7,14 0,80 0,10 189 192 192

10,5 13,5 14,0

16 5 320 780

230 50 IP X0D

20 XXXX -

STR 25

2,5 6,52 0,80 0,10 175 178 178

10,5 13,5 14,0

18 5 320 780

230 50 IP X0D

20 XXXX -

STR 30

3,0 6,87 0,80 0,10 183 186 186

10,5 13,5 14,0

20 5 390 980

230 50 IP X0D

20 XXXX -

STR 35

4,0 6,91 0,80 0,10 184 187 187

10,5 13,5 14,0

25 5 390 980

230 50 IP X0D

20 XXXX -

Flue gas temp. at boile

output and air at 20 deg.

CO2 Fuel

Dimensions H

H1 H2 H4 H6 H10

P2 P3 P4 P5 P6 Øb Øc N1 N2 N3 N4 N5 N6 N8

mm mm mm mm mm mm mm mm mm mm mm mm mm mm mm mm DN/in DN/in DN/in DN/in DN/in in in

STR 20

1375

1200 440 1292 900 155

750

700

1900

1410 685 800 415 270-320 180 250 65 65 1" 1" 1" 1/2" 1/2"

STR 25

1375

1200 440 1292 900 155

750

700

1900

1410 685 800 415 270-320 180 250 65 65 1" 1" 1" 1/2" 1/2"

STR 30

1465

1290 460 1382 950 155

800

750

1950

1460 685 850 415 270-320 225 250 80 80 1"1/4 1"1/4 1" 1/2" 1/2"

STR 35

1465

1290 460 1382 950 155

800

750

1950

1460 685 850 415 270-320 225 250 80 80 1"1/4 1"1/4 1" 1/2" 1/2"

N1 - Flow N2 - Return N3 - Fitting for instruments N4 - System filling/drainage N5 - Fitting for safety valves N6 - Bulb wells N8 - Inspection well

Page 12

3 INSTALLATION

Before connecting the boiler, perform the following operations:

• Thoroughly clean all the system pipes in order to remove any foreign matter that could affect correct op-

eration of the boiler;

• Check that the flue has an adequate draught, that there is no narrowing of passages and that it is free

from debris; also check that other appliances do not discharge into the flue (unless designed to serve several utilities). See the regulations in force.

3.1 THERMAL PLANT

3.1.1 BOILER ROOM

As a rule, regulations in force should be always observed. Premises in which boilers will be installed should be sufficiently ventilated and guarantee access for ordinary and extraordinary maintenance operations.

3.1.2 FLUE

The pressurised boiler that now equips your heating system is so-called because it uses a burner provided with fan which introduces into the combustion chamber the exact amount of air necessary in relation to the fuel and maintains an overpressure in the furnace equivalent to all the internal resistances of the flue gas path as far as the boiler exhaust. At this point the fan pressure should have dropped to zero to prevent the flue connection pipe and the lower area of the flue itself from being under pressure and combustion gas leaks occurring in the boiler room. The connection pipe from the boiler to the base of the flue must slope upwards in the direction of the flue gas flow with recommended gradient of no less than 10%. Its path must be as short and straight as possible with the bends and fittings rationally designed in accordance with air duct criteria

The paragraph Technical Specifications specifies the flue connection diameters of the boilers for lengths of up to 1 metre. For more winding paths, the diameter must be suitably enlarged.

Page 13

3.2 HYDRAULIC CONNECTION

3.2.1 HOT WATER HEATING SYSTEM WITH CLOSED EXPANSION VESSEL - Furnace output ≤

300.000 kcal/h - pressure 5 bar (Fig. 1)

3.2.2 HOT WATER HEATING SYSTEM WITH CLOSED EXPANSION VESSEL - Furnace output > 300,000 kcal/h - pressure 5 bar (Fig. 2)

Ensure that the hydraulic pressure measured after the reduction valve on the supply pipe does not exceed the operating pressure specified on the rating plate of the component (boiler, heater etc.).

− As the water contained in the heating system increases in pressure during operation, ensure that its

maximum value does not exceed the maximum hydraulic pressure specified on the component rating plate (5 bar).

− Ensure that the safety valve outlets of the boiler and hot water tank, if any, have been connected to an

exhaust funnel in order to prevent the valves from flooding the room if they open.

