Instruction Manual 924-2
11/1/03
EGA4 Combustion
Analyzer
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Instruction Manual MM850481 ed.01
INTRODUCTORY NOTE
NOTE: THIS MANUAL IS VALID FOR INSTRUMENTS WITH SERIAL NUMBER 25865 AND FIRMWARE REV. 2.001 OR HIGHER
This manual has all the information you need to install, operate and maintain the flue gas analyzers EGA4
and its accessories.
Eclipse has used the best care and efforts in preparing this book and believes the information in this
publication are accurate. The Eclipse products are subjected to continuous improvements, in order to
pursue the technological leadership; these improvements could require changes to the information of this
book.
Eclipse reserves the right to change such information without notice.
The EGA4 gas analyzers uses sophisticated analogic and digital technologies. Any maintenance operation
must be carried out by qualified personnel ONLY. Eclipse supplies instructions and operative procedures for
any operation on the instrument. We recommend to contact our technicians for any support requirements.
The instrument is supplied by a Ni-MH rechargeable battery pack or by 100, 115, 230V ±10% 50/60Hz line
supply using the special power supply module provided with the instrument.
Eclipse shall not be liable in any event, technical and publishing error or omissions, for any incidental and
consequential damages, in connection with, or arising out of the use of this book.
The operator must not use this equipment for any other purpose than that stated.
This document is the property of Eclipse and may not be copied or otherwise reproduced, communicated in
anyway to third parties, not stored in any Data Processing System without the express written authority of
Eclipse.
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Instruction Manual MM850481 ed.01
TABLE OF CONTENTS
Measuring cells..................................................................................................................................................... 8
Remote temperature probe................................................................................................................................... 9
Pitot tube.......................................................................................................................................................... 9
PRINCIPLE OF OPERATION............................................................................................................ 11
Gas sampling probe....................................................................................................................................... 11
Gas sensors................................................................................................................................................... 12
Temperature measurements.......................................................................................................................... 13
Pressure and Draft......................................................................................................................................... 13
Measuring instruments (option)................................................................................................................. 14
RECOMMENDATIONS...................................................................................................................... 15
Electro-pneumatic connections........................................................................................................................... 16
Gas probe positioning......................................................................................................................................... 16
OPERATIONS.................................................................................................................................... 18
Select by a list................................................................................................................................................ 20
Pressure/Draught measurement......................................................................................................................... 22
Input of the smoke index................................................................................................................................ 24
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Instruction Manual MM850481 ed.01
CO probe operations...................................................................................................................................... 29
Temperature & Humidity probe (option)......................................................................................................... 30
Recall memory.................................................................................................................................................... 32
GasConfig Installation.................................................................................................................................... 39
HELP key............................................................................................................................................................ 41
Sensor Diagnostic.......................................................................................................................................... 41
Clock.............................................................................................................................................................. 44
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Instruction Manual MM850481 ed.01
1
GENERAL DESCRIPTION
EGA4 is designed to satisfy the market needs; but they are the result of the advanced research and experience of
Eclipse. EGA4 is a multigas compact palm-top multifunction instrument. The micro-processor based instrument includes
a flue gas analyzer, an emissions monitor and an ambient parameters indicator. Two internal electrochemical sensors
read the Oxygen (O2) and carbonic monoxide (CO) gas concentration. The gas temperature and air temperature are
used in connection with the gas analysis to calculate the efficiency, excess air, and CO2 concentration. A 10 gas
parameters programmable table is used for calculations approved in accordance with DIN33962.
A third cell (NO or SO2) enables the pollution measurement. The NO concentration can be expressed in terms of NOx as
required by ambient laws.
External sensors are available for ambient parameters measurement: ambient relative humidity and temperature
(T+RH%), ambient CO, to check and evaluate gas network leakage and natural gas leakage detector.
EGA4 can install a forth electrochemical sensor to monitor pollution. In this way you can measure simultaneously and
using a single unit, NO/NOx and SO2 gas concentration.
The instruments are completed with a pressure (draught) sensor, an internal printer, an internal memory for storing data
and a RS232 serial interface for configuration and data transfer from and to a PC.
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Draft measurement is possible using the internal pressure sensor and the special gas sample probe.
The optional internal printer is impact type and the generated document is very legible and has a long time duration.
The internal standard memory may store up to 250 complete gas analysis divided by Tag.
The instruments have a standard IR serial interface and an optional RS232 conversion module and a configuration
PC software are available to configure the analyzer.
Features & Benefits
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New user friendly interface: very intuitive and in English
language to use the instrument without instruction manual.
Large dimensions and lighting LCD display: very legible
using the “Zoom” function and the automatic back-light device.
Easy and quick upgrading hardware and software are made
using modular design to upgrade the system yourself.
Differential pressure measurement: gas velocity, pressure,
draft, ∆P, etc.
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Averaging between three gas analysis.
Internal impact type printer: more legible and long time
duration for you documents.
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Single battery pack: rechargeable to power both the
instrument and the printer.
Internal memory: up to 250 complete data analysis.
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Instruction Manual MM850481 ed.01
1.1
Specifications
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Type: 2, 3 or 4 cells palm-top flue gas analyzer.
Calibration: automatic calibration procedure at instrument switching-on.
Self-diagnosis: Sensors efficiency test with anomalous status announcement.
Fuel types: Up to 10 totally programmable.
Pump: rate of flow 0.8 lit / head –230mbar
All data measured using 3 meters long probe and line filter connected. Load loss = 10 mbar using a 3 meters probe
extension
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Power supply: High capacity Ni-MH rechargeable battery pack / external battery charger.
Charging time : 8h at 90% with instrument off.
Battery life: 5h continuous operation (without printer and back-light).
Printer: Impact type 24 columns with 58 mm large and 18 meters long paper roll
Printer power supply: using the analyzer battery pack.
Print autonomy: up to 30 reports with battery full
Automatic CO(ppm) and CO(%) selector: if the sensors are installed.
Internal data memory: up to 250 complete analysis data structured by Tags.
Service and user data: 3 programmable lines for each programmed customer using a PC and DBGas Software.
Report Herder: 4 rows x 16 characters programmable from keyboard
Display: Large (40x56 mm) graphic LCD display with automatic back-light device. Bargraph and trend capability as
option.
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Serial interface: Bi-directional infrared interface. External IR/RS232 converter available for PC communication.
Synchronous serial port: for external keyboard and optical bar pen reader.
Smoke measurement: Using the optional external manual pump. Bacharach index memory store and printout
capability as standard.
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Optional probes: ambient CO, Bar pen, explosive gas leakage sniffer, T+RH% probe.
Working temperature: from –5°C to +45 °C (up to 50°C for short time)
Storage temperature: from –20 to +60°C (3 months maximum at temperatures exceeding the operational limits).
Dimensions: 115x90x330 mm
Weight: 1.1 kg battery and printer included
External optional ambient CO probe
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Range: from 0 to 500ppm
Accuracy: ±5ppm up to 100ppm; ±5% up to 500ppm
Resolution: 1ppm
Response time: 30s (t90)
Waiting starting time: 30s
Working temperature: from –5°C to +45 °C
External optional ambient T+RH probe
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Temperature Range: from 0°C to 85°C
Temperature Accuracy: ±1°C
Temperature Resolution: 0.1°C
Relative Humidity Range: from 0 to 99%RH
Relative Humidity Accuracy: ±5%RH
Relative Humidity Resolution: 0.1%RH
Response time: 50s (t63)
Waiting starting time: 30s
Working temperature: from –0°C to +50 °C (up to 85°C tip only)
External optional natural gas leak detection probe
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Pre-heating time: 30s minimum
Alarms indication: visual with 5 steps
5 alarms levels: 100, 200, 300, 400, 500 ppm
Acoustic Alarm indication: respectively 1, 2, 3, 5 beep/s, continuous
Response time: 5s (t90)
Alarm levels Accuracy: ±10% at 90 days
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Instruction Manual MM850481 ed.01
1.2
Accuracies and ranges
Parameter
Sensor type
Range
Resol.
0.1%
Max
response
20 sec.
Accuracy
±0.1% vol.
±10 ppm <300 ppm
±4% rdg up to 2000 ppm
±10% rdg >2000 ppm
±10 ppm <300 ppm
±4% rdg up to 2000 ppm
±10% rdg >2000 ppm
±5 ppm <125 ppm
O2
CO
Electrochemical
from 0 to 25.0%
from 0 to 8000 ppm
H2 compensated up Electrochemical
to 1000ppm
1 ppm
50 sec.
CO
NO
NO2
Electrochemical
Electrochemical
Electrochemical
from 0 to 20000 ppm
from 0 to 4000 ppm
from 0 to 1000 ppm
1 ppm
1 ppm
1 ppm
40 sec.
40 sec.
50 sec.
±4% rdg >125 ppm
±5 ppm <125 ppm
±4% rdg >125 ppm
NOx
SO2
Calculated
Electrochemical
from 0 to 5000 ppm
from 0 to 4000 ppm
1 ppm
1 ppm
40 sec.
±5 ppm <125 ppm
±4% rdg >125 ppm
CO2
Tair
Tgas
∆T
Tflow
Treturn
Pressure/Draft &
∆P
Calculated
Pt100
Tc K
Calculated
Tc K
from 0 to 100%
from -10 to 100 °C
from -10 to 1000 °C
from 0 to 1000 °C
from -10 to 100 °C
from -10 to 100 °C
-10hPa to +100 hPa
0.1 %
0.1 °C
0.1 °C
0.1 °C
0.1 °C
0.1 °C
0.01 hPa
±(0.2% rdg+0.15°C)
±(0.3% rdg+0.3°C)
±(0.3%rdg+0.3°C)
±(0.3% rdg+0.3°C)
±1% rdg
Tc K
Piezo
Excess air
Efficiency
Gas speed
Smoke index
Calculated
Calculated
Pitot tube
from 1.00 to infinite
from 0 to 100%
From 0 to 100.0 m/s
from 0 to 9
0.01
0.1 %
0.1 m/s
External pump
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Technical units and ranges can be converted directly from ppm to mg/Nm3 , mg/kwh and from hPa to mmH2O, mbar or inH2O.
The relative accuracy shown are expressed as absolute or % of rdg errors at -5°C to +40°C ambient temperature.
The maximum response time shown is referred to 90% signal changes.
The pressure relative accuracy shown is valid only after the auto-zero procedure.
Specifications may change without notice.
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Instruction Manual MM850481 ed.01
2
GENERAL
2.1
Keypad & Display
The tactile keyboard allows the operator to enter the main operative mode and all other complementary or auxiliary
modes following the menu driven instructions.
The high contrast graphic LCD (40x56 mm), equipped with an automatic back-light device, displays the measured and/or
calculated parameters in the preferred format (Zoom function). The above parameters can be also displayed in a graphic
mode.
