openings (sections 1.11.2.1 refers to plant room applications
and sections 1.11.2.2 refers to enclosure applications).
Alternatively the plant room or enclosure may be
mechanically ventilated (section 1.11.2.3 refers).
1.11.2.1 Natural Ventilation Openings to Plant Rooms
For plant room applications the minimum free area of
ventilation opening shall be:
•
At high level 2 cm2 for each kW of rated heat
input.
•
At low level 4 cm2 for each kW of rated heat
input.
The high level ventilation opening should be sited on an
external wall and positioned as high as is practical and always
within the top 15% of the wall height.
The low level natural ventilation opening should be situated
on an external wall and be within 1000 mm of fl oor level.
The table below provides specifi c data for each heater model
as -
Minimum Free Area of ventilation
opening
Model
High Level cm²
Low Level cm²
40
88
176
60
128
258
70
166
332
90
192
384
100
230
460
1.11.2.2 Natural Ventilation Openings to Enclosures
For enclosure applications the minimum free area of
ventilation opening shall be:
•
At high level 5 cm2 for each kW of rated heat
input.
•
At low level 10 cm2 for each kW of rated heat
input.
The high level ventilation opening should be sited on an
external wall and positioned as high as is practical and always
within the top 15% of the wall height
The low level natural ventilation opening should be situated
on an external wall and be within 1000 mm of fl oor level.
The table in the next column provides specifi c data for each
heater model as:-
Minimum Free Area of ventilation
opening
Model
High Level cm²
Low Level cm²
40
220
440
60
320
640
70
415
830
90
480
960
100
575
1150
1.11.2.3 Mechanical Ventilation to a Plant Room or
Enclosure.
In the event that the installer prefers to mechanically ventilate
the plant room or enclosure rather than provide ventilation
openings then:-
•
The plant room or enclosure needs to be
mechanically ventilated at the rate of 4.14 m3/h of
fresh air per kW or rated heat input.
•
It is a requirement that the mechanical ventilation
shall be of the ’input’ type with either natural or
mechanical extraction. Where mechanical extraction is
selected then the extraction rate should be 5%-10% less
than the input rate.
•
Systems of mechanical extraction with a natural inlet
shall not be used
It is necessary to provide an automatic means to safely inhibit
heater(s) operation should mechanical air supply fail for any
reason
The table to follow provides specifi c data for each heater
model as -
Mechanical Ventilation Rate
for Plant Room or Enclosure
Model
M³/h
40
182
60
265
70
344
90
397
100
476
Содержание OUH 2 100
Страница 20: ...Wiring Diagram 33 65 245 Models OUHA OUHC40 ON OFF Riello Oil Fried Burner...
Страница 21: ...Wiring Diagram 33 65 246 Models OUHA 60 70 ON OFF Riello Oil Fried Burner...
Страница 22: ...Wiring Diagram 73 65 010 Models OUHA 90 100 ON OFF Riello Oil Fried Burner...
Страница 23: ...Wiring Diagram 33 65 247 Models OUHC 60 100 ON OFF Riello Oil Fried Burner...
Страница 24: ...Wiring Diagram 33 65 248 Models OUHA OUHC 40 HI LOW Riello Oil Fried Burner...
Страница 25: ...Wiring Diagram 33 65 249 Models OUHA 60 70 HI LOW Riello Oil Fried Burner...
Страница 26: ...Wiring Diagram 73 65 011 Models OUHA 90 100 HI LOW Riello Oil Fried Burner...
Страница 27: ...Wiring Diagram 33 65 250 Models OUHC 60 100 HI LOW Riello Oil Fried Burner...
Страница 28: ...Remote Connections 33 65 132 ON OFF HI LOW Less Controls Remote Connections 33 65 228 ON OFF to SmartCom SC3 SZ...
Страница 29: ...Remote Connections 33 65 229 HI LOW to SmartCom SC3 MZ Remote Connections 33 65 131 ON OFF HI LOW to CP4...
Страница 35: ...Turbulator positions in models 40 70 8 off Turbulator positions in models 90 100 12 off...
Страница 43: ...Notes...