User manual HONEYWELL M DATASHEET

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Manual abstract: user guide HONEYWELL MDATASHEET
Detailed instructions for use are in the User's Guide.
 [. . . ] Series M
SOLENOID VALVES NORMALLY CLOSED
PRODUCT DATA

Features
· MA: direct operated,  angle construction · MD: direct operated,  two way construction · MS: pilot operated,  two way construction · Normally closed · Hermetic construction MA MD · Low pressure drop · High performance · Direct operated: no minimum pressure differential required to open the valve · Pilot operated: minimum pressure differential of 0. 05 bar required to open the valve · Solder and flare connections · Coils for AC and DC · Refrigerants: all CFC,  HCFC,  HFC,  not for ammonia

Specification
MS Nominal capacity Maximum pressure PS Maximum test pressure PF Min.  [. . . ] The solenoid valves can be installed in the liquid line,  hot gas line and suction line of a refrigerating unit. 

Materials
Body Seal material Connection tubes Coil brass,  stainless steel PTFE solder: copper flare: brass copper,  steel,  Crastin

Number of operating cycles > 1, 5 million

Voltage tolerance

Copyright © 2009 Honeywell GmbH · Subject to change without notice

EN0H-1917GE23 R0709

SERIES M

Nominal Capacity QN (kW)
Type kv-value (m3/h) Liquid R134a R22 R407C R404A R134a R507A Direct operated MA 062 MD 062 MD 102 MD 103 MS 103 MS 104 MS 124 MS 125 MS 165 MS 167 MS 227 0. 17 0. 17 0. 22 0. 23 0. 9 0. 9 1. 6 1. 6 2 2 4 5. 21 5. 21 6. 74 7. 05 27. 6 27. 6 49. 0 49. 0 61. 3 61. 3 123 5. 62 5. 62 7. 27 7. 61 29. 8 29. 8 52. 9 52. 9 66. 1 66. 1 132 5. 39 5. 39 6. 98 7. 29 28. 5 28. 5 50. 7 50. 7 63. 4 63. 4 127 3. 87 3. 87 5. 01 5. 24 20. 5 20. 5 36. 4 36. 4 45. 5 45. 5 91. 1 1. 14 1. 14 1. 48 1. 54 6. 04 6. 04 10. 7 10. 7 13. 4 13. 4 26. 8 1. 47 1. 47 1. 90 1. 99 7. 78 7. 78 13. 8 13. 8 17. 3 17. 3 34. 6 1. 45 1. 45 1. 88 1. 96 7. 67 7. 67 13. 6 13. 6 17. 1 17. 1 34. 1 1. 29 1. 29 1. 67 1. 75 6. 83 6, 83 12. 1 12. 1 15. 2 15. 2 30. 4 1. 54 1. 54 2. 74 2. 74 3. 42 3. 42 6. 85 2. 06 2. 06 3. 66 3. 66 4. 57 4. 57 9. 14 1. 92 1. 92 3. 42 3. 42 4. 27 4. 27 8. 54 1. 80 1. 80 3. 19 3. 19 3. 99 3. 99 7. 98 Hot gas R22 R407C R404A R134a R507A Suction gas R22 R407C R404A R507A

Pilot operated

The nominal capacity QN is based on the following conditions Medium Evaporating temperature t0 (°C) Liquid Hot gas Suction gas -10 -10 -10 Condensing temperature tc (°C) 25 25 25 Subcooling tc2u (K) 1 1 1 Hot gas temperature tH (°C) 25 °C Pressure loss across valve p (bar) 0. 4 1 0. 15

Valve selection for other operating conditions see the following tables or consult the Honeywell software

EN0H-1917GE23 R0709

2

Honeywell GmbH · Subject to change without notice

SERIES M

Valve size calculation for the liquid line
Refrigeration capacity Q0,  multiplied with correcting factor fTF,  multiplied with correcting factor fPF results in the required nominal capacity QN. 