2.2
Built-in printer
EGA4 can be equipped with a built-in, rugged, impact type printer. It uses a low cost common roll of paper (58 mm large,
18 meters long) , more readable, long time and heat resistant better than the thermal printout on chemical paper. One
key instruction is enough to obtain one, two or more copies of the analysis report with header and company reference
data.
2.3
Gas sampling probe
Flue gas sampling probes with different length, shape and max. operating are available to match the requirement of
different applications. The sampling probe is connected to the instrument with a rubber hose through a combined module
of water trap and suspended particle filter.
2.4
Measuring cells
EGA4 uses long life sensors for O2, CO (H2 compensated), NO, NO2 and SO2. An automatic device exclude
automatically the CO sensor when CO high concentration level is identified.
Four acoustic and visual alarms can be set on four programmable parameters.
2.5
Temperature probes
A thermocouple type K is incorporated on the tip of the gas sampling probe to measure the flue gas temperature. This
thermocouple is suitable for measurements up to 800°C (max 1000°C for few seconds). Temperature measurement and
gas sampling from the flue gas pipe are thus always performed in the same site.
The probe is connected to the instrument with the appropriate compensated cable and connector. A Pt100 resistance
thermometer (local jig or remote sensor) is used for the air temperature measurement and best efficiency calculation.
2.6
Pressure sensor
The instrument is equipped with an internal sensor for pressure and stack draught. One key instruction move the
operative mode to and from this function to gas analysis and viceversa. The instrument has, as standard feature, a
differential pressure sensor.
2.7
Fuel technical data
The instrument includes as standard the technical data for 4 of the most common fuels.
Using the optional GasConfig software, it is possible to modify or add data of up to 10 different fuels.
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Instruction Manual MM850481 ed.01
2.8
Smoke measurement
Smoke index measurement is done by using a hand pump (supplied as an accessory), the results cam be memory
stored and printed in the report.
2.9
Remote temperature probe
A remote Pt100 probe is available for combustion air temperature measurement from –10°C to 100°C. This probe is
strongly recommended mainly in forced air boiler to obtain an accurate calculation of the efficiency.
2.10
T+RH% probe
Optional probe for simultaneous measurement of ambient temperature and relative humidity (%RH) for comfort index
computation.
2.11
Ambient CO probe
Optional probe to monitor CO concentration and therefore safety condition in the boiler room. The instrument gives
acoustic and visual alarm if the set limit (according to the OSHA recommendation) are exceeded.
2.12
Natural gas probe
Optional probe to monitor CH4 and natural gas concentration and detect and locate the position of a gas leak into the
domestic pipe network.
2.13
Leakage checking mode
To check gas network tightness using a pressure decay method at programmable interval time. It uses the internal
pressure sensor and a Eclipse leakage procedure.
2.14
Burner pressure probe
A 1 meter 8x4mm silicon hose is used to check the pressure inside the burner when you are installing the heating
system.
2.15
Pitot tube
The EGA4 analyzer can be connected to a Pitot tube for gas speed measurements.
2.16
Calibration certificate
Each EGA4 portable gas analyzer, is factory calibrated and certified against Eclipse Standards, that are periodically
certified by an International recognized Laboratory, and shipped with a Report of Calibration stating the nominal and
actual values and the deviation errors.
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Instruction Manual MM850481 ed.01
3
PHYSICAL DESCRIPTION
The EGA4 portable analyzer consists of a rugged and compact case, a mother board with all base function circuits, 2, 3
or 4 electrochemical cells, a gas pump, a keyboard, an LCD backlighted display, a Ni-MH rechargeable battery pack and,
optionally an impact printer.
The 2 pieces of the case are jointed by 8 screws. The batteries, the pneumatic circuit and the cells are positioned in the
rear of the analyzer and 2 screws locked the lid.
A pressure lid allows to remove the paper roll.
Positioning cone
Impact printer
(opt.)
Flue gas probe
IR serial port
Graphic Display
Keyboard
External probe input
Battery charger
Pt100 Tair probe
Back-light sensor
P1 – Draft/Pressure
input
P2 - P Input
∆
INLET – Flue Gas
input
Tgas Input
Water trap + Line filter
At the bottom of EGA4 you can see all sampling probe connectors: gas inlet, pressure and draught input, thermocouple
input for gas measurement and the 2nd pressure inlet connector.
On the left side are the connectors for: line power charger, synchronous serial input connector for bar pen and keyboard,
the input for the auxiliary probes (T+RH%, leak checker, etc.) and the infrared LED for PC serial communication (an
optional IR/RS232 and software should be used to configuring and transfer the analysis data).
The operator interface is on the front of the instrument and it consists of: a high contrast LCD display and a 14 button
keypad. An automatic back-light device and a “zoom” function, make easier the data reading on the display. The most
used operation (analysis, draught, printing and smoke index) can be accessed by operator pressing a single key.
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Instruction Manual MM850481 ed.01
4
PRINCIPLE OF OPERATION
The EGA4 analyzer is based on the following functional blocks:
2° Sensor CO
Water trap
Gas outlet
Line filter
Pump
1° Sensoe O2
4° Sensor
3° Sensor
Gas input
INLET
Differential
pressure
sensor
P2 - ∆P
Pt100 Tair input
External probe input
P1 – Draft/Pressure
TcK Tgas input
MicroController
250
memory
IR serial port
Display
Battery charger input
Power supply
Ni-MH battery
Keyboard
Impact printer
4.1
Measurement principle
The gas is sampled and aspirated through the probe with a primary pump powered at constant voltage.
To position the sampling probe in the exhaust gas pathway a hole of 11mm, up to 16mm, should be drilled and the
retaining cone of the sampling probe firmly screwed in it.
The retaining screw in the cone enables the probe to be easily moved to locate the core flow, normally correspondent to
the center of the section of the smoke tube. The flue gas and exhaust gas pathway, should be checked for gas-tightness
before carrying out a measurement and, if necessary, non gas-tight points should be sealed.
The O2 sensor is essentially an electrochemical cell, with two electrodes and electrolyte solution. The behavior is similar
to a normal battery and therefore the sensitivity decreases with time. The expected life does not relate to the operative
time and is lost after approximately 24 months.
The toxic gas measurements (CO, SO2, NO and NO2) use electrochemical cells, with an expected operative life of 3
years.
The electrochemical cell grants accurate results for time intervals of approximately 60 minutes. The zero drift is
automatically corrected by the instrument every time the instrument is switched-on, using fresh ambient air as reference.
This operation should be made with the sampling probe not inserted in the chimney or with the sampling probe
pneumatic connector disconnected from the analyzer gas inlet.
When a long time analysis has to be made, a new autozero procedure should be performed.
The pressure/draught sensor is based on the principle of the extension metric measuring bridge. When the instrument is
switched-on, a zero calibration of the draught/pressure circuit is also executed. Leave open the “∆P” connector during
this phase.
Measured and calculated parameters are indicated on a LCD alphanumeric display (40x56 mm), equipped with a
automatic back light device for easy readings, also in poor light conditions.
4.1.1
Gas sampling probe
The sampling probe consists of a steel tube and a handle of thermoinsulating material. A positioning cone allows to place
the probe in holes with a diameter from 11 to 16 mm.
The gas temperature is acquired using a thermocouple type K with the junction placed on the top of the tip.
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Instruction Manual MM850481 ed.01
4.1.2
Water trap & line filter
The gas flows through an external combined water trap and line filter to avoid the presence of condensation and
suspended solid particles in the analysis section of the instrument. A cylinder is positioned at 15 cm from the instrument
gas inlet it is divided into two parts: the water trap and the line filter.
The water trap works using the expansion principle: the gas flow decreases its speed inside the cylinder and it will cool;
the humidity will condense and the solid particles fall down. The section of the water trap must be periodically drained off
to avoid water from entering the analysis section. Pull the rubber plug and shake slowly the trap to drain the water. Push
the rubber plug to close the trap hole.
The line filter is positioned after the water trap and before the electrochemical cell. Its function is to stop the smallest
solid particles before the analysis. Remember to change the filter every time it is dirty.
Line filter
cat. EE650074
Rubber plug
cat. EE650081
WARNING
THE WATER TRAP MUST BE KEPT IN VERTICAL POSITION DURING GAS SAMPLING. AN INCORRECT POSITIONING OF THE TRAP CAN
ALLOW THE WATER TO ENTER INSIDE THE ANALIZER AND DAMAGE THE ELECTROCHEMICAL SENSORS.
NEVER MAKE ANY ANALYSIS WITHOUT THE DRAINING RUBBER PLUG. THE MEASUREMENTS WILL BE INCORRECT.
WHEN YOU FINISH THE ANALYSIS, REMEMBER TO DRAIN THE WATER TRAP. BEFORE PUTING THE GAS PROBE IN THE CARRYING CASE,
REMUVE THE CONDENSATE WATER FROM THE PROBE HOSE.
THE LINE FILTER SHOULD BE REPLACED WHEN DIRTY. NEVER MAKE ANY ANALYSIS WITHOUT LINE FILTER AND/OR WATER TRAP, AS IT
CAUSES AN IRREVERSIBLE DAMAGE TO THE ELECTROCHEMICAL SENSOR.
4.1.3
Gas sensors
The analyzer uses long life sensors for O2, CO (H2 compensated), NO, NO2 and SO2. The sensor do not need special
maintenance but must be replaced after the expected lifetime.
However a full maintenance and certification of the instrument is recommended at one year interval.
The gas sensors are electrochemical cells composed by two electrodes (anode and cathode) and an electrolyte solution.
The sampled gas goes trough a selective diffusion membrane.
The oxidation process produces an output electrical signal proportional to the gas concentration. The signal is evaluated
by the electronics, converted to digital, processed by the microprocessor, displayed and printed with a 0.1% volume
resolution.
The flue gas must not be at a pressure that could damage or destroy the sensor. Measurements are always carried out
under "pressureless" conditions. The maximum permissible excess/reduced pressure is ±100 mbar.
Each sensor has a different response time:
O2
20s to 90% of reading
=
CO (H2 comp.) = 50s to 90% of reading
CO
NO
NO2
= 50s to 90% of reading
= 40s to 90% of reading
50s to 90% of reading
=
SO2
= 40s to 90% of reading
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Instruction Manual MM850481 ed.01
NOTE: TO OBTAIN AN ACCURATE MEASURE IT IS RECOMMENDED TO WAIT 3/5 MINUTES.
Toxic gas sensor can be present a ±2% drift and a long resuming time it an excessive (>150% of F.S.) gas concentration
is applied. In that case it is recommended to wait for a measured value lower than 20ppm, by sucking fresh air before
switch the analyzer off.
An optional Electro-valve can be installed inside the instrument to exclude/include manually or automatically the CO cell
when the CO concentration is too high (e.g. when the burner is starting)
Four acoustic and visual alarm levels can be set on four programmable parameters.
