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The temperature of transfer line was 300°C.
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The temperatures of transfer line and ion source were set to 250 and 200 °C, respectively.
The temperature of the transfer line and of the ion source was set to a value of 320 and 280°C, respectively.
A custom-made temperature controller with a proportional integral differential (PID) was used to maintain the temperature of the transfer line/desorber stable and avoid overheating or oscillating.
The ion source temperature was set at 250°C and the detector voltage was 1.5 kV with electron energy of -70 eV and the temperature of the transfer line was 280°C.
The heat transfer analysis indicated the occurrence of the axial non-uniform reaction in the bed due to the inherent increase in the temperature of heat transfer fluid, resulting in the decrease of both GEOR and material availability.
The temperature of the transfer line was kept constant at 300 °C.
The temperature of the transfer line and the source was 280 and 250 °C, respectively.
The temperature of the transfer line and syringe was maintained at 90°C.
The temperature of the transfer line to the mass selective detector was held at 280°C, the ion sources temperature 230°C and its quadrupole temperature at 150°C.
The temperature of the transfer line and that of the electron impact ion source (70 eV) were 230 and 240 °C, respectively.
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