− Ensure that the pipes of the water and heating system are not used as an earth connection for the

electrical system as this can seriously and very rapidly damage the pipes, boiler, heater and radiators.

− Once the heating system has been filled, you are advised to close the supply cock and keep it closed so

that any leaks from the system will be identified by a drop in hydraulic pressure indicated on the system pressure gauge.

The generator must be provided with: a - Safety valve b - Expansion vessel (connected with a hose ≥ 18

mm diameter) c - Regulation thermostats d - Safety thermostat e - Cut-off pressure switch f - Well for control thermometer g - Pressure gauge with flange for control pressure

gauge h - Heat discharge valve or fuel on-off valve. N1 - Flow N2 - Return N3 – Instrument fitting N4 – Lower fitting:

N4b expansion vessel fitting

N4c filling/drain N6 - Bulb wells (thermometer, pump consent thermo-

stat, regulation thermostat, safety thermostat).

The generator must be provided with: a - 1 safety valve 2 safety valves if output is > 500,000 kcal/h b - Expansion vessel c - Regulation thermostats d - 1st safety thermostat f - Cut-off pressure switch g - Well for control thermometer h - Pressure gauge with flange for control pres-

sure gauge i - Heat discharge valve or fuel on-off valve N1 - Flow N2 - Return N3 - Instrument fitting N4 - Lower fitting: N4b expansion vessel fitting N4c Filling/drain N5 - Safety valves fitting N6 -Bulb wells (thermometer, pump consent

thermostat, regulation thermostat, safety thermostat)

Fig. 2

Fig. 1

Page 14

3.2.3 REX DUAL/REX DUAL F (side by side) 80÷260 POSITIONING INSTRUMENTS

Key

1. Pressure switch fitting

2. 1

safety valve fitting or thermal drainage 1st safety

3. 1

boiler circulator consent thermostat and safety thermostat bulb wells

4. Manometer fitting with control manometer flange

5. 2

safety valve fitting or thermal drainage 1st safety

6. 2

boiler circulator consent thermostat and safety thermostat bulb wells

7. Flanges to weld after the definitive and correct positioning of the boilers

8. 1

and 2nd boiler fuel valve bulbs wells

9. Boiler thermometer bulb well

10. 1

and 2nd boiler bi-thermostats bulbs well, digital regulator thermal-resistance (optional)

11. Temperature test bulb wells M. Flow R. Return

Page 15

−

3.3 ELECTRICAL CONNECTION

Electrical systems of thermal plants designed only for heating purposes must comply with numerous legal regulations which apply to in general as well as specifically to each application or fuel type.

3.4 REX/REX F/REX K/REX K F/STR CONTROL PANEL (Fig. 3)

The control panel supplied with the boilers is made of self-extinguishing plastic and houses the regulation and safety instruments:

Fig. 3

KEY

1 PANEL LIVE 2 BURNER SWITCH N. 1 4 HEATING PUMP SWITCH 7 BOILER THERMOMETER 8 CONTROL THERMOSTAT N. 1 9 SAFETY LIMIT THERMOSTAT N. 1 11 CONTROL THERMOSTAT N. 2

The upper part of the control panel can be rotated to gain access to the terminal board and uncoil the thermostat and thermometer capillaries. A copy of the wiring diagram is contained inside the control panel cover. The regulation thermostats (TR1-TR2) have an operating range from 60° to 90° and can be set by the user by means of the front knob. Safety thermostats (TS) has a fixed setting of 100 (+0/-6)°C and can be manually reset in accordance with Ministerial Decree 1/12/75 «R». Circulator consent thermostat (TM) has a fixed setting of 50°C with a working range of 6°C: at start-up, with the heating system cold, this permits higher boiler temperatures to be maintained thus reducing the risk of flue gas condensation. For correct installation, refer to the boiler casing assembly instructions.

WIRING DIAGRAM

Refer to the diagram supplied with the specific switchboard.