4.2
Auxiliary measurements
4.2.1
Temperature measurements
The instrument is equipped with two temperature inputs to measure exhaust gas and the burner air input temperatures
(combustion gas).
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A thermocouple type K (nickel-nickel chromium) is included in the tip of the gas sampling probe to measure the flue
gas/exhaust gas temperature. This thermocouple is suitable for permanent measurements at temperatures up to
800°C and for short-term measurements up to 1000°C. Temperature measurement and gas sampling from the flue
gas pathway are thus always performed at the same site. The probe is connected to the apparatus with
compensated cable and connector. An internal Pt100 resistance thermometer is used for cold junction
compensation.
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The same Tc K input can be used to measure the flow and return temperature in water circuit. If you have to
measure the water temperature measuring the pipe temperature, use an arch-model thermocouple with an
appropriate diameter.
A remote Pt100 sensor, can be supplied on request with a 2 or 5 meter cable to measure the air inlet temperature in
forced air boiler. This option is very important for an accurate efficiency calculation.
4.2.2
Pressure and Draft
The analyzer can be equipped with a temperature compensated pressure sensor to measure the chimney draft or
pressure. The pressure range is from –1500.0 to + 1500.0 mmwc (±150.00 hPa)
The sensor is factory calibrated and does not require manual adjustment.
The zero drift, caused by ambient air temperature variation, is automatically cancelled at each instrument start-up. In
addition, for more accurate readings the operator can reset, using the pertinent key, the zero if required. The instrument
sensor is differential type and, if connected to a Pitot tube, it can be used to measure gas speed.
NOTE:
WE SUGGEST TO EXECUTE THE AUTOZERO PROCEDURE FOR MORE ACCURACY BEFORE PERFORM THE MEASUREMENT.
CAUTION
IF A SINGLE TUBE GAS SAMPLING PROBE IS USED FOR PRESSURE/DRAFT MEASUREMENTS, BE SURE THAT IT IS CLEAN AND DRY
BEFORE CONNECTION TO THE PRESSURE INPUT.
CAUTION
A +300HPA (OR –300HPA) OVER-PRESSURE CAN PERMANENTLY DAMAGE THE PRESSURE SENSOR.
4.2.3
Smoke index measurement
This method consists of taking a gas sample from the center of the gas pipe behind the heat exchanger and crossing it
through a special filter paper.
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Instruction Manual MM850481 ed.01
The color of the spot on the filter is compared with a graduated (from 0 to 9) reference scale and it is called “smoke
index”.
You can type in the instrument up to 3 smoke index values; the analyzer calculate the average value and can print these
values on the report.
Normative and laws about the air pollution, describe the procedure: DIN51402, 2116, 2117 and 2297 VDI directives,
ASTM D 2156-63 T, etc.
4.2.3.1
Measuring instruments (option)
1. Smoke pump: it should suck 5.75 litres ±0.25 l (normalized to 0°C, 760mmHg) through a 1 cm2 filter.
2. Smoke index reference table: it is a grey scale sheet with 10 different areas numbered from 0 to 9. The number 0
corresponds to a 85% ±2.5% reflection. Every area reflects 10% less than the previous one. The scale is used to
compare the scale with the paper filter and to calculate the smoke index.
3. Paper filter: When it is clean it has a reflection corresponding to the 0 scale index. It also has 3 litres per cm2 a
minute (normalized to 0°C, 760mmHg) with a 200/800 mmwc resistance to the air flux.
4.2.4
Other measurements
The analyzer has an auxiliary input for special probes connections. Available probes are: ambient CO monitoring,
temperature & humidity (T+RH%) measurement and natural gas monitoring probes.
An optional operative mode is the leakage pipe test to check gas network tightness using pressure decay method at
programmable interval time.
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Instruction Manual MM850481 ed.01
5
RECOMMENDATIONS
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The analyzer should be used in environments where the temperature is between -5°C and +45°C.
When the analysis are completed, before switch the instrument off, remove the probe from the gas pathway and wait
about 30 seconds cleaning the pneumatic circuit from gas.
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Do not use the analyzer with clogged filters or filled with humidity.
Before placing the probe in the case, be sure that the probe, the water trap and the hose are clean and cold.
If you have ordered a double hose sampling probe, insert both connectors to the instrument during the gas analysis
(pay attention to color correspondence).
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To empty the water trap from the condensate water, remove the draining plug. DO NOT OPEN the water trap. DO
NOT leave the water trap without the draining rubber plug.
For the best efficiency and accuracy, we suggest to calibrate the instrument every year.
WARNING
IF THE EGA4 IS STORED AT TEMPERATURE EXCEEDING THE OPERATIVE LIMITS, THE ANALYZER NEEDS SOME MINUTES TO WARM-UP
TO THE ACTUAL AMBIENT TEMPERATURE, BEFORE STARTING THE OPERATION.
5.1
Power supply
The instrument can be powered from:
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internal rechargeable Ni-MH battery.
External battery charger, supplied as a standard accessory (the batteries must be installed).
Optional external DC auto battery charger (the batteries must be installed).
The Ni-MH rechargeable batteries allows a long time operation and do not need maintenance. The same batteries power
both the instrument and the internal printer. The internal battery will grant 5 hours continuous operation (without printing
and display back light off).
NOTE: 90% BATTERY CHARGING CAN BE OBTEINED IN 8 HOURS WITH THE INSTRUMENT SWITCHED OFF.
During operation a fully battery symbol “≠” will be displayed on the display. This symbol means that the batteries are
completely full. When the batteries will be discharged the symbol “–” will appear and the instrument still has about 20
minutes operation capability to end the running analysis.
The battery symbol indicates that a full charge is required. Use only the dedicated battery charger supplied by Eclipse
together the instrument.
CAUTION: OLD BATTERIES CAN LEAK AND CAUSE CORROSION. NEVER LEAVE RUN DOWN BATTERIES IN THE INSTRUMENT
WARNING
THE INSTRUMENT IS SHIPPED WITH AN AVERAGE LEVEL OF BATTERY CHARGE. AFTER UNPACKING, A FULL CHARGE OF THE BATTERY
IS RECOMMENDED, BY CONNECTING THE INSTRUMENT TO THE MAIN LINE THROUGH THE BATTERY CHARGER (OFF CONDITION) FOR
8/10 HOURS.
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6
CONNECTIONS
6.1
Electro-pneumatic connections
To prepare the instrument for operation connect the sampling probe to the instrument:
•
Plug the pneumatic connector of the probe to the GAS INLET connector. If you are using the gas sampling probe
with Draft option, connect also its connector to the instrument Pressure/Draft inlet.
Plug the probe temperature sensor plug to the pertinent connector.
For more accurate readings and efficiency calculations, plug the remote air temperature Pt100 sensor to the 3 pin
connector on the left side of the instrument.
•
•
Tgas input
INLET – gas input
P1 – Draft/Pressure
input
P2 – differential
pressure input
pneumatic ports
Battery charger
Pt100 Tair input
RS232 – External
probes input
IR serial interface
Right side
6.2
Gas probe positioning
The measurement site should be arranged at a distance of 2xD behind the exhaust gas connection pipe, where D =
diameter of the exhaust gas connection pipe.
To position the sampling probe in the exhaust gas pathway a hole of 11/16mm should be drilled and the retaining cone of
the sampling probe firmly screwed in it.
The retaining screw in the cone enables the probe to be easily moved in order to locate the core flow, normally
correspondent to the center of the section of the stack.
The flue gas and exhaust gas pathways, must be checked for gas-tightness before carrying out a measurement and, if
necessary, non gas-tight points should be sealed.
To locate the gas core flow, insert progressively the sampling probe and read the maximum value of temperature.
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Tair probe
CAUTION
FOR A CORRECT GAS ANALYSIS, NO AIR MUST REACH THE FLUE GAS AS A RESULT OF NON-GAS-TIGHT CONNECTION POINTS BETWEEN
THE HEAT PRODUCER AND THE MEASUREMENT SITE (PROBE).
THE FLUE GAS AND EXHAUST GAS PATHWAYS MUST BE CHECKED FOR GAS-TIGHTNESS BEFORE CARRYING OUT A MEASUREMENT,
AND IF NECESSARY NON-GAS-TIGHT POINTS SHOULD BE SEALED.
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7
OPERATIONS
7.1
Basic operation
All the procedures and programming operations on the EGA4, can be made using the keyboard and the display.
NOTE: ALL NUMERIC VALUES SHOWN IN THE FIGURES OF THIS MANUAL ARE INDICATIVE AND LISTED AS AN EXAMPLE.
The analyzer should be used in environments where the temperature does not exceed the specified limits (from -5°C to
+45°C) and where the relative humidity is lower than 95% non-condensing.
7.1.1
Keyboard
The front panel keys functions are the following:
[F1] and [F2]
This keys are multifunction. The instrument
change the assigned function during the
operations. All displayed pages have, in the
bottom, 2 boxes each containing the assigned
function (e.g. ANALYSIS ). If no word is
displayed inside the box, no function is assigned
to that function key.
F1
F2
S
T
W
X
F1
F2
[S], [T], [W] and [X] They move the cursor symbol or to increase or
decrease numerical values.
[ENTER]
Accept and memory store the modified
parameter or variable.
ENTER
ON/OFF
PRINT
[PRINT]
Print the report of the analysis.
[ON/OFF]
[STORE]
Switch the analyzer on or off.
Read or store the analysis data from or in the
memory.
STORE
HELP
SETUP
DRAFT
MENU
[SETUP]
[MENU]
Go to the configuring page of the instrument.
Go to the auxiliary function (Ambient
measurements, Flow and return Temperature,
etc.) menu.
SMOKE
[DRAUGHT]
[SMOKE]
Go to the Pressure/ Draught measurement.
Allows the data input for smoke index
measurements. You need an external pump for
the gas sampling.
[HELP]
Display the most important information for the
service: the battery charging level, the status of
the gas sensors, the free memory, etc.
7.1.2
Display
The EGA4 is designed with a large (40x56 mm) graphical display using an automatic back light system for the best
reading in poor light conditions also. The instrument is able to visualize simultaneously on the display 3, 6 or 12
parameters.
Three different area can be identified on the display: Menu and Measure area, Status bar and Function boxes.
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Menu&Measure area
Status bar
O2 : 20.9 %
CO : 2000ppm
Ta : 20 °C
Tg : 400 °C
SO2 : 1000
CxHy: 5.00
Lam : 0.99
NO2 : 100
η : 95.7 %
NOx: 500ppm
CO2 : 10.2
Per : 10.5
–
GRAPH
Ref O2
Function box
The Menu and Measure area displays the analysis data, the menu and all messages for the operator. The measured and
calculated parameters are displayed in different pages of 6 parameters each.
Using the [S] and [T] keys you can change page, changing the displayed parameters.
Pressing the [W] and [X] keys it is possible to increase or decrease the number of the displayed parameters (ZOOM
function).
