JPS61280553A - Apparatus for measuring humidity - Google Patents

Abstract

PURPOSE:To enhance measuring accuracy and to provide long life capacity, by calculating saturated steam pressures from the temp. signals of first and second temp. sensors by using an operation apparatus and calculating the humidity of a high temp. measuring atmosphere from said saturated steam pressures and the humidity signal from a temp. sensors. CONSTITUTION:Saturated steam pressures esa, esb are calculated from temp. signals Ta, Tb calculated by first and second temp. sensors 51, 52 while pressures Pa, Pb are calculated from first and second pressure sensors 61, 62 and humidity Hb is calculated from a temp. sensor 7 and all values are operated according to formula I by an operation circuit 8 to calculate the humidity Hb of a high temp. measuring atmosphere. By this method, measurement can be performed with high accuracy and the service life of the apparatus can be kept long.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a humidity measuring device for measuring the humidity of a high temperature measurement atmosphere.

[Prior art] Humidity in a high-temperature atmosphere of 100'C or more is lower than the humidity at 1# dry, and the σ1 value is close to O%RH, and the variation is small, and generally sufficient accuracy cannot be obtained. Difficult to measure. Additionally, the hygrometer used for measurement must be heat resistant.

For this reason, conventional methods of measuring humidity in high-temperature atmospheres include using a dew point meter to determine the relative humidity from the dew point (m degrees), or using a heat-resistant hygrometer that uses zirconia. Ta.

[Problems to be solved by the invention] However, the method using such a dew point meter or zirconia hygrometer requires quite large equipment because the entire device is expensive and the peripheral equipment is also large-scale. There was an inconvenience.

In addition, if you try to use an electrical humidity sensor that utilizes the impedance change due to humidity of a polymer membrane, etc. that is normally used at room temperature, the heat-resistant temperature life is short, and the direct ioo'
It was difficult to leave it in a high-temperature atmosphere of c or higher and use it for measurement.

In view of the above points, an object of the present invention is to provide a humidity measuring device that easily measures the humidity of a high-temperature atmosphere using an ordinary electric humidity sensor.

Means for Solving Problem L] The present invention provides a first temperature sensor that cools air in a high-temperature measurement atmosphere and introduces it into a low-temperature measurement atmosphere, and a first temperature sensor that measures the temperature of the high-temperature measurement atmosphere; Calculate each saturated water vapor pressure from the concentration signal of the second temperature sensor,
This humidity measuring device calculates the humidity of a high temperature measurement atmosphere from this saturated water vapor pressure and a humidity signal from a humidity sensor that measures the humidity of a low temperature measurement atmosphere.

[Embodiment] FIG. 1 is a configuration explanatory diagram showing an embodiment of the present invention.

In the figure, 1 is a high-temperature measurement atmosphere, 2 is a low-temperature measurement atmosphere, and 3 is a tube 51 that cools the air containing water vapor in the high-temperature measurement atmosphere 1 by suctioning it with an air pump 4 and leads it to the low-temperature measurement atmosphere 2. is a first temperature sensor that measures the temperature of the high temperature measurement atmosphere 1; 61 is a pressure sensor that measures the pressure of the high temperature measurement atmosphere 1; and 52 is a low temperature measurement atmosphere 2.
62 is a pressure sensor that measures the pressure of the low temperature measurement atmosphere 2; 7 is an electric humidity sensor that measures the humidity of the low temperature measurement atmosphere; 8 is the first and second temperature sensor; Temperature signals Ta, T of temperature sensors 51 and 52 of No. 2
b to the respective saturated vapor pressure esa.

esb is calculated, and the humidity signal Hb of the humidity sensor 8, the first,
Pressure signal pa of the second pressure sensor 61,62.

This is a calculation means that calculates the humidity Ha of the high temperature measurement atmosphere 1, the mixing ratio X, etc. from Pb. Note that if the pressure of the high temperature measurement atmosphere 1 is higher than the pressure i of the low temperature measurement atmosphere 2, air will naturally flow from the high temperature side to the low temperature side, and an air pump will not be necessary.

The calculation formula and measurement principle calculated by the calculation means 8 are as follows.

Assuming that the water vapor pressures of the high temperature measurement atmosphere 1 and the low temperature measurement atmosphere 2 are ea and eb, and the saturated water vapor pressures are esa and esb, the respective relative humidity 1-1a and Hb (%) are as follows.

Ha-(ea/esk)X100 (1
)Hb −(8b/esb >xioo
(2) Assuming that air containing water vapor moves as it is from high-temperature measurement atmosphere 1 to low-temperature measurement atmosphere 2, and no moisture enters or exits, and the respective total pressures are pa and Pb, the partial pressure of water vapor does not change, so The formula holds true.

ea-Pa-eb/Pb (
3) Substituting equations (2) and (3) into equation (1), Ha
-Pa -esb -1-1b / (Pb -es
a).

That is, from the temperature signals @Ta, Tb obtained by the first and second temperature sensors 51, 52, the saturated water vapor pressures esa, e
sb is determined, pressure Pa and Pb are determined from the first and second pressure sensors 61 and 62, and humidity 111Hb is determined from the humidity sensor 7.
From these, the III means 8 calculates the equation (4) to determine the humidity Hb of the high temperature measurement atmosphere 1.

Moreover, if there is no pressure loss, Pa-pb holds true, and equation (4) becomes the following equation.

1-1a -esb -Hb /esa
(5) Also, in the drying process, the mixing ratio X is relatively often used and is determined from the humidity as follows. Generally X
-0,622ea/ (P-ea)
(6) Here, ea-@a-esa /
100. Substituting P-Pa gives the following equation.

X-0,00622esa Ha / (pa-esa Ha /100) (7)
The mixture ratio X may be obtained from equation (7).

The calculation means 8 is composed of a microcomputer including a memory, a personal computer, or an analog calculation circuit, and stores tables and calculation formulas for calculating saturated water vapor pressure from temperature in the memory, etc., and performs the above-described predetermined calculations. Just do it.

[Effects of the Invention] As described above, this invention performs measurements by cooling the air in the high-temperature measurement atmosphere, so the relative humidity increases and
The amount of change also increases, improving measurement accuracy. Furthermore, since the humidity sensor is not exposed to a high temperature atmosphere, it has a long lifespan, requires small equipment, and is inexpensive and highly reliable.

[Brief explanation of drawings]

FIG. 1 is a configuration explanatory diagram showing an embodiment of the present invention. 1...High temperature measurement atmosphere, 2...Low temperature measurement atmosphere,
3...Pipe, 4...Air pump, 5'l,
52...Temperature sensor, 61.62...Pressure sensor,
7...Humidity sensor, 8...Calculating means

Claims (1)

[Claims] 1. A tube that guides air in a high-temperature measurement atmosphere to a low-temperature measurement atmosphere, a first temperature sensor that measures the temperature of the high-temperature measurement atmosphere, and a second temperature sensor that measures the temperature of the low-temperature measurement atmosphere. , a humidity sensor that measures the humidity of the low temperature measurement atmosphere, and a first
, calculating means for calculating each saturated water vapor pressure from the temperature signal of the second temperature sensor and calculating the humidity of the high temperature measurement atmosphere from the saturated water vapor pressure and the humidity signal of the humidity sensor. measuring device. 2. The pressure of the high-temperature measurement atmosphere and the low-temperature measurement atmosphere is
2. The humidity measuring device according to claim 1, wherein the humidity is measured by the second pressure sensor and used for calculating the humidity by the calculation means.