Page 16

3.5 REX DUAL/REX DUAL F OPERATING PRINCIPLES

The boiler consists of 2 units of same capacity and one only control panel for both units. Each unit can work independently and the boiler can be operated partially. This means that all panel controls (burner switches, thermostats and thermometers) have been doubled. See paragraph 4.5 on connection. As an example, bithermostats TR1 and TR2 can be adjusted so that there is a 10°C intervention difference between each other (do not forget that knobs have a 43° to 85° regulation range with a 1/2 turn rotation about). Flow water temperature after 2 equal flows have been mixed corresponds to mean flow temperature of two units

3.5.1 REX DUAL/REX DUAL F CONTROL PANEL (Fig. 4)

The standard control panel is made of plastic with IP40 protection degree and houses the regulation and safety instruments:

The regulation bi-thermostats (TR1 and TR2) have an operating range from 43° to 85° and can be set by the user by means of the front knob. The temperature differential of each bi-thermostat is fixed and approx. 7°C.

Safety thermostats (TS1 and TS2) have a fixed setting of 100 (+0/-6)°C and can be manually reset in accordance with Ministerial Decree 1/12/75 «R».

Circulator consent thermostats (TM1 and TM2) have a fixed setting of 45°C with a working range of 6°C: at start-up, with the heating system cold, this permits higher boiler temperatures to be maintained thus reducing the risk of flue gas condensation. For correct installation, refer to the boiler casing assembly instructions..

Note: both hour meters start each time their own burner starts. It is recommended that the numbers displayed by both hour meters are monitored . This helps guarantee that burners have almost the same number of working hours.

Fig. 4

KEY

1 PANEL LIVE 2 BURNER SWITCH N. 1 3 BURNER SWITCH N. 2 4 HEATING PUMP SWITCH 7 BOILER THERMOMETER 8 CONTROL THERMOSTAT N. 1 9 SAFETY LIMIT THERMOSTAT N. 1 11 CONTROL THERMOSTAT N. 2 12 SAFETY LIMIT THERMOSTAT N. 2 13 HOURS RUN METER BOILER N. 1 14 HOURS RUN METER BOILER N. 2

WIRING DIAGRAM

Refer to the diagram supplied with the specific switchboard.

Page 17

3.6 INVERTING THE DOOR APERTURE

If the door is to be opened to the opposite side, act as follows:

1. Switch the outside nut (or bush) of one hinge with the diametrically opposite closure bush; then at the hinge side, fasten the cone to the door with the inside nut.

2. Repeat the operation for the other hinge.

3. For any adjustment needed, act on the specific hinge nuts.

3.7 BURNER CONNECTION

Before installation you are advised to thoroughly clean the inside of all the fuel supply system pipes in order to remove any foreign matter that could affect correct operation of the boiler. See technical specification tables and check the max pressure value inside the furnace. The value found on the table may also increase by 20% if heavy oil is used instead of gas or light oil; furthermore the following checks should also be carried out: a) Check the internal and external seal of the fuel supply system; b) Regulate the fuel flow according to the power required by the boiler; c) Check that the boiler is fired by the correct type of fuel; d) Check that the fuel supply pressure is within the values specified on the burner rating plate; e) Check that the fuel supply system is sized for the maximum flow rate necessary for the boiler and that it

is provided with all control and safety devices provided for by the regulations referred to above;

f) Check that the boiler room vents are sized in order to guarantee the air flow established by the regula-

tions referred to above and that they are in any case sufficient to obtain perfect combustion.

In particular, when using gas: g) Check that the feeding line and the gas ramp comply with the regulations in force; h) Check that all the gas connections are sealed; i) Check that the gas pipes are not used as earth connections for electrical appliances. If the boiler is not going to be used for some time, close the fuel supply cock or cocks.

IMPORTANT: check that the air spaces between the burner draught tube and the manhole are suitably filled with thermoinsulating material (Fig. 5). The boiler is supplied with a piece of ceramic rope.

Should this not suit the burner used, use a braid of different diameter bur same material.

All details on the draught tube length (P6), the diameter of the burner hole (Øb) and the pressurization are included in the par. Technical Specifications.