O2 : 20.9 %
O2 : 20.9%
CO : 2000p
Ta : 20.2°C
Tg : 400.3°C
η
: 95.7%
NOx: 500p
SO2 : 1000p
CxHy: 5.00
Lam : 0.99
NO2 : 100p
CO2 : 10.2p
Per : 10.5
O2 20.9%
CO 2000ppm
Ta 20.0°C
CO : 2000 ppm
Tamb : 20 °C
Tgas : 400 °C
Eff : 95.7 %
NOx : 500 ppm
–
–
–
GRAPH
GRAPH
GRAPH
Ref O2
Ref O2
Ref O2
Two boxes are positioned on the bottom of the display. They contains the name of the function assigned to the [F1] and
[F2] function keys.
The status bar uses graphical symbols to describe the actual operation mode of the instrument.
– / ≠
Battery status: ≠=charged, –=discharged
Max/Min/
Med/Mem
The Max, Med, Min, Actual values are displayed in memory recalling mode.
O2
The displayed measure are referred to oxygen
Memory Card (PCMCIA) inserted.
Line operations
7.1.3
Display adjustment
In autozero procedure, you can press the [W] and [X] keys to adjust the LCD contrast.
When the instrument is in measuring mode you should press the [HELP] key and press the [W] and [X] keys to adjust
the LCD contrast.
7.1.4
Numerical input
If you have to set a numerical parameter (e.g. O2 reference, etc.) use the following procedure:
Select the parameter to be changed (e.g. O2 reference) with the [S] and [T] key from the configuring menu.
Press [ENTER] to enter in modify page as follows:
CO Reference
0.0
–
ESCAPE
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The “S” symbol below the first digit is the cursor.
You can move the cursor between the digit using the [W] and [X] keys.
You can change the selected digit using [S] and [T]. If “9” or “0” values are exceeded, the left digit is increased or
decrease.
Press [ENTER] to memory store the value and return to the previous page.
Press [ESCAPE] (F1) to return to the previous page without save the changes.
7.1.4
Text input
If you have to set a text parameter (e.g. customer name, etc.) use the following procedure:
Select the parameter to be changed (e.g. customer name) with the [S] and [T] key from the configuring menu.
Press [ENTER] to enter in modify page as follows:
!"#$%&'()*+,-./0123
456789:;<=>?@ABCDEFG
C
HIJKLMNOPQRSTUVWXYZ
–
ESCAPE
CONFIRM
A “S” symbol below the “ “ (blank) character in figure, represent the cursor. It is used to identify the selected character;
you can move it using the [W], [X], [S] and [T] keys. The box below the characters table shows the currently inserted
text. The symbol “W” is the end of line symbol.
Press [CONFIRM] to write in the line box the selected char. The reversed char “C”, when selected, delete the last
inserted char.
Press [ENTER] to memory store the text and return to the previous page.
Press [ESCAPE] to return to the previous page without save the changes.
7.1.5
Select by a list
If you have to set a text parameter (e.g. Tag name, fuel type, etc.) use the following procedure:
Select the parameter to be changed (e.g. fuel type) with the [S] and [T] key from the configuring menu.
Press [ENTER] to enter in modify page as follows:
-- Fuel --
Natural Gas
LPG
Gasoil
Combustible oil
–
ESCAPE
The “X” symbol on the left is the cursor.
You can move the cursor between the digit using the [S] and [T] keys.
Press [ENTER] to memory store the selection and return to the previous page.
Press [ESCAPE] (F1) to return to the previous page without save the changes.
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7.2
Flue gas analysis
ꢀ
ꢀ
Connect the gas probe to the analyzer as shown in chapter 7. DO NOT INSERT THE PROBE IN THE CHIMNEY.
Switch the analyzer on pressing the [ON] key. The display will show the following page:
EcoLine 4000
GreenLine 4000
UniGas 3000+
Num. Serie:
1257
Num. Serie:
1257
Num. Serie:
1257
Versione:
1.000
Versione:
1.000
Versione:
1.000
This page changes automatically after same seconds or if you press a key as follows:
! Don t insert
! probe in chimney
!
!
Op.: Antonio
Bat: 5.2V (23.5°C)
Autozero: 180 sec
–
MEASURE
MENU
This page displays the following information: operator name, battery charge level, instrument internal temperature
and the seconds to end the autozero procedure.
NOTE: THE ANALYZER MUST DRAW CLEAN AIR FROM THE AMBIENT DURING THE AUTOZERO PROCEDURE. OTHERWISE THE
MEASUREMENTS CANNOT BE ACCURATE.
It is possible to enter in “MENU” page (pressing [F1]) or in “MEASURE” page (pressing [F2]). See the appropriate
paragraphs for operations.
When autozero procedure finished, an intermittent sound advise the operator. Press the [ENTER] key to mute the
unit. The following page will be displayed:
! Now insert
! probe in chimney
!
!
--- FUEL --
Natural Gas
TAG SELECTION
ANALYS.
–
This page allows the operator to change the fuel used and to select the Tag between the available.
♦
Fuel selection. Move the cursor symbol “X” on the desired row using the [S] and [T] keys. Press [ENTER] to
change the value. See instruction on paragraph 8.1.6.
♦
Tag selection. Move the cursor symbol “X” on the desired row using the [S] and [T] keys. Press [ENTER] to
change the value. A new page will be shown. The Tag name, the description and the progressive number will
be displayed. See instruction on paragraph 8.1.6. When in measuring mode, you can select another Tag
pressing the [MEMORY] key.
ꢀ
ꢀ
Insert the probe in chimney. Stop it using the retaining cone and adjust the immersion depth for a gas sampling in
the middle of the exhaust gas connection pipe.
Press the [ANALYSIS] (F1) key to begin the measurements. The following page will be shown:
O2
20.9 %
0.0 %
1 ppm
1 ppm
Tc Error
--------
CO2
CO
NO
Tf
Eff
–
GRAPHIC
Ref O2
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Pressing the [W] and [X] keys, it is possible to zoom-in and zoom-out increasing or decreasing the number of displayed
parameters.
O2
Ta
Tf 400.3C : NO2
95.7%
CO2 10.2p :
NOx 500p :
20.9% : CO
20.2C : Eff 0.99
2000p
O2
CO2
CO
20.9%
0.0%
100p
η
:
1ppm
–
–
GRAPHIC
GRAPHIC
Ref O2
2
Ref O
Pressing the [S] and [T] you can change page for others parameters.
Pressing the [REF. O2] key the measured parameters will be referred to the programmed oxygen value. When selected
this mode, the symbol “O2” will be displayed on the status bar.
O2
CO2
CO
20.9%
0.0%
1ppm
–
GRAPHIC
Ref O2
If the graphical option (Table E=4 on ordering code) is installed, the instrument can display the measured values as bar-
graph. Press the [GRAPHIC] (F2) key to change mode.
O2
CO
η
–
NUMERIC
Ref. O2
Using GasConfig Software, you can program the graph page: Assign up to 6 different parameter, range and increment
direction. See chapter 9 for software instructions.
Press the [NUMERIC] (F2) key to return to the normal display mode.
7.3
Pressure/Draught measurement
If the internal pressure sensor is installed (Table E=2 on ordering code), you can execute the pressure/draft
measurements using or the standard probe or the special probe.
Standard probe (TG models):
The standard probe has a single gas collector for gas sampling. Usually you have the hose terminal connected to the
instrument gas inlet; when you have to do the draft measurements you have to move the connector to pressure inlet (P
IN) connector.
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CAUTION
IF A SINGLE TUBE GAS SAMPLING PROBE (TG MODEL) IS USED FOR PRESSURE/DRAFT MEASUREMENTS, BE SURE THAT PROBE AND
HOSE ARE CLEAN AND DRY BEFORE CONNECTION TO THE PRESSURE INPUT.
Special draft probe (TGD models):
This special probe model has a double gas collector: one for the flue gas analysis and one for the draft measurement.
When you connect the probe to the analyzer you have to insert both gas inlet and pressure inlet connectors. Connect the
hose with line filter to gas inlet connector.
ꢀ
The pressure measurement requires the instrument in normal operating conditions indicating one of the measured or
calculated parameters. Press [DRAUGHT] on the keyboard. DO NOT INSERT THE PROBE IN THE CHIMNEY. The
internal pump will stop and the following page will be shown:
For draught meas.
Move probe on
DRAUGHT P1
Press [F1] to
Start measure
–
DRAUGHT
ESCAPE
ꢀ
Press [MEASURE] (F1) to show the following page:
DRAUGHT
Measure
1.0 mbar
Press [ENTER] to
Hold measure
–
ZERO
ESCAPE
ꢀ
ꢀ
Press the [ZERO] key before insert the probe in the chimney to zeroing the measured value.
Insert the probe in the chimney. Check for mechanical positioning and flue gas intercepting. Wait for measurement
stabilization.
ꢀ
ꢀ
Press [ENTER] to memory store the pressure and draft values.
Press [ESCAPE] (F1) to return to the previous page.
Now you can proceed with the Smoke index measurement and/or the gas analysis. The memory stored value will be
printed together the analysis.
7.3.1
Burner pressure measurement
Using the burner pressure probe, it is possible to measure the pressure on the burner. Connect the probe to the
instrument pressure input and connect to the burner plug. Follow the procedure described in paragraph 8.4 to read the
pressure.
7.4
Smoke measurement
To avoid condensation inside the smoke pump, it should aspirate ambient air before the gas sample. This can be
obtained aspirating the air by the fireside (not in the exhaust gas connection pipe) without using the paper filter.
Introduce now the filter in the pump. The gas sample should be drawn to the center of the combustion gas flux. The
correct gas volume is sampled with 10 uniform shoots by the pump.
Compare the darkening of the filter with the smoke index table. The smoke index found does not exceed the ones
defined by the current normative.
We suggested to use a retaining cone during gas sampling.
NOTE:
IF YOU WONT TO PRINT THE SMOKE INDEX WITH THE ANALYSIS DATA, YOU SHOULD DO THE MEASUREMENT BEFORE THE
FLUE GAS ANALYSIS.
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7.4.1
Input of the smoke index
Before input the data, you have to execute the smoke index measurements. You can input up to 3 values; the analyzer
will do the average calculus.
ꢀ
The smoke measurement requires the instrument in normal operating conditions indicating one of the measured or
calculated parameters. Press [SMOKE] on the keyboard. The following page will be shown:
SMOKE
Meas. 1: -
Meas. 2: -
Meas. 3: -
AVG
-
Oil.Der.: NO
–
ESCAPE
ꢀ
ꢀ
Press [S]and/or [T] to move the cursor symbol to the “Measure 1” input field.
Press [ENTER] to input the value. See instruction on paragraph 8.1.4.
If necessary, input the “Measure 2” and “Measure 3” smoke index. The instrument will compute the average.
