Owner manual
Table Of Contents
- Introduction
- CONTENTS
- 1. Overview
- 2. Specifications
- 2.1 General Specifications
- 2.2 General use Separate type Detector and Related Equipment
- 2.3 Separate type Detector for High Temperature and Related Equipment
- 2.4 ZR402G Separate type Converter
- 2.5 ZA8F Flow Setting Unit and ZR40H Automatic Calibration Unit
- 2.6 ZO21S Standard Gas Unit
- 2.7 Other Equipments
- 2.7.1 Dust Filter for the Detector (K9471UA)
- 2.7.2 Dust Guard Protector (K9471UC)
- 2.7.3 Ejector Assembly for High Temperature (E7046EC, E7046EN)
- 2.7.4 Stop Valve (L9852CB, G7016XH)
- 2.7.5 Check Valve (K9292DN, K9292DS)
- 2.7.6 Air Set
- 2.7.7 Zero Gas Cylinder (G7001ZC)
- 2.7.8 Cylinder Pressure Reducing Valve (G7013XF, G7014XF)
- 2.7.9 Case Assembly for Calibration Gas Cylinder (E7044KF)
- 2.7.10 ZR22A Heater Assembly
- 3. Installation
- 3.1 Installation of General-purpose Detector
- 3.2 Installation of High Temperature Detector (ZR22G-015)
- 3.3 Installation of the ZR402G Converter
- 3.4 Installation of ZA8F Flow Setting Unit
- 3.5 Installation of ZR40H Automatic Calibration Unit
- 3.6 Installation of the Case Assembly(E7044KF)
- 3.7 Insulation Resistance Test
- 4. Piping
- 5. Wiring
- 6. Components
- 7. Startup
- 7.1 Checking Piping and Wiring Connections
- 7.2 Checking Valve Setup
- 7.3 Supplying Power to the Converter
- 7.4 Touchpanel Switch Operations
- 7.5 Confirmation of Converter Type Setting
- 7.6 Confirmation of Detector Type Setting
- 7.7 Selection of Sample Gas
- 7.8 Output Range Setting
- 7.9 Setting Display Item
- 7.10 Checking Current Loop
- 7.11 Checking Contact I/O
- 7.12 Calibration
- 8. Detailed Data Setting
- 9. Calibration
- 10. Other Functions
- 11. Inspection and Maintenance
- 12. Troubleshooting
- Customer Maintenance Parts List CMPL 11M12A01-02E
- Customer Maintenance Parts List CMPL 11M12C01-01E
- Customer Maintenance Parts List CMPL 11M12A01-11E
- Customer Maintenance Parts List CMPL 11M03B01-10E
- Customer Maintenance Parts List CMPL 11M03B01-05E
- Customer Maintenance Parts List CMPL 11M03D01-01E
- Revision Information
<7. Startup>
7-10
IM 11M12A01-02E
Enter
Primary value:
Oxygen
Secondary value:
mA-output1
Tertiary value:
mA-output2
Tag name:
Display item
F7.14.ai
Primary value:
Oxygen
Secondary value:
mA-output1
Tertiary value:
mA-output2
Tag name:
Enter
Oxygen
Item of output1 damping
Item of output2 damping
Display item
F7.15.ai
Figure 7.14 Display Item Display Figure 7.15 Display Item Selection
Table 7.2 Display Items
Item Primary value
Secondary and
tertiary values
Display
Oxygen
concentration
○ ○
Oxygen concentration during measurement
Air ratio
○
Current computed air ratio
Moisture quantity
○
Moisture quantity (%H
2
O) in the exhaust gas
Output 1 item
○ ○
Oxygen concentration with the equipment set for oxygen
analyzer (See *1 below.)
Output 2 item
○ ○
Oxygen concentration with the equipment set for oxygen
analyzer (See *1 below.)
Current output 1
○
Current value output from analog output 1
Current output 2
○
Current value output from analog output
*1: If an analog output damping constant is set, the oxygen concentration display then includes these settings.
About the Air ratio:
“Air ratio” is dened 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 simplied way by measuring the oxygen
concentration in the exhaust gas. The air ratio may be expressed mathematically by:
m = { 1 / ( 21- Oxygen concentration ) } 21
If you use the air ratio data for estimating the combustion efciency, etc., check that no air is
leaking in beforehand and that the measured value has not been affected by any interference
gas (CH
4
, CO, H
2
, etc.).
About moisture quantity:
The moisture quantity in the exhaust gas is calculated based on the parameters of the fuel
setting (refer to Section 8.6.3, Setting Fuels, later in this manual). The moisture content may be
expressed mathematically by:
Moisture quantity = {(water vapor content per fuel unit quantity) + (water content in air)}/ total
amount of exhaust gas
= { Gw + ( 1.61 Z Ao m )} / { X + ( Ao m )}
where,
Gw = water vapor content in exhaust gas, m
3
/kg (m
3
/m
3
)
Z = Ambient absolute humidity, kg/kg
Ao = Ideal air amount, m
3
/kg (m
3
/m
3
)
m = Air ratio
X = Fuel coefcient
For details on each parameter, refer to Section 8.6.3, Setting Fuels.
8th Edition : Jan.13,2012-00