Fig. 5

KEY:

1. Burner

2. Manhole

3. Thermoinsulating material

4. Flange

Page 18

4 ASSEMBLY

4.1 REX K/REX K F ASSEMBLY (Fig. 6-7)

Ensure that installation premises floor is even and perfectly horizontal. For perfect welding, use acid or rutile cored electrodes (check codes AWS E6020 or AWS E6013 or E44LA3 or E44LC3).

a) Put the boiler rear plate (1) on the floor with the hinges pointing down and ensure that it is perfectly lev-

elled (mark the middle of the plate sides in order to position correctly the furnace and the tube nest.

b) Position the furnace (2) on the internal edge of the front plate (1) keeping the longitudinal welding of the

furnace in the lower part of the boiler. Ensure that plate and furnace are perfectly perpendicular when coupling them.

c) Weld the furnace (2) onto the front plate (1) along the outer circumference. d) Add the top tube nest part (3) (the return stub which can be recognised by its flow trap (4) welded inside

the tube nest, must be close to the front tube plate). For positioning, ensure that the flanged stub hole axis is aligned with the sign previously marked on the plate middle. For easy centering, check height A between the tube nest edge and the plate edge. Spot-weld the middle only.

e) Position the lower tube nest (5) in respect of height B and spot-weld it only in the lower middle part of the

rear plate (1).

f) Spot-weld the two tube nest parts (3) and (5) g) Position the rear tube plate (6) and insert the tie rod or the stiffening stub (8) in the furnace. h) Weld the rear tube plate (6) and the tie rod or stiffening stub (8), carefully avoiding any damage to the

four threaded rivets or screws which will be used to secure the smokebox.

i) Weld all the nest (3) and (5) onto the rear plate (1). j) Now, smoke tubes (7) can be inserted and welded on the rear plate tube (6) keeping the boiler in upright

position or (but welding will be more difficult) horizontally; the choice will depend on the size of premises and the equipment available to turn the boiler upside down. Caution: smoke tuber (7) must protrude 3

mm from the front plate (1) and approx. 10 mm from the rear plate (6).

NB: the condensate groove for the F version (with extruded aluminium) must be positioned in the lower section (see Fig. 7)

k) Spot-weld the drain (N4) and ensure that it is perpendicular to the front plate (1) and parallel to the tube

nest.

l) Position the boiler horizontally. For this reason, a lifting hook is supplied that can be conveniently welded

to the tube nest in order to simplify the boiler overturning. Remember not to have this hook protruding form the casing.

m) Weld the two parts of the tube nest (5) and (6) longitudinally as well as the furnace inside (2) to the front

plate (1); you can simplify this operation by using rolls for rotating.

n) Weld both ½” couplings (N6) onto the tube nest (3) after having ensured that the bulb sheaths inclination

is correct to avoid that sheaths are not blocked by smoke tubes; remove sheaths when welding. Weld the two flanged stubs (N1) and (N2) for flow and return, ensuring that flanges are perfectly horizontal. Weld the instrument fitting (N3) and fittings (N5) if included in the supply.

o) Weld smoke tubes (7) onto the rear plate (1). p) Ensure that plate shapes (1) and (6) have not been altered and weld on plate surface the side frames

(9).

q) Weld the square tubes (10) that support the casing and, if part of the supply, weld also the side ones

keeping height C.

r) Carry out the hydraulic test under 7.5 bar pressure. FILL THE GUARANTEE WITH THE TEST DATE. s) Install the manhole (11) and the smoke box (12). t) Touch-up visible parts by using the paint supplied.

Warning: before start up insert turbolators in the tube nest pushing until their reach the tube plate.

Page 19

MOD 7 8 9 10 12 15 20 25 30 35 40 50 62 75 85 95 100 120 130 140 160 180

100 100 100 100 100 100 100 100 100 100 85 85 85 85 85 85 85 85 85 85 85 85

100 100 100 100 100 100 100 100 100 100 95 125 125 125 125 125 125 125 125 215 215 215

- - - - - - - - - - - 550 550 605 605 605 680 680 680 - - -

Key

1. Front tube plate

2. Furnace

3. Upper tube nest

4. Flow trap

5. Lower tube nest

6. Rear tube nest

7. Smoke tubes

8. Tie rod or stiffening stub

9. Side frame

10. Square tubes

11. Manhole

12. Smokebox N1 Flow N2 Return N3 Instrument fitting N4 Lower fitting N5 Fitting for safety valve and expansion vessel N6 Bulb wells

Fig. 6

Fig. 7

DIMENSIONS AND WEIGHTS OF THE BULKIEST PARTS

Furnace Manhole

MOD.