ꢀ
ꢀ
ꢀ
ꢀ
Press [S] and/or [T] to move the cursor symbol to the “Oil derivative”.
Press [ENTER] to change the value for the correct fuel type.
Press [ESCAPE] (F1) to return to the previous page without save the changes.
Press [ENTER] to memory store the selection and return to the previous page.
7.5
Combustion air temperature (option)
It is important to measure the true combustion air temperature to have a correct boiler efficiency computation. The EGA4
has a auxiliary Rtd input to measure simultaneously the air temperature. A Pt100 with a 6 meters long cable can be
connected on the right side of the analyzer.
Insert the Rtd inside the air combustion aspiration tube and near the boiler.
Follow the standard procedure to make measurements. The instrument will show the temperature on the display and the
efficiency will be calculated using this value. If no external Rtd is connected, the analyzer will measure the instrument
temperature (ambient) using the internal sensor.
7.6
Flow/Return temperature
Connect the thermocouple type K on the bottom of the instrument (the same connector used for gas temperature). If the
temperature measurement is made using the contact method on the external side of the flow and return water pipe. In
this case, we suggest to use an arch type thermocouple.
Press [MENU] to display the following page:
MENU
MEASURE
RECALL MEMORY
FLOW/RETURN TEMP
GAS VEL.
–
ESCAPE
ꢀ
ꢀ
Use [S] and [T] to move the cursor symbol to “T. Flow/Return” option
Press the [ENTER] key to display the following page:
FLOW/RETURN TEMP
Temper.: 40.0 °C
Flow...: 40.0 °C
Return.: --.- °C
Differ.: --.- °C
–
COPY
ESCAPE
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On the “Measure” field, the instrument will display the current temperature value measured using the connected
thermocouple. The error message “Tc open” will be displayed if the thermocouple is not connected or broken. Positioning
the thermocouple on the flow pipe.
ꢀ
ꢀ
ꢀ
Use the [S] and [T] to move the cursor symbol to “T. Flow” field.
Press [COPY] to copy the current temperature as T. Flow value.
Press [ENTER] to manually change the temperature value
Positioning the thermocouple on the return pipe.
ꢀ
ꢀ
ꢀ
Use the [S] and [T] to move the cursor symbol to “T. Return” field.
Press [COPY] to copy the current temperature as T. Return value.
Press [ENTER] to manually change the temperature value
The instrument will show the difference between the two values.
Press [ESCAPE] (F1) to return to the previous page. The temperature values will be printed on the ticket report.
7.7
Gas speed measurement
The EGA4, is arranged for chimney speed measuring. For this measurement you need a Pitot tube to be connected to
the differential pressure inputs.
Connect the “+” terminal of the tube to “P1” connector and the “-“ terminal the “P2” the instrument connector.
ꢀ
ꢀ
ꢀ
Press [MENU] to display the following page:
MENU
MEASURE
RECALL MEMORY
FLOW/RETURN TEMP
GAS VEL.
–
ESCAPE
Use the [S] and [T] keys to move the cursor symbol to “Gas Vel.” Option. Press the [ENTER] key.
Gas Vel.
Temp. : 40.0 °C
Tg
DP
: 0.0 °C
: --.- mmH2O
Vel. : --.- m/s
–
COPy
ESCAPE
Insert the gas probe in the chimney. Set the probe tip to the center of the pathway. The display will show the current
gas temperature. An error message “Tc open” will be displayed if the thermocouple is not connected or broken.
Use the [S] and [T] keys to move the cursor symbol to “Tg” parameter.
Press [COPY] to copy the current temperature as Tgas value
Press [ENTER] to manually change the gas temperature value
ꢀ
ꢀ
•
Extract the gas probe from the chimney. Insert the Pitot tube inside the chimney. Be care that the probe is parallel to
chimney axis and facing burner.
•
•
•
Use the [S] and [T] keys to move the cursor symbol to “∆P” parameter.
Press [COPY] to copy the current ∆P value.
Press [ENTER] to manually change the ∆P value.
The instrument will display the gas speed.
Press [ESCAPE] to the previous page menu.
NOTE: FOR THE BEST SPEED CALCULATION, DO NOT CHANGE THE BURNER RATE BETWEEN THE TWO MEASUREMENTS. THE
OPTIMUM CONDITIONS WILL BE ACHIEVED USING 2 HOTELS IN CHIMNEY AND THE SIMULTANEOUS MEASUREMENTS
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7.8
Analysis data print
An internal impact printer can be installed as an option in the instrument. Read paragraph 8.10 for header report
changing.
To print the report (ticket) of the analysis use the following procedure:
ꢀ
Before make all measurements you need: Smoke index, pressure and draught, T. flow, etc. After make the gas
analysis measurements and wait same seconds for measurement stabilizing. Press the [PRINT] key. The following
page will be displayed:
PRINT
MEASURE HOLD
PRESS [PRINT]
NO. COPY
MODEL
1
Standard
–
FEED
ESCAPE
ꢀ
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to “NO. copy” or “Model” field.
Press the [ENTER] key to change the number of the reports you have to print and/or the print model for the report.
Press the [PRINT] key again to print the report. You can abort the printing in progress by pressing the [ESCAPE]
key.
ꢀ
ꢀ
Press [ESCAPE] (F1) to abort the operation.
Press [FEED] for paper advance. You can stop the paper advance by pressing the [ESCAPE] key.
7.8.1
Paper and Ribbon change
Open the cover pressing as in figure.
Extract the exhausted paper roll. You can use standard paper roll but you have to check before for its dimensions (max.
57mm ±1mm large and 48mm ±1mm roll diameter).
If necessary substitute the ribbon cartridge.
Approach the end of the new paper roll to the slot under the printer.
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Switch the analyzer on.
Keeping the [HELP] key down; press the [X] key to bypass the autozero procedure.
Press [PRINT] then press the [FEED] key for paper feed. Press the [ESCAPE] key when the paper will came out for
same centimeters.
Close the cover inserting the paper end in its slot.
7.9
Pressure decay procedure (option)
This optional operative mode allows to find pipes leakage. To set and run leak test, press the [MENU] key from
measuring page. The following page will be displayed:
MENU
MEASURE
RECALL MEMORY
FLOW/RETURN TEMP
GAS VEL.
–
ESCAPE
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to “MEASURE” option.
Press the [ENTER] key to select the option. Press [ESCAPE] (F2) to return to the previous menu.
MEASURE
P DECAY LEAK TEST
GAS LEAK TEST
AMBIENT CO
ENVIRON. TEMP/HUM
–
ESCAPE
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to “P DECAY LEAK TEST” option.
Press the [ENTER] key to select the option. Press [ESCAPE] (F2) to return to the previous menu.
P DECAY LEAK TEST
Leng.: max. 10 mt
Type : Under Track
Diam.: 1/2 "
TEST RESULT
–
ESCAPE
TEST
Before start the test you have to define the plant data:
Leng.:
Type :
Diam.:
Length of pipes
Type of plant (Under track or Visible)
Pipes diameters (from ½” to 1”½ settable)
ꢀ
Use the [S] and [T] keys to move the cursor symbol to the specification to be changed. Press the [ENTER] key to
modify. Press [ESCAPE] (F2) to return to the previous menu.
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ꢀ
Use the [S] and [T] keys to move the cursor symbol to the value to be changed. Press the [ENTER] key to store the
new selection.
Select “TEST RESULT” option for results viewing and press the [ENTER] key.
Now you can connect the instrument Pressure inlet (INP) connector to the gas circuit.
CAUTION
BE SURE FOR EMPTY AND CLEAN CIRCUIT: OVERPRESSURE, DUST, LIQUID AND CONDENSING MAY DAMAGE THE
INSTRUMENT INTERNAL CIRCUITS.
With circuit depressurized, press the [TEST] key. The unit will display the following page:
SELECT TEST
0.2 mmH2O
Result:
START TEST
A
–
ESCAPE
ZERO
Press the [ZERO] key to reset the reading.
The 4000 series can memory store up to 2 different test data (A and B) for “Before” and “After” check.
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to “Result” option. Press the [ENTER] key to select the option.
Use the [S] and [T] keys to move the cursor symbol to the value to be changed. Press the [ENTER] key to store the
new selection.
Select “START TEST” option and press the [ENTER] key to run the decay leak test.
P1 : 100.0 mmH2O
P2 :
99.5 mmH2O
P3 : _____
P4 : _____
~P : _____
Result A: _____
300
–
ESCAPE
The unit will store 4 different measurements at programmed time (standard values are: 10, 60, 120 and 120 second).
See paragraph 10.2.4 to change these values.
The instrument will display the ∆P (P1-P4) value and it compute, using the circuit specifications (Length, Diameter and
Type) the test result (GOOD or FAIL).
Test result will be calculated using the following acceptance limits table:
Under track circuit
Visible circuit
1”
Diameter
[in]
½”
¾”
1”
1” ¼
1” ½
½”
¾”
1” ¼
1” ½
Length
< 10m
< 20m
< 30m
< 40m
< 50m
> 50m
3.5
2.85
2.7
2.35
2.1
3
2.75
2.2
1.5
1.2
1.1
0.9
2
1.75
1.1
0.85
0.4
0.3
0.3
35
28.5
27
23.5
21
30
23.5
22
17
14
27.5
22
15
12
11
9
20
14
11
9
3
3
17.5
11
8.5
4
3
3
2.35
2.2
1.7
1.4
1.4
1.4
1.1
0.9
0.3
0.3
1.85
18.5
14
Note: These values are expressed in mmH2O. The plant circuit is failed when (P1-P4) exceed the values after 5
minutes.
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7.10
Ambient CO probe (option)
This optional external probe allows ambient CO monitoring for personnel safety. When connected to the analyzer, it
monitor continuously CO concentration and it signal when the Long-term Exposure (TWA) limits are reached. An
acoustic and visible signals are emitted by unit.
The following page show the current exposure limits for CO gas. This table is a guidance only, and figures must be
checked before being used. Sensors used in safety applications should be fully calibrated at least every six months.
U.K.
HSE
50
GERMANY
DFG
USA
OSHA
35
TWA (8h)
30
STEL (10’)
300
60 (30)
200
7.10.1
CO probe operations
To enable CO monitoring press the [MENU] key from measuring page. The following page will be displayed:
MENU
MEASURE
RECALL MEMORY
FLOW/RETURN TEMP
AMBIENT ANALYSIS
–
ESCAPE
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to “MEASURE” option.
Press the [ENTER] key to select the option. Press [ESCAPE] (F2) to return to the previous menu.
MEASURE
P DECAY LEAK TEST
GAS LEAK TEST
AMBIENT CO
ENVIRON. TEMP/HUM
–
ESCAPE
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to “AMBIENT CO” option.
Press the [ENTER] key to select the option. Press [ESCAPE] (F2) to return to the previous menu.
