Instruction manual

Section 1. System Overview

1-4

A datalogger is used to measure all sensors and control the valve that switches

the air stream through the cooled mirror.

The resolution of the dewpoint temperature measurement is ±0.003°C over a

±35°C range. The limitation is the stability of the Dew-10, approximately

0.05°C, yielding better than ±0.01 kPa vapor pressure resolution over most of

the environmental range.

Every 2 minutes the air drawn through the cooled mirror is switched from one

height to the other with the valve. Forty seconds is allowed for the mirror to

stabilize on the new dewpoint temperature and 1 minute and 20 seconds worth

of measurements for an individual level are obtained for each 2 minutes cycle.

The dewpoint temperature is measured every second and the vapor pressure is

calculated by the datalogger using the equation described by Lowe (1976).

The average vapor pressure at each height is calculated every 20 minutes.

CR23X

FIGURE 1.2-2. Thermocouple Configuration

1.2.2 Air Temperature Measurement

Air temperature is measured at two heights with chromel–constantan

thermocouples wired as in Figure 1.2-2. The differential voltage is due to the

difference in temperature between T

and T

and has no inherent sensor offset

error. The datalogger resolution is 0.006°C with 0.1 µV rms noise.

The thermocouples are not aspirated. Attempts to aspirate the TCs with the air

from the vapor measurement system were not successful. Testing under 1000

W m

-2

solar radiation, with several radiation shield designs and aspiration rates

of up to 80 cm s

-1

(1 l min

-1

), showed a significant increase in temperature due

to radiation from the shield/ducting.

Calculations indicate that a 25 µm (0.001 in) diameter TC experiences less

than 0.2°C and 0.1°C heating at 0.1 m s

-1

and 1 m s

-1

wind speeds, respectively,

under 1000 W m

-2

solar radiation (Tanner, 1979). More importantly, error in