length

weight

width

height

weight

400 645 24 700 630 33

400 770 29 700 630 33

450 1018 53 750 680 40

450 1240 67 750 680 65

500 1240 73 850 778 90

500 1490 88 850 778 90

545 1490 115 890 807 110

645 1500 145 1100 984 180

645 1790 172 1100 984 180

690 1800 227 1240 1130 210

690 2050 257 1240 1130 210

100

790 2065 316 1390 1270 235

120

790 2065 316 1390 1270 235

130

790 2065 316 1390 1270 235

140

845 2378 390 1470 1367 435

160

845 2378 390 1470 1367 435

180

845 2588 425 1470 1367 435

Page 20

4.2 REX/REX F/REX K/REX K F 7-40 BOILER CASINGS (Fig. 8)

a) Wrap the glass wool around the boiler body leaving the bulb well (P) on the right side exposed. b) Insert the wires connecting the burner to the control panel in the lower slits of panel (1S) and (1D), allow-

ing for the opening direction of the manhole.

c) Fit the panel (1S), inserting the upper fold into the square tube and the lower fold to the boiler side

frame.

d) Fit the upper panel (2S) on the boiler and fit on this panel the control panel; uncoil the thermometer and

thermostat capillaries and insert the bulbs in the wells.

e) Fit panel (1D) as indicated under point c); fit panel (2D) ensuring that the capillaries are inserted in the

slot provided in the panel itself. Securing the control panel.

f) Secure the upper panels by screws and close the passage holes with special caps (see figure)

Super-isolation (on request)

g) Fit panels (3) and (4) connecting them to the side panels.

Fig. 8

Key: P Bulb wells – TR1-TR2 Regulation thermostats - TS Safety thermostat - TM Circulator consent thermo-

stat - TMC Boiler thermometer.

Page 21

4.3 REX/REX F/REX K/REX K F 50-130 BOILER CASINGS (Fig. 9)

a) Wrap the glass wool around the boiler body leaving the bulb well on the right side exposed. b) Insert the wires connecting the burner to the control panel in the lower slits of panel (1S) and (1D), allow-

ing for the opening direction of the manhole.

c) Fit the lower panel (1S), inserting the fold into the square tube and repeat the same procedure with the

upper panel (2S).

d) Fit the upper panel (3S) on the boiler; fit the control panel on the panel (3S); uncoil the thermometer and

thermostat capillaries and insert the bulbs in the wells.

e) Fit the panels (1D) (2D) and (3D) ensuring that the capillaries are inserted in the slot provided in the

panel (3D); securing the control panel to panel (3D).

Super-isolation (on request)

f) Fit the panels (5S) and (5D), connecting them to the side panels by means of the brackets; fit the front

panels (4B) and (4A) connecting them to panels (5S) and (5D). Close the manhole casing by fitting the upper panel (6) secured by screws; close holes with special caps (see figure).

g) Fit the panels (8S) and (8D), connecting them to the side panels by means of the brackets; fit the rear

panels (9B) and (9A) connecting them to panels (8S) and (8D). Close the smokebox casing by fitting the upper panel (10) secured by screws; close holes with special caps (see figure).

Fig. 9

Key: P Bulb wells – TR1-TR2 Regulation thermostats – TS Safety thermostat - TM Circulator consent thermo-

stat - TMC Boiler thermometer.

Page 22

4.4 REX DUAL/REX DUAL F 14-70 BOILER CASINGS (Fig. 10)

a) Wrap the glass wool around the boiler body leaving the bulb well (P) on the right side exposed. b) Open control panel and, through the casing holes (P1 or P2) insert bulbs in their wells (see figure). Fit

the control panel.

c) Fit panels (P1 and P4) inserting the upper fold into the square tube and the lower fold to the boiler side

frame.

d) Fit panels (P2 and P3) inserting the upper fold into the square tube and the lower fold to the boiler side

frame; join side panels by inserting the tongues in their slots.

e) Fit panel (P5). f) Fit the control panel with electrical connections

Fig. 10

Key: P Bulb wells - TR1 1st boiler regulation thermostat - TR2 2nd boiler regulation thermostat - TS1 1st boiler

safety thermostat - TS2 2

boiler safety thermostat – TM1 1st boiler circulation consent thermometer -

TM2 2

boiler circulation consent thermometer - TMC boiler thermometer.

NOTE: FOR THE POSITIONING OF THE REX DUAL/REX DUAL F (side by side) 80-260 BOILER’S BULBS SEE

PAR. 3.2.3.