Connect the probe to the unit and wait for the following page:
AMBIENT CO
Amb. CO:
7 ppm
–
ESCAPE
ZERO
NOTE: WHEN PROBE IS CONNECTED THE INSTRUMENT BEGIN A 40 SECONDS WAITING TIME. IF PROBE IS CONNECTED IN AMBIENT
CO MENU, A WAITING MESSAGE WILL BE DISPLAYED.
Before insert the probe in working area, agitate it for same seconds in fresh and uncontaminated air. Press the [ZERO]
key to reset the measure and start CO monitoring.
From this moment the unit will compare the monitored value with the CO limit (default OSHA limit: 35ppm). It is possible
to change the CO limit using the GasConfig software for PC.
Press [ESCAPE] (F2) to return to the previous menu.
NOTE: IF THE PROCEDURE ABOVE IS EXECUTED AND THE CO PROBE REMAIN CONNECTED, THE INSTRUMENT WILL MONITOR AMBIENT
CO ALSO DURING OTHER OPERATIVE MODE.
If alarm condition is marked, press the [ENTER] key to silence it.
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7.11
Natural gas leak checker (option)
To enable natural gas monitoring press the [MENU] key from measuring page. The following page will be displayed:
MENU
MEASURE
RECALL MEMORY
FLOW/RETURN TEMP
AMBIENT ANALYSIS
–
ESCAPE
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to “MEASURE” option.
Press the [ENTER] key to select the option. Press [ESCAPE] (F2) to return to the previous menu.
MEASURE
P DECAY LEAK TEST
GAS LEAK TEST
AMBIENT CO
ENVIRON. TEMP/HUM
–
ESCAPE
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to “GAS LEAK TEST” option.
Press the [ENTER] key to select the option. Press [ESCAPE] (F2) to return to the previous menu.
Connect the probe to the unit and wait for the following page:
GAS LEAK TEST
CH4:
[1 box= 100ppm]
Agitate the probe in
Fresh air and press
[ZERO]
–
ESCAPE
ZERO
NOTE: WHEN PROBE IS CONNECTED THE INSTRUMENT BEGIN A 60 SECONDS HEATING TIME. IF PROBE IS CONNECTED IN “GAS LEAK
TEST” PAGE, A WAITING MESSAGE WILL BE DISPLAYED.
Refer to paragraph 10.2.3 to change the 60 sec. heating time.
Before insert the probe in working area, agitate it for same seconds in fresh and uncontaminated air. Press the [ZERO]
key to reset the measure and start CH4 monitoring.
From this moment the unit will compare the correct CH4 reading. Pressing the [X] key you can change the probe range
to 500ppm/box. Pressing the [W] key you can return to 100ppm/box range.
Eclipse suggest to use 100ppm/box for ambient gas checking and 500ppm/box for pipe gas leak testing.
After zeroing, the boxes will fill proportionally with the reading and an intermittent sound advise the operator for gas
concentration as shown in the following table:
1 box = 1 beep/sec
2 box = 2 beeps /sec
3 box = 3 beeps /sec
4 box = 5 beeps /sec
5 box = continuous beep
Press [ESCAPE] (F2) to return to the previous menu.
7.12
Temperature & Humidity probe (option)
To enable temperature and relative humidity monitoring press the [MENU] key from measuring page. The following page
will be displayed:
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MENU
MEASURE
RECALL MEMORY
FLOW/RETURN TEMP
AMBIENT ANALYSIS
–
ESCAPE
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to “MEASURE” option.
Press the [ENTER] key to select the option. Press [ESCAPE] (F2) to return to the previous menu.
MEASURE
P DECAY LEAK TEST
GAS LEAK TEST
AMBIENT CO
ENVIRON. TEMP/HUM
–
ESCAPE
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to “ENVIRON. TEMP/HUM” option.
Press the [ENTER] key to select the option. Press [ESCAPE] (F2) to return to the previous menu.
Connect the probe to the unit and wait for the following page:
ENVIRON. TEMP/HUM
Tamb : 25.7 °C
Rel. Hum.: 50.2 %
–
ESCAPE
NOTE: WHEN PROBE IS CONNECTED THE INSTRUMENT BEGIN A 40 SECONDS WAITING TIME. IF PROBE IS CONNECTED IN
“ENVIRON. TEMP/HUM” PAGE, A WAITING MESSAGE WILL BE DISPLAYED.
Press [ESCAPE] (F2) to return to the previous menu.
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8
MEMORY MANAGEMENT
The standard configuration include an internal memory to store up to 250 complete gas analysis divided by Tags (max.
40 tags). Each analysis includes 10 gas concentration values, data and time. Each Tag includes one or more analysis
data, 16 characters ID, 3 rows for the Customer data, Draught and smoke index values, Water temperatures, etc.
An optional PC compatible PCMCIA internal adapter can be installed for memory extension.
Press the [STORE] key to store, delete and assign the Tag for the current analysis. The following option will be
displayed:
STORE
TAG SELECTION
DELETE MEMORY
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to the desired option.
Press the [ENTER] key to select the option.
NOTE:
BEFORE STORE OR DELETE THE MEMORY YOU MUST SELECT THE TAG IF IT IS DIFFERENT FROM THE CURRENT.
8.1
Store data analysis
If you had pressed the [ENTER] key with the cursor on the “STORE” option, the analyzer will display the following
message:
WAIT … storing in process
The analysis data will be memory stored in the current Tag and you can display or print all data when you need it.
8.2
Delete memory
If you had pressed the [ENTER] key with the cursor on the “DELETE MEMORY” option, the analyzer will display the
following message:
!! ATTENTION !! The memory will be deleted when you press [DELETE]
If you press the [DELETE] key (F1), The analysis data will be deleted.
8.3
Recall memory
When you have stored the analysis data, you can recall the measured values by pressing the [MENU] key. The following
page will be displayed:
MENU
MEASURE
RECALL MEMORY
FLOW/RETURN TEMP
AMBIENT ANALYSIS
–
ESCAPE
ꢀ
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to “RECALL MEMORY” option.
Press the [ENTER] key to select the option.
Press [ESCAPE] (F1) to return to the previous menu.
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RECALL MEMORY
TAG SELECTION
MEMORY DATE
MODE
–
VIS.MEM
ESCAPE
NOTE:
BEFORE RECALL THE MEMORY YOU MUST SELECT THE TAG IF IT IS DIFFERENT FROM THE CURRENT,
SELECT THE READING MODE: SINGLE OR AVERAGE AND SELECT THE STORED DATA.
Press [VIS.MEM] (F1) to visualize the analysis data: the selected memory data or the average values of the selected
Tag. Press [PRINT] (F2) to print the report for the displayed data.
To change the recalling mode follow the procedure below:
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to “MODE” option.
Press the [ENTER] key to select the option.
Use the [S] and [T] keys to move the cursor symbol to “Single” or “Average” mode.
Press the [ENTER] key to select the option.
Press [ESCAPE] (F1) to return to the previous menu without save the selection.
To change the memory date follow the procedure below:
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to “MEMORY DATE” option.
Press the [ENTER] key to select the option.
Use the [W] and [X] keys to display the date/time for all current Tag memory.
Press the [ENTER] key to select the option.
Press [ESCAPE] (F1) to return to the previous menu without save the selection.
8.4
DBGas 2000
DBGas 2000 is a PC Windows 95/98/NT compatible program to manage all checks and measures activities on boilers
and to transfer data from and to Eclipse Gas analyzers. The software is designed for a complete and efficient managing
and recording of the analysis data of your clients. DBGas 2000 allows you to have a no limits database on your PC with
all customer and boiler information, to select up to 40 boiler to be check, to assign an operator name and transfer the
data to the analyzer. The operator will memory store up to 250 boiler checks and print the report; after the analysis he
can transfer the data to the PC. The software will assign the analysis to the correct boiler in the database. Operator can
view and print the data until he delete these.
The main menu is made by 4 buttons: Plants/Clients, Analysis, Fuels and Exit from program.
8.4.1
Plants/Clients menu
Selecting this option, you can manage the customers, boilers and plants information database and it is possible to
transfer this data from the PC to the analyzer. For each plant can be assigned the customer personal data (name,
address, phone and fax numbers, etc.) and one or more boiler information (name, type, fuel, etc.).
Database is organized as a two separate tables: Plants/Clients database and Boilers installed.
Selecting one plants on the upper table, the lower table will show you the boilers installed on that plant.
All data can be changed easily by made a click with the mouse pointer on the cell. You can input the new data on the
blank row (the last one) for adding a new boiler or new plant record. To delete a boiler or a plant you have to select it with
a click and press the “Delete” key on PC keyboard.
To have a more readable database, you can reduce, enlarge or hide the columns; approach the mouse pointer to the
right limit of the cell to be reduce (enlarged), pressing the right button move the mouse to the left (right). By pressing two
time quickly the left mouse button on the column, this will be automatically adapted to the pre-set dimensions. All
changes will be saved when you exit from the program.
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When database is complete, you can select up to 40 boilers on the table for data transfer by selecting the “Select for data
transfer” column. Pressing the “Select to Do Analysis”, you can select in automatic mode all analysis made by more than
“XX” months.
Pressing the “Show selected” button, the program will show all boiler selected for data transfer.
You can exclude manually one or more boiler from the list. Select or input the operator name, connect the IR to RS232
adopter to the PC, approach the IR terminal to the analyzer IR communication windows, and press the “Send” button to
send the data to the analyzer.
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8.4.2
Analysis menu
This option is the main part of the program. You can transfer the analysis data from the analyzer to the PC, save and
manage it using a database structure, display and export the data in Microsoft ExcelTM compatible format.
The analysis window is made by 3 tables: plant and customer information, boiler information for the selected plant and
analysis groups data for the selected boiler.
The analysis groups data will be ordered by data and will show the general data for the group of measurements (smoke
indexes, T flow and return, etc.).
Select by mouse the Plant, Boiler and Group to be displayed. The arrows on the left column on the tables will show you
the current record. Pressing the View measure” button you can read the single data measurements for the selected
group (contents of gas, temperatures, pressure/draught, efficiency, smoke index, etc).
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The operator can change the measuring units, the fuel type, etc. The program will made the conversion in real time and
will display the new values.
A set of 4 buttons allows you to set the printer, to print measures, export measures using an Excel compatible format,
show or hide the columns.
A fifth button is normally disabled and it allows to display graphics. To display graph, you have to select one or more
columns for graphics. Select the column by positioning the mouse pointer on the desired column header and click, using
the mouse left button; click using the mouse right button and select the “Select for graph” option. The column header will
be displayed in Italic. The “Show graph” button became active. You can display the graph by pressing the “Show graph”
button.
Activate the cursor and snap cursor to the desired parameter. Using the mouse you can move the cursor amongst the
measure.
8.4.3
Fuels menu
You can read from the analyzer all data parameters for the stored fuels. Press the “read from instrument” button to
transfer, using the IR interface, the fuel data from the analyzer.