QN = Q0 x fTF x fPF
QN Q0 fTF fPF nominal capacity (according to table on page 2) refrigeration capacity correcting factor for evaporating and liquid temperature correcting factor for pressure loss across the valve

Correcting factor fTF for the change of capacity according to the operating temperatures tL* (°C) 0 +5 +10 +15 Evaporating temperature t0 (°C) R134a +10 ±0 -10 -20 -30 -40 +10 ±0 0. 80 0. 83 0. 85 0. 88 0. 83 0. 86 0. 89 0. 93 R22 -10 -20 -30 -40 +10 ±0 0. 82 0. 83 0. 85 0. 88 0. 85 0. 87 0. 89 0. 91 R407C 0. 80 0. 80 0. 80 R404A,  R507A -10 -20 -30 -40 0. 73 0. 76 0. 79 0. 83 0. 77 0. 8 0. 84 0. 88 -10 -20 -30 +10 ±0

0. 80 0. 80 0. 80 0. 90 0. 80 0. 90 0. 90 0. 90

0. 84 0. 87 0. 91 0. 94 0. 97 0. 88 0. 91 0. 94 0. 98 1. 02

0. 86 0. 88 0. 90 0. 92 0. 95

0. 79 0. 82 0. 85 0. 89 0. 94 0. 84 0. 87 0. 91 0. 95 1. 00

0. 90 0. 92 0. 94 0. 96 0. 99 0. 90 0. 90 0. 90 0. 90 1. 00

+20 0. 89 0. 92 0. 95 0. 99 1. 03 1. 08 0. 92 0. 94 0. 96 0. 98 1. 00 1. 03 0. 90 0. 90 0. 90 1. 00 1. 00 0. 86 0. 89 0. 93 0. 97 1. 02 1. 08 +25 0. 94 0. 96 1. 00 1. 05 1. 09 1. 14 0. 96 0. 98 1. 00 1. 03 1. 05 1. 09 0. 90 1. 00 1. 00 1. 00 1. 10 0. 92 0. 96 1. 05 1. 05 1. 11 1. 18 +30 0. 99 1. 02 1. 06 1. 12 1. 16 1. 22 1. 01 1. 02 1. 05 1. 08 1. 10 1. 14 1. 00 1. 00 1. 00 1. 10 1. 20 0. 99 1. 03 1. 08 1. 14 1. 21 1. 29 +35 1. 04 1. 08 1. 12 1. 18 1. 24 1. 30 1. 05 1. 07 1. 10 1. 13 1. 16 1. 20 1. 10 1. 10 1. 10 1. 20 1. 20 1. 08 1. 13 1. 19 1. 26 1. 34 1. 44 +40 1. 10 1. 14 1. 19 1. 26 1. 32 1. 39 1. 10 1. 12 1. 15 1. 19 1. 22 1. 26 1. 10 1. 20 1. 20 1. 30 1. 30 1. 18 1. 24 1. 32 1. 40 1. 50 1. 63 +45 1. 18 1. 22 1. 28 1. 35 1. 42 1. 50 1. 17 1. 19 1. 22 1. 26 1. 29 1. 34 1. 20 1. 30 1. 30 1. 40 1. 40 1. 32 1. 39 1. 48 1. 59 1. 72 1. 88 +50 1. 25 1. 24 1. 37 1. 45 1. 53 1. 62 1. 23 1. 26 1. 29 1. 33 1. 37 1. 42 1. 30 1. 40 1. 40 1. 50 1. 60 1. 50 1. 59 1. 7 1. 85 2. 02 2. 23 +55 1. 35 1. 41 1. 48 1. 58 1. 67 1. 78 1. 30 1. 33 1. 37 1. 42 1. 46 1. 52 1. 40 1. 50 1. 60 1. 70 1. 80 1. 74 1. 87 2. 02 2. 22 2. 47 2. 79 +60 1. 46 1. 55 1. 61 1. 73 1. 84 1. 97 1. 38 1. 41 1. 46 1. 51 1. 56 1. 63 * Temperature of liquid refrigerant at valve inlet. Correcting factor fPF for the change of capacity according to the chosen pressure loss across the valve Pressure loss across valve p (bar) Correcting factor fPF 0. 05 0. 10 0. 15 0. 20 0. 25 0. 30 0. 35 0. 40 0. 45 0. 50 0. 55 0. 60 0. 65 0. 70 2. 83 2. 00 1. 63 1. 41 1. 26 1. 15 1. 07 1. 00 0. 94 0. 89 0. 85 0. 82 0. 78 0. 76 -