Page 23

4.5 STR BOILER CASINGS (Fig. 11)

ing for the opening direction of the manhole.

c) Fit the lower panel (1S), inserting the fold into the square tube and repeat the same procedure with the

upper panel (2S).

d) Fit the upper panel (3S) on the boiler; fit the control panel on the panel (3S); uncoil the thermometer and

thermostat capillaries and insert the bulbs in the wells.

e) Fit the panels (1D) (2D) and (3D) ensuring that the capillaries are inserted in the slot provided in the

panel (3D); securing the control panel to panel (3D).

f) Fit the panels (4S) and (4D), connecting them to the side panels by means of the brackets; fit the front

panel (5) connecting it to panels (4S) and (4D). Close the manhole casing by fitting the upper panel (6).

g) Fit the back panel (7), connecting it to the side panels by means of the brackets.

Fig.11

Key: P Bulb wells – TR1-TR2 Regulation thermostats – TS Safety thermostat - TM Circulator consent thermo-

stat - TMC Boiler thermometer.

Page 24

5 START UP

WARNING: Before start up insert wholly turbolators into the smoke tubes ensuring that they have been pushed inside for at least 100 mm.

5.1 PRELIMINARY CHECKS

Before starting the boiler, check that:

- The rating plate specifications and power supply network (electricity, water, gas or fuel oil) specifica- tions correspond;

- The burner power range is compatible with the power of the boiler;

- The boiler room also contains the instructions for the burner;

- The flue gas exhaust pipe is operating correctly;

- The air inlet supply is well dimensioned and free from any obstacle;

- The manhole, the smokebox and the burner plate are closed in order to provide a complete flue gas seal;

- The system is full of water and that any air pockets have therefore been eliminated;

- The anti-freeze protections are operative;

- The water circulation pumps are operating correctly.

- The expansion vessel and the safety valve(s) have been connected correctly (with no interception) and are properly operating.

- Check the electrical parts and thermostat operation.

5.2 WATER TREATMENT

The most common phenomena that occur in heating systems are:

- Scaling

Scale obstructs heat transfer between the combustion gases and the water, causing an abnormal increase in the temperature of the metal and therefore reducing the life of the boiler. Scale is found mostly at the points where the wall temperature is highest and the best remedy, at construction level, is to eliminate areas that overheat. Scale creates an insulating layer which reduces the thermal transfer of the generator, affecting system efficiency. This means that the heat produced by burning the fuel is not fully exploited and is lost to the flue.

Scale diagram

Key % % fuel not used mm mm scale

- Corrosion on the water side

Corrosion of the metal surfaces of the boiler on the water side is due to the passage of dissolved iron through its ions (Fe+). In this process the presence of dissolved gases and in particular of oxygen and carbon dioxide is very important. Corrosion often occurs with softened or demineralised water which has a more aggressive effect on iron (acid water with Ph <7): in these cases, although the system is protected from scaling, it is not protected against corrosion and the water must be treated with corrosion inhibitors.

5.3 FILLING THE SYSTEM

The water must enter the system as slowly as possible and in a quantity proportional to the air bleeding capacity of the components involved. Filling times vary depending on the capacity and characteristics of the system but should never be less than 2 or 3 hours.

In the case of a system with closed expansion vessel, water must be let in until the pressure gauge indicator reaches the static pressure value pre-set by the vessel. Heat the water to maximum temperature and never over 90°C. During this operation the air contained in the water is released through the automatic air separators or through manual bleed valves. The water discharged from the system with elimination of the air is made up by the automatic or manual filling valve.

Page 25

6 OPERATION

6.1 OPERATING CHECKS

The heating system must be correctly operated to ensure perfect combustion as far as possible with reduced emissions of carbon monoxide, unburnt hydrocarbons and soot into the atmosphere, and to avoid hazards and damage to people and goods. Guide to combustion values:

FUELS %CO2 Flue gases temperature % CO

Gas 10 190°C 0 – 20 ppm Gas oil 13 195°C 10 – 80 ppm Heavy oil 13.5 200°C 50 – 150 ppm

A diagram is provided in which the system efficiency is obtained according to the flue gas temperature, the ambient temperature and the percentage of carbon dioxide (CO

). Dispersions through the boiler casings are

not considered.