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NOTE:
THE FUEL DATA TRANSFER FROM ANALYZER SHOULD BE MADE AFTER THE PROGRAM INSTALLATION OR IF THE FUEL DATA
CHANGES ON THE ANALYZER.
IMPORTANT
TO CHANGE OR ADD NEW FUELS DATA, YOU HAVE TO USE GASCONFIG SOFTWARE. THE INSTRUCTIONS ARE SHOWN ON 9.2
PARAGRAPH.
8.4.4
DBGas 2000 Installation
DBGas 2000 runs on IBM PC under WINDOWS 95/98/NT. Minimum requirements are a Pentium CPU with 16Mbyte
Ram and 20 Mbyte on hard disk, a color monitor and a Microsoft mouse or a compatible one.
In order to install DBGas 2000 for Windows, follow the below procedure:
•
•
•
•
Place the DBGas 2000 disk in a CD-ROM drive;
From the Windows Start Menu, select <RUN>;
Enter the filename D:SETUP.EXE (substitute the letter D for the disk drive that contains DBGas 2000 disk)
Follow the on screen instructions making sure to provide the correct path to your DBGas 2000 directory when
prompted.
Once installed, the DBGas 2000 icon will appear on your Windows screen and it will be possible to boot it by clicking on
the icon as usual.
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8.5
Configuration Software
GasConfig software is a PC windows compatible program for configuring the EGA4 flue gas analyzers. You can change
all memory settings: displayed measurements pages, printed measurements layout, Alarms, Fuels coefficients,
measuring technical units, etc.
8.5.1
How operate using GasConfig
When you run GasConfig a 2 independent windows system will be displayed on the PC monitor.
The window on the left is a parameter icon list. This list show all possible parameters for measured (O2, CO, Tgas,
Draught, etc.) and calculated measures (CO2, Efficiency, etc.). Same of these can be not available in your instrument (it
depends by instrument model, installed cells, and options).
The window on the right is the program user interface. It is organized in function pages; you can select the page for
interesting parameters using the mouse.
A main menu bar allows you to load and save the configuration data, to change communication setting, for data transfer
from and to the analyzer.
WARNING
BEFORE CONFIGURATION DATA TRANSFER FROM AND TO YOUR PC, BE SURE TO HAVE SELECTED THE EGA4 UNIT USING THE
“INSTRUMENT” OPTION ON MAIN MENU BAR.
The available function pages are:
General
This page allows you to set the general parameters as engineering units, O2% reference
values, etc.
Pages
You can set up to 6 different pages in your instrument to display up to 36 different
measured and calculated values.
Printer
You can program the complete layout for report printing: header, measured parameters,
etc.
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Alarms
You can enable, disable, and program up to 4 different acoustic and visible alarms for
critical measurements.
Aux Inputs
Analog Output
Timer
Fuels
Bar graphs
Service
Not available for software version 1.001
Not available for software version 1.001
You can change the autozero time and the leak decay time.
Up to 10 different fuels coefficient tables can be programmed.
You can set up to 6 different bargraph (parameter and range).
3 services information lines can be programmed for factory co-ordinates. (We suggest to
have Eclipse telephone and fax numbers).
8.5.2
GasConfig Installation
Software runs on IBM PC under WINDOWS 95/98/NT operative systems. Minimum requirements are a Pentium CPU
with 16Mbyte Ram and 8 Mbytes on hard disk, a color monitor and a Microsoft mouse or a compatible one.
In order to install the Software for Windows, follow the below procedure:
•
•
•
•
Place the Software disk in a CD-ROM drive;
From the Windows Start Menu, select <RUN>;
Enter the filename D:SETUP.EXE (substitute the letter D for the disk drive that contains Software disk)
Follow the on screen instructions making sure to provide the correct path to your Software directory when prompted.
Once installed, the EGA4 Configuration Software icon will appear on your Windows screen and it will be possible to
boot it by clicking on the icon as usual.
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9
CONFIGURATION
Many parameters can be modified using the instrument keyboard. Pressing the [SETUP] key, you can change the
current fuel, include or exclude the CO cell, change the technical unit, set the alarms, etc. The
CONFIGURATION
P1
--- FUEL ---
> LPG
CO SENS. Includ.
FUEL PARAMETER
–
NEXT
ESCAPE
ꢀ
press [NEXT] to change menu page
CONFIGURATION
P2
ENGENEERING UNITS
ALARMS
%O2 REFERENCEs
–
NEXT
ESCAPE
ꢀ
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to the desired option.
Press the [ENTER] key to select the option.
Press [ESCAPE] (F1) to return to the previous menu.
Fuel
You can select between the pre-set fuel table (LPG, Diesel oil, Oil, Natural gas) or, if
programmed using the configuration PC software, 6 customizable.
If the CO electro-valve option is installed, you can Include, exclude or automatically select
(using the PC configuration software, you can program the CO level for automatic exclusion)
the CO cell.
CO cell
Fuel Parameters
You can display only all the constant table for the selected fuel. To change the values, you
should use the configuration PC software.
Engineering Unit
Alarms
You can change the technical units for gas, temperature and pressure measurements.
You can set the alarms levels, Min/Max operation and enable/disable all the 4 possible
acoustic and visible alarms.
%O2 references
You can set the %O2 for CO measurements and %O2 for other gas.
9.1
Engineering Units
When you select the Engineering unit option, the following page will be displayed:
MEASURING UNITS
> CO
Other
Temp.
Press.
ppm
ppm
°C
mmH2O
–
ESCAPE
ꢀ
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to the desired option.
Press the [ENTER] key to change the value.
Press [ESCAPE] (F1) to return to the previous menu.
The measuring units selectable for gas are: ppm, mg/m3, mg/kWh, g/GJ.
The measuring units selectable for temperature are: °C, °F.
The measuring units selectable for pressure are: hPa, mbar, mmH2O, inH2O.
9.2
Alarms
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When you select the Alarms option, the following page will be displayed:
ALARMS
Alarm
1: O2
Enabled
Thresh.
Type
:
Yes
: 5.00
:
Min
–
NEXT
ESCAPE
ꢀ
ꢀ
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to the desired option.
Press the [ENTER] key to change the value.
Press [ESCAPE] (F1) to return to the previous menu.
Press [NEXT] (F1) to display the next alarm page. Up to 4 alarms can be set for different gas type and levels.
NOTE:
THE REFERENCE GAS FOR ALARMS ARE PROGRAMMED IN FACTORY. THE GAS TYPE CAN BE CHANGED ONLY USING THE
OPTIONAL PC CONFIGURATION SOFTWARE.
When the measured value became in alarm band, a continuous sound (beep) inform you the condition. Simultaneously,
the parameter will be displayed in the measuring page in reverse mode. You can acknowledge the alarms pressing the
[ENTER] key. In this case the beep will stop but the reverse mode remain.
9.3
HELP key
Help menu inform of the instrument status (electrochemical cells status and battery level), Service information and allows
you to change the header printer text.
When you select this option, the following page will be displayed:
HELP
HEADER PRINTER
SENSOR DIAGNOSTIC
Batt. 100%
–
SERVICE
ESCAPE
Press [ESCAPE] (F2) to return to the previous page.
9.3.1
Header setting
The “HEADER PRINTER” option, allows you to set 4 rows of 16 characters for report header printing.
Press the [ENTER] key when the cursor symbol is positioned near the menu option. The following page will be displayed:
HEADER PRINTER
R1
R2
R3
R4
–
ESCAPE
Select the R1, R2, R3, and R4 rows and press [ENTER] to insert or change the text.
Press [ESCAPE] (F2) to return to the previous page.
9.3.2
Sensor Diagnostic
The “SENSOR DIAGNOSTIC” option, allows you to read the actual status for the inserted cells.
Press the [ENTER] key when the cursor symbol is positioned near the menu option. The following page will be displayed:
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SENSOR DIAGNOSTIC
428.46 uA
O2
CO
NO
0.34 uA
1.09 uA
–
ESCAPE
Press [ESCAPE] (F2) to return to the previous page.
9.3.3
Service Data
The “SERVICE” option, allows you to read the information to contact us for service assistance and the information that
we wont to know for identify your instrument configurations: instrument configuration code and serial number, firmware
version, etc.
Press the [SERVICE] (F1) to display the following page:
Eurotron Srl
Tel. 022488201
Fax 022440286
Mod UniGas 3000
Cod F7823-1-x-0-
SN:
26024 V: 1.001
–
ESCAPE
Press [ESCAPE] (F2) to return to the previous page.
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10
MAINTENANCE
The EGA4 analyzer has been developed and manufactured using high quality components. A correct, systematic
maintenance will prevent damage and will increase substantially the life of the instrument, giving excellent results.
Anomalous conditions that require extraordinary maintenance interventions are promptly displayed, either clearly or with
an information code.
10.1
Error messages
The instrument performs the autodiagnostic procedure when switched on. When measuring it checks also for
anomalous conditions. If analyzer founds trouble, it display a message on LCD. Sometime these messages corresponds
to a unrecoverable problem and it is necessary to return the instrument to Eclipse for maintenance. Frequently these
message are referred to a recoverable trouble and can be solved by yourself.
The following table show the possible instrument error messages:
Error message
Problem
Solutions
Calc Err
Parameter calculus error.
The instrument cannot perform the
calculus. Check and solve the others error
conditions.
Probe Er
RJ Err
Over
The
external
Rtd
probe
is Connect
or
replace
the
external
unconnected or damaged.
temperature probe.
Internal
damaged.
temperature
reference Return the instrument to Eclipse for
maintenance
Overrange condition
Underrange condition
No calculus available
The problem is solved automatically when
measure return inside the range
Under
The problem is solved automatically when
measure return inside the range
--------
The instrument cannot perform the
calculus. Check and solve the others error
conditions. (e.g. O2>18%).
CO sensor excluded by electro-valve Automatic CO sensor protection is active.
Perform one or more autozero cycle in
fresh air.
Excluded
Tc Error
The thermocouple is unconnected or Connect or replace the temperature probe.
damaged.
Tsens Er
Cell compensation error
Return the instrument to Eclipse for
maintenance.
Perform one or more autozero cycle in
fresh air. If the problem remain, Return the
instrument to Eclipse for maintenance.
Zero Err
Sens. Er
The autozero procedure is failed
Broken cell
Return the instrument to Eclipse for
maintenance.
No meas.
No sens.
No probe
Empty Memory
The cell is non installed
No external probe connected on Connect or replace the temperature probe.
mini-din connector.
10.2
Set-up menu
Configuration menu is protected by a password. This procedure menu allows the operator to change some internal
parameters values: Date and time internal clock, communication baud rate, autozero time and leak test timing.
Follow the procedure below to activate the procedure:
ꢀ
Switch the instrument off
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ꢀ
ꢀ
Press and maintain the [SETUP] key down; press the [ON/OFF] key.
