Air Ratio; Cell Temperature; Process Gas Temperature; C. J. Temperature - YOKOGAWA ZR402G User Manual

The water vapor pressure in the moist air can be obtained from the gas pressure and volume
ratio (= pressure ratio), as given below.
e = P x H
Use the above equation to find the water vapor in the moist air, and use the theoretical equation
(JIS Z 8806) to obtain the temperature at which that water vapor is equal to the saturated water
vapor pressure.
10.1.6

Air Ratio

"Air ratio" is defined as the ratio of (the amount of air theoretically required to completely burn all
the fuel) to (the amount of air actually supplied).
For this equipment, the air ratio will be obtained in a simplified way by measuring the oxygen
concentration in the exhaust gas. The air ratio may be expressed mathematically by:
m =
(21- oxygen concentration)
If you use the air ratio data for estimating the combustion efficiency, etc., check that no air is
leaking in beforehand and that the measured value has not been affected by any interference
gas (CH , CO, H
4
10.1.7

Cell Temperature

This indicates the cell (sensor) temperature, usually indicating 750°C., obtainable from the
thermoelectromotive force and cold junction temperature described below.
10.1.8

Process Gas Temperature

A process gas temperature set with parameter code F13 is displayed.
10.1.9

C. J. Temperature

This is the internal (where the electronics is installed) temperature of equipment, which
compensates for the cold junction temperature for a thermocouple measuring the cell
temperature. If this temperature exceeds 85°C, the electronics may fail. When the ZR202G is
used, the maximum C. J. temperature will be 150°C. If the internal temperature exceeds this,
take measures to reduce the temperature such as by not exposing the equipment to radiation.
10.1.10

Amount of Water Vapor in Exhaust Gas

Calculate the water vapor in the combusted exhaust gas using parameters set in Section 8.6.3,
"Setting Fuels." Use the following equation for calculation:
Moisture (water vapor) =
=
where,
Gw = Amount of water vapor in exhaust gas, m
Z = Atmospheric absolute humidity, kg/kg
Ao = Theoretical air amount, m
m = Air ratio
X = Fuel coefficient, Nm
For details on parameters, see Section 8.6.3, "Setting Fuels," earlier in this manual.
where, e = Water vapor pressure in moist air
P = Gas pressure
H = Humidity (volume ratio)
1
x 21
, etc.).
2
(moisture in air) }/total amount of exhaust gas
Gw + 1.61 x Z x Ao x m
X + Ao x m
3
3
/kg or m
<10. Other Functions>
(amount of water vapor per unit quantity of fuel) +
3
/kg (or m
3 3
/kg (or m /m )
3 3
/m
3 3
/m )
IM 11M12A01-04E 11th Edition : Jul. 19, 2017-00
10-3