Example:

Fuel used ............................GAS OIL

Ambient temperature.................20 °C

%CO

..........................................13 %

Efficiency……...........................91.4 %

Key:

Tf Flue gas temperature – Ta Ambient temperature °C – Go Gas oil – Ho Heavy oil – G Gas

% EFFICIENCY CHART (significant losses only)

Page 26

Pressurisation values should be included in the range given in the table of technical specifications.

WARNING The differential temperature between boiler flow and return must not exceed 15°C in order to prevent thermal shock to the boiler structures. The temperature of the return water must be above 55°C in order to protect the boiler from corrosion due to condensation of the flue gases on cold surfaces; for this purpose it is useful to install a 3 or 4-way mixing valve. The guarantee does not cover damages caused by condensate. A recirculation pump (anticondensate pump) must be installed to mix the cold returns. This pump should have a minimum flow rate equal to approximately 5 m3/h or equal to 1/3 or 1/4 of the heating system pump flow rate.

It is necessary to keep the burner switch always switched on in order to maintain water temperature equal approximately to the value set through the thermostat.

If the flue gas seal is poor in the front part of the boiler (manhole and burner plate) or the back part (smokebox), the closing tie rods of the individual parts must be adjusted; if this is not sufficient, the seals must be replaced.

CAUTION Do not open the manhole and do not remove the smokebox while the burner is working. Always wait few minutes after the burner has been switched off until the insulating parts are cooler.

6.2 CLEANING AND SERVICING

Close fuel supply and disconnect the electrical mains before starting any cleaning and servicing operations.

As economic running depends on cleaning of the exchange surfaces and regulation of the burner, the following operations should be performed:

- Clean the tube bundle and turbolators with the appropriate tube-brush every month for heavy oil-fired

boilers, every three months for gas oil-fired boilers and once a year for gas-fired boilers. Cleaning sched-

ule depends on plant features. Quick cleaning can be performed by opening the front manhole only, taking the turnolators out and cleaning the tubes with a tube-brush. For more thorough cleaning, the smokebox must be removed to eliminated carbon deposits from the rear side.

- Have the burner calibration checked by professionally qualified personnel;

- Have the water circulating in the system analysed and provide for adequate treatment to avoid the for-

mation of scale which initially reduces the efficiency of the boiler and in the long term will permanently

damage it, making it unserviceable;

- Check that the refractory castings in contact with the flue gases are in perfect condition and if not, re-

place them;

- Periodically check the efficiency of the system regulation and safety instruments.

Page 27

ICI CALDAIE SpA Via G. Pascoli, 38 37059 Campagnola di Zevio VR

Telefono 045 8738511 Fax 045 8731148 Info@icicaldaie.com www.icicaldaie.com

Partita Iva 00227490232 Rag. Soc. n. 6677 C.C.I.A.A. VR n. 69600

Appartenente al Gruppo Finluc Iscritto R.I. VR 02245640236

DECLARATION OF CONFORMITY WITH

THE EUROPEAN COMMUNITY REGULATIONS

I undersigned Emanuela Lucchini, Managing Director of ICI CALDAIE S.p.A., headquarted in via G. Pascoli 38 – 37059 Campagnola di Zevio (VR) Italy

DECLARE THAT STEEL BOILERS

REX/REX F

REX K/REX K F

REX DUAL/REX DUAL F

STR

comply with the CE certificate and with the following regulations (or harmonised regulations):

EN 60335-1, EN 303-1, pr EN 303-3

In accordance with the boards regulations:

- Gas Directive 90/396/CEE

- Low Voltage Directive 73/23/CEE (modified by 93/68)

- Efficiency Directive 92/42/CEE

- EMC Directive 89/336/CEE

S. Maria di Zevio, li 14/03/2006

Page 28

93120079 Ed. 9-02/09 9 - St. 100 - 02/09

Appartenente al Gruppo Finluc, iscritto R.I. VR n. 02245640236

Via G. Pascoli, 38 - 37059 Zevio - fraz. Campagnola - VERONA - ITALIA

Tel. 045/8738511 - Fax 045/8731148

info@icicaldaie.com - www.icicaldaie.com

The illustration and details reported are indicative only and are not binding. ICI CALDAIE reserves the right to introduce alterations

and/or amendments as it deems fit and proper for the development of the product without the obligation of providing prior notice.

ICI Caldaie REX, REX F, REX K, REX K F, REX DUAL/REX DUAL F Technical Manual

Specifications and Main Features

Frequently Asked Questions

User Manual