The analyzer will switch on. A password input page will displayed. Insert the password code “0011” and press the
[ENTER] key. The following page will displayed:
SET-UP
Pag.1
CLOCK
SERIAL PORT
ANALYSIS PAR.
P DECAY TIME
–
ESCAPE
NEXT
ꢀ
Press the [NEXT] (F1) key to change menu page.
SET-UP
Pag.2
PRINTER TEST
CLOCK TEST
–
ESCAPE
NEXT
ꢀ
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to the desired option.
Press the [ENTER] key to enter in the option set-up page.
Switch the instrument off to exit from the configuration procedure
10.2.1
Clock
Select this option for date and time set-up. Verify that the current values are corrects because the analyzer use these
data for analysis storing.
CLOCK
Hour
Minutes
: 10
: 22
–
DATE
ESCAPE
ꢀ
ꢀ
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to the desired option.
Press the [ENTER] key to enter in the option set-up page.
Press [ESCAPE] (F2) to return to the previous menu.
Press [DATE] (F1) to change date.
DATE
Day
: 10
Month
Year
Type
: 22
: 1999
: EURO
–
TIME
ESCAPE
ꢀ
ꢀ
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to the desired option.
Press the [ENTER] key to set a new date or date format (European or USA).
Press [ESCAPE] (F2) to return to the previous menu.
Press [TIME] (F1) to change time.
10.2.2
Serial Port
Selecting this option, you can set the baud rate and the ID number for instrument in infrared serial communication.
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Instruction Manual MM850481 ed.01
SERIAL
Address
Baud-rate
: 0
: 9600
–
ESCAPE
ꢀ
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to the desired option.
Press the [ENTER] key to set a new ID number or baud rate.
Press [ESCAPE] (F2) to return to the previous menu.
10.2.3
Analysis
Selecting this option you can change the analyzer auto-zeroing time and CH4 & Natural gas heating probe time (we
suggest to use the pre-set values of 180 sec for autozero time and 60 sec for CH4 heating time).
ANALYSIS
AutoZ. Time
: 180
CH4 Heat. Time: 60
–
ESCAPE
ꢀ
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to the desired option.
Press the [ENTER] key to set a new Auto-zero time.
Press [ESCAPE] (F2) to return to the previous menu.
10.2.4
Leak test time
Selecting this option, you can change the timing for leak test using the decay method. The test has a total period of 310
seconds and the programmable time represent the interval between the measurements.
P DECAY TIME
Time P1 : 10
Time P2 : 60
Time P3 : 120
Time P4 : 120
–
ESCAPE
ꢀ
ꢀ
ꢀ
Use the [S] and [T] keys to move the cursor symbol to the desired interval.
Press the [ENTER] key to set new acquisition intervals.
Press [ESCAPE] (F2) to return to the previous menu.
45
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Instruction Manual MM850481 ed.01
10.3
Firmware Upgrade
In order to upgrade the firmware of the instrument proceed as follows:
1 - Install the ST167Flash program from the CD.
2 - Connect the infrared interface adapter to the serial port of the PC with the supplied cable (note back the serial port
used: COM1 , COM2 or other).
3 - Position the interface near the right side of the instrument.
4 - Run the ST167Flash program you have installed.
5 - Select the same serial port that you noted back.
6 - Select the Baud rate to 115200 Baud (if the PC owns an UART 16550 type), otherwise select a lower Baud rate.
7 - Press the three dotted button in order to load the firmware file (.HFW extension) normally located on a 3 1/2" diskette.
A version number of the firmware being discarded is shown in the dedicated field.
8 - From instrument OFF press and continue to press the F1 key while pressing the ON/OFF key in order to set the
instrument in firmware upgrade status.
9 - Click on the 'Program' button to start the upgrading phase and wait until a termination message appears.
NOTE: IF DATA TRANSFER FAILS, PLEASE TURN OFF THE INSTRUMENT AND REPEAT THE PROCEDURE FROM STEP 8.
10.4
Smoke pump maintenance
Gas-tight checking
To have a correct measurement the pump should be gas-tight. Turn the screw and close the probe with your finger. Pull
the plunger for 3 cm and verify that the gasket does not leak the vacuum. If a leak is found the gasket needs to be
lubricated. When you push the plunger the valve must close immediately to have a 1.9/2.0 litres of air with 10 shoots.
The correct smoke index can be obtained only if the pump works correctly.
Service
1. Clean and lubricate the cylinder, the stem and the gasket every 30 measurements.
2. Wash using alcohol if the valve is not gas-tight
3. Clean the probe and the paper support
4. Check the pump for gas-tight
5. Use only clean paper filters and a readable scale index table
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Instruction Manual MM850481 ed.01
11
CERTIFICATES
11.1
Warranty terms
Each instrument is shipped with a Warranty Certificate that indicates the validity conditions of the warranty itself. Eclipse
warrants its products against defects in materials and workmanship.
If the unit should malfunction, it must be returned during the warranty period, transportation prepaid, to Eclipse for
evaluation. Upon examination, if the unit is found to be defective it will be repaired or replaced at no charge.
Eclipse‘s WARRANTY does not apply to defects resulting from any action of the purchaser, including but not limited to
mishandling, improper interfacing, operation outside of design limits, improper repair, or unauthorized modification. This
WARRANTY is VOID if the unit shows evidence of having been tampered with or shows evidence of being damaged as
a result of excessive corrosion; or current, heat, moisture or vibration; improper specification; misapplication; misuse or
other operating conditions outside of Eclipse‘s control.
This warranty applies to the original purchaser only. Please include a copy of the original invoice or a small service
charge may be applied.
Direct all warranty and repair requests/inquiries to the Eclipse Customer Service Department. BEFORE RETURNING
ANY PRODUCT(S) TO ECLIPSE, PURCHASER MUST OBTAIN AN AUTHORIZED RETURN (AR) NUMBER FROM
ECLIPSE‘S CUSTOMER SERVICE DEPARTMENT (IN ORDER TO AVOID PROCESSING DELAYS).
The purchaser is responsible for shipping charges, freight, insurance and proper packaging to prevent breakage in
transit.
11.2
Letter of conformity
Each instrument is shipped with a Letter of Conformity, to grant that the characteristics of the instrument correspond to
the required ones, and that the instrument calibration is traceable to the National and International Standards.
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Instruction Manual MM850481 ed.01
APPENDIX
A1
Example
The following steps show how you can make a quick measurement using the EGA4 portable analyzer.
1. Switch EGA4 on. It will begin the autozero and the autodiagnostic procedure. System error and trouble will be
displayed if encountered.
EcoLine 4000
Serial Num:
Version
!
! probe in chimney
Don t insert
!
!
1257
1.001
:
Op.: Antonio
Bat: 5.2V (23.5°C)
Autozero: 180 sec
–
MEASURE
MENU
2. Select the combustible used by burner. It is possible choosing between 4 preset and other 6 customizable types.
! Now insert
! probe in chimney
!
!
--- FUEL --
Natural Gas
TAG SELECTION
ANALYS.
–
3. Connect the sampling probe electrical and pneumatic terminals to the EGA4.
4. Insert the sampling probe in chimney. Be sure for mechanical positioning and flue gas intercepting.
5. Press ANALYSIS] (F1) key to start the measurements. Select the desired data page using [▲] and [▲] keys. Zoom
in or out to enlarge or reduce the visualized characters using the [X] and [W] keys.
O2
Ta
Tf 400.3C : NO2
95.7%
CO2 10.2p :
NOx 500p :
20.9% : CO
20.2C : Eff 0.99
100p
2000p
O2
CO2
CO
20.9%
0.0%
1ppm
η
:
–
–
Ref O2
Ref O2
6. Finishing measurement procedure, press the [PRINT] key to print one or more reports.
PRINT
MEASURE HOLD
PRESS [PRINT]
NO. COPY
MODEL
1
Standard
–
FEED
ESCAPE
7. Dismount the system and switch it off. All system can be put back in a rugged and practical case.
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Instruction Manual MM850481 ed.01
INDEX
Gas sensors; 12
GENERAL; 8
GENERAL DESCRIPTION; 5
A
Accuracies and ranges; 7
Alarms; 40
Ambient CO probe; 29
Ambient CO probe; 6; 9
Ambient T+RH probe; 6
Analysis; 45
H
Header setting; 41
HELP key; 41
How operate using ConfiGas; 38
Analysis data print; 25; 26
Analysis menu; 35
APPENDIX; 48
I
Input of the smoke index; 24
Auxiliary measure; 13
K
B
C
Keyboard; 18
Keypad; 8
Barcode pen reader; 9
Basic operation; 18
Built-in printer; 8
L
Burner pressure probe; 9
Leak test time; 45
Leakage checking mode; 9
Leakage limits table; 28
Letter of conformity; 47
line filter; 12
Calibration certificate; 9
CERTIFICATES; 47
change page; 19
Clock; 44
CO probe operations; 29
M
Combustion air temperature; 24
ConfiGas Installation; 39
CONFIGURATION; 40
Configuration Software; 38
CONNECTIONS; 16
Maintenance; 46
MAINTENANCE; 43
Measurement principle; 11
Measuring cells; 8
Measuring instruments; 14
Measuring Units; 40
Contrast; 19
MEMORY MANAGEMENT; 32
D
N
DBGas 2000; 33
DBGas 2000 Installation; 37
Delete memory; 32
Display; 8; 18
Natural gas probe; 9
Numeric input; 19
Display regulation; 19
O
E
OPERATIONS; 18
Other measurements; 14
Electro-pneumatic connections; 16
Error messages; 43
P
Esempio di misura; 48
Paper and Ribbon change; 26
PHYSICAL DESCRIPTION; 10
Plants/Clients menu; 33
F
Features and Benefits; 5
Firmware Upgrade; 46
Flow/Return temperature; 24
Fuel technical data; 8
Fuels menu; 36
Power supply; 15
Pressure and Draught; 13
Pressure decay procedure; 27
Pressure sensor; 8
Pressure/Draught measurement; 22
PRINCIPLE OF OPERATION; 11
G
R
Gas analysis; 21
Gas leak cheker; 30
Gas probe positioning; 16
Gas sampling probe; 8; 11
Recall memory; 32
RECOMMENDATIONS; 15
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Instruction Manual MM850481 ed.01
Remote temperature probe; 9
T
T+RH% probe; 9
S
Temperature & Humidity probe; 30
Temperature measurements; 13
Temperature probes; 8
Select by a list; 20
Sensor Diagnostic; 41
Serial Port; 44
Text input; 20
Service Data; 42
Set-up menu; 43
W
Smoke index measurement; 13
Smoke measurement; 9; 23
Specifications; 6
Warranty terms; 47
Water trap; 12
status bar; 19
Store data analysis; 32
Z
ZOOM function; 19
924-2 Instruction Manual 11/1/03
Litho in USA
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