Utility Requirements
72 / 120 H157654_9_011
Temperature in
the NMR labo-
ratory
Maximum humidity for a dew point of
11 °C 12 °C 13 °C 14 °C 15 °C 16 °C
17 °C 67.7 % 72.4 % 77.3 % 82.5 % 88.0 % 93.8 %
18 °C 63.6 % 68.0 % 72.6 % 77.5 % 82.6 % 88.1 %
19 °C 59.7 % 63.8 % 68.2 % 72.8 % 77.6 % 82.7 %
20 °C 56.1 % 60.0 % 64.1 % 68.4 % 72.9 % 77.8 %
21 °C 52.8 % 56.4 % 60.2 % 64.3 % 68.6 % 73.1 %
22 °C 49.7 % 53.0 % 56.7 % 60.5 % 64.5 % 68.8 %
23 °C 46.7 % 49.9 % 53.3 % 56.9 % 60.7 % 64.7 %
24 °C 44.0 % 47.0 % 50.2 % 53.6 % 57.2 % 60.9 %
25 °C 41.4 % 44.3 % 47.3 % 50.5 % 53.8 % 57.4 %
Table8.4: Maximum Humidity in the NMR Laboratory
Conditions other than these may warrant the installation of an air conditioner with appropriate
humidity controls.
8.7.1 Heat Dissipation into the Room
Most of the heat dissipated into the room is generated by the system electronics. The magnet
itself does not dissipate any heat. The following table details the heat dissipation into the
room:
Component Heat Dissipation into Room
AVANCE NEO OneBay 0.8 kW
AVANCE NEO OneBay with Heightening 0.9 kW
AVANCE NEO TwoBay optimized for solids 1.2 kW
AVANCE NEO TwoBay optimized for MicroImaging
Systems
2.6 kW
AVANCE NEO NanoBay 0.7 kW
BCU-I, BCU-II BCU-I: 0.5 kW, BCU-II: 2.4 kW
Gradient Chiller 0.5 kW
CryoCooling Unit 0.8 kW
He Compressor CryoProbe – indoor water-cooled 0.5 kW - residual
He Compressor CryoProbe - indoor air-cooled 8.5 kW
He Compressor CryoProbe - outdoor air-cooled 0.5 kW
He Compressor BNL - inside water-cooled 0.5 kW - residual
He Compressor BNL - inside air-cooled 2.2 kW
Table8.5: Heat Dissipation into the Room by Typical AVANCE NEO Systems
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