Honeywell GmbH · Subject to change without notice

3

EN0H-1917GE23 R0709

SERIES M

Valve capacity for the hot gas line
Type Pressure loss across valve p (bar) 0. 2 0. 5 1. 0 1. 5 2. 0 0. 2 0. 5 1. 0 1. 5 2. 0 0. 2 0. 5 1. 0 1. 5 2. 0 Capacity (kW)* Condensing temperature tc (°C) R134a R22 R407C R404A,  R507A +25 +30 +40 +50 +60 +25 +30 +40 +50 +60 +25 +30 +40 +50 +25 +30 +40 +50 0. 54 0. 83 1. 12 1. 31 1. 44 0. 69 1. 07 1. 44 1. 69 1. 86 0. 72 1. 12 1. 51 1. 77 1. 94 0. 55 0. 86 1. 17 1. 38 1. 52 0. 72 1. 11 1. 51 1. 78 1. 97 0. 75 1. 16 1. 58 1. 86 2. 06 0. 57 0. 89 1. 23 1. 47 1. 64 0. 75 1. 15 1. 60 1. 89 2. 12 0. 78 1. 21 1. 67 1. 98 2. 22 0. 58 0. 90 1. 25 1. 50 1. 70 0. 75 1. 17 1. 62 1. 94 2. 20 0. 78 1. 22 1. 69 2. 03 2. 30 0. 57 0. 89 1. 24 1. 50 1. 70 0. 73 1. 16 1. 61 1. 93 2. 20 0. 77 1. 21 1. 68 2. 02 2. 30

Direct operated 0. 68 0. 70 0. 74 0. 76 0. 78 0. 62 0. 65 0. 68 0. 70 0. 60 0. 60 0. 58 0. 53 1. 06 1. 10 1. 15 1. 19 1. 22 0. 98 1. 02 1. 08 1. 11 0. 93 0. 93 0. 90 0. 83 MA 062 1. 46 1. 51 1. 60 1. 67 1. 70 1. 39 1. 44 1. 52 1. 57 1. 29 1. 29 1. 26 1. 16 MD 062 1. 74 1. 81 1. 93 2. 01 2. 06 1. 71 1. 77 1. 87 1. 93 1. 54 1. 55 1. 52 1. 41 1. 94 2. 04 2. 19 2. 29 2. 34 1. 96 2. 04 2. 15 2. 22 0. 77 0. 91 0. 96 0. 99 1. 00 0. 81 0. 83 0. 88 0. 91 0. 77 0. 77 0. 74 0. 68 1. 37 1. 42 1. 49 1. 55 1. 58 1. 27 1. 32 1. 39 1. 44 1. 20 1. 20 1. 17 1. 07 MD 102 1. 89 1. 96 2. 08 2. 15 2. 20 1. 80 1. 87 1. 97 2. 04 1. 66 1. 67 1. 63 1. 50 2. 25 2. 34 2. 50 2. 60 2. 66 2. 21 2. 29 2. 41 2. 49 1. 99 2. 00 1. 96 1. 82 2. 52 2. 64 2. 83 2. 97 3. 03 2. 55 2. 64 2. 79 2. 88 0. 80 0. 95 1. 00 1. 03 1. 05 0. 84 0. 87 0. 92 0. 95 0. 80 0. 80 0. 78 0. 71 1. 43 1. 48 1. 56 1. 62 1. 65 1. 33 1. 38 1. 46 1. 50 1. 26 1. 26 1. 22 1. 12 MD 103 1. 98 2. 05 2. 17 2. 25 2. 30 1. 88 1. 95 2. 06 2. 13 1. 74 1. 74 1. 70 1. 57 2. 35 2. 45 2. 61 2. 72 2. 78 2. 31 2. 39 2. 52 2. 61 2. 08 2. 09 2. 05 1. 90 2. 64 2. 76 2. 96 3. 10 3. 17 2. 66 2. 76 2. 91 3. 01 Pilot operated 0. 2 2. 83 2. 93 3. 04 3. 06 3. 02 4. 20 4. 33 4. 55 4. 70 4. 79 3. 60 3. 71 3. 90 4. 03 3. 09 3. 09 3. 00 2. 74 0. 5 4. 37 4. 53 4. 73 4. 78 4. 72 6. 55 6. 76 7. 13 7. 38 7. 52 5. 61 5. 79 6. 11 6. 33 4. 89 4. 89 4. 80 4. 37 MS 103 1. 0 5. 93 6. 19 6. 52 6. 63 6. 57 9. 02 9. 35 9. 91 10. 3 10. 5 7. 73 8. 01 8. 49 8. 83 6. 77 6. 86 6. 69 6. 09 MS 104 1. 5 6. 93 7. 29 7. 77 7. 95 7. 92 10. 8 11. 2 11. 9 12. 4 12. 7 9. 26 9. 60 10. 2 10. 6 8. 14 8. 14 8. 06 7. 37 2. 0 7. 60 8. 07 8. 66 9. 00 9. 00 12. 1 12. 6 13. 5 14. 2 14. 5 10. 4 10. 8 11. 6 12. 2 0. 2 5. 04 5. 21 5. 40 5. 44 5. 36 6. 40 6. 60 6. 94 7. 17 7. 30 5. 86 6. 07 6. 41 6. 62 5. 60 5. 60 5. 44 4. 96 0. 5 7. 77 8. 07 8. 40 8. 50 8. 39 9. 97 10. 3 10. 9 11. 2 11. 5 9. 27 9. 6 10. 1 10. 5 8. 76 8. 76 8. 52 7. 80 MS 124 1. 0 10. 5 11. 0 11. 6 11. 8 11. 7 13. 7 14. 3 15. 1 15. 7 16. 0 13. 1 13. 6 14. 3 14. 8 12. 1 12. 1 11. 8 10. 9 MS 125 1. 5 12. 3 13. 0 13. 8 14. 1 14. 1 16. 4 17. 1 18. 2 19. 0 19. 4 16. 1 16. 6 17. 6 18. 1 14. 5 14. 6 14. 3 13. 2 2. 0 13. 5 14. 3 15. 5 16. 0 16. 0 18. 4 19. 2 20. 6 21. 6 22. 1 18. 5 19. 2 20. 3 20. 9 0. 2 6. 29 6. 51 6. 76 6. 80 6. 70 8. 00 8. 25 8. 68 8. 96 9. 12 7. 33 7. 59 8. 01 8. 28 7. 00 7. 00 6. 80 6. 20 0. 5 9. 72 10. 1 10. 5 10. 6 10. 5 12. 5 12. 9 13. 6 14. 1 14. 3 11. 6 12. 0 12. 7 13. 1 10. 9 10. 9 10. 6 9. 70 MS 165 1. 0 13. 2 13. 7 14. 5 14. 7 14. 6 17. 2 17. 8 18. 9 19. 6 20. 0 16. 4 17. 0 17. 9 18. 5 15. 1 15. 2 14. 8 13. 6 MS 167 1. 5 15. 4 16. 2 17. 2 17. 7 17. 6 20. 5 21. 3 22. 7 23. 7 24. 2 20. 1 20. 8 22. 0 22. 7 18. 1 18. 2 17. 9 16. 5 2. 0 16. 9 17. 9 19. 3 20. 0 20. 0 23. 0 24. 0 25. 7 27. 0 27. 6 23. 2 24. 0 25. 3 26. 2 0. 2 12. 6 13. 0 13. 5 13. 6 13. 4 16. 0 16. 5 17. 4 17. 9 18. 2 14. 7 15. 2 16. 0 16. 6 14. 0 14. 0 13. 6 12. 4 0. 5 19. 4 20. 1 21. 0 21. 2 21. 0 24. 9 25. 8 27. 1 28. 1 28. 6 23. 2 24. 0 25. 3 26. 2 21. 9 21. 9 21. 3 19. 5 MS 227 1. 0 26. 3 27. 5 29. 0 29. 5 29. 2 34. 4 35. 6 37. 8 39. 2 40. 0 32. 8 33. 9 35. 8 37. 0 30. 3 30. 4 29. 7 27. 3 1. 5 30. 8 32. 4 34. 5 35. 3 35. 2 41. 0 42. 6 45. 4 47. 4 48. 4 40. 1 41. 6 43. 9 45. 3 36. 3 36. 5 35. 8 33. 1 2. 0 33. 8 35. 9 38. 7 39. 9 40. 0 45. 9 48. 0 51. 5 53. 9 55. 2 46. 3 48. 0 50. 7 52. 4 * Capacities are based on evaporating temperature t0 = -10 °C,  hot gas temperature tH = +25 °C and 1 K subcooled refrigerant. 

If the hot gas temperature is changed by ±10 °C the valve capacity changes (inversely proportional) by ±2, 5 %. With other evaporating temperatures t0 the capacities above should be multiplied by the following correcting factors: t0 (°C) R134a R22 R407C R404A,  R507A -50 0. 88 0. 83 0. 75 -40 0. 85 0. 91 0. 88 0. 81 -30 0. 90 0. 95 0. 92 0. 88 -20 0. 95 0. 97 0. 95 0. 13 -10 1. 00 1. 00 1. 00 1. 00 ±0 1. 05 1. 03 1. 01 1. 05 +10 1. 09 1. 05 1. 06 -

EN0H-1917GE23 R0709

4

Honeywell GmbH · Subject to change without notice

SERIES M

Valve size calculation for the suction line
Refrigeration capacity Q0,  multiplied with correcting factor fTS,  multiplied with correcting factor fPS results in the required nominal capacity QN. 

QN = Q0 x fTS x fPS
QN Q0 fTS fPS nominal capacity (according to table on page 2) refrigeration capacity correcting factor for evaporating and liquid temperature correcting factor for pressure loss across the valve

Correcting factor fTS for the change of capacity according to the operating temperatures Evaporating temperature t0 (°C) +10 ±0 -10 -20 -30 -40 +10 ±0 -10 -20 -30 -40 Condensating temperature tc (°C) +60 0. 98 1. 19 1. 48 1. 88 2. 42 3. 20 +50 0. 86 1. 05 1. 29 1. 62 2. 08 2. 71 1. 14 1. 24 1. 57 2. 02 2. 67 3. 62 +40 For refrigerant R134a,  R22,  R407C 0. 78 0. 95 1. 16 1. 44 1. 83 2. 37 For refrigerant R404A,  R507A 0. 82 1. 01 1. 26 1. 60 2. 07 2. 74 0. 71 0. 87 1. 07 1. 35 1. 72 2. 25 0. 63 0. 77 0. 94 1. 17 1. 49 1. 93 0. 71 0. 86 1. 05 1. 31 1. 65 2. 13 0. 66 0. 79 0. 96 1. 19 1. 59 1. 92 +30 +20

Correcting factor fPS for the change of capacity according to the chosen pressure loss across the valve Pressure loss across valve p (bar) Correcting factor fPS 0. 05 1. 73 0. 075 1. 41 0. 10 1. 22 0. 15 1. 00 0. 20 0. 87 0. 30 0. 71 0. 40 0. 61 0. 50 0. 55 0. 60 0. 50

Honeywell GmbH · Subject to change without notice

5

EN0H-1917GE23 R0709

SERIES M

Type Code / Order Information
1. Solenoid Valve
M Series Type: A = direct operated,  angle D = direct operated S = pilot operated Valve size Connection size in 1/8" () = flare connection MMS = solder,  metric S = solder,  inch Voltage () = without coil S 16 5 S 230 V AC

2.  [. . . ] La Pièce 16,  Switzerland by its authorized representative Honeywell GmbH

Honeywell GmbH · Subject to change without notice [. . . ]
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