analizor_gaz_mobil

Analizor gaze multiparametric portabil pentru masurare gaze de ardere cu senzori interschmbabili
Model GA40T-Plus

Analizor gaze de combustie mobil

cu 9 senzori cu sistem de conditionare

Gas analyzer with built-in sample conditioner


produsul poate fi achizitionat si prin SEAP


Pret: la cerere »


Made in EU

Analizor portabil de gaze cu 9 senzori de gaze si masurarea urmatoarele parametri:
• Gaze: O2, CO, CO2, NO, NO2, SO2, H2S, H2, Cl2, HCL
• Calcularea: CxHy, CO2
• Temperatura
• Umiditate
• Presiune
• Debit

Technical Data

Dimensions 470 x 310 x 160mm
Weight (without accessories) 12.0÷12.8kg
Casing material Aluminium padded with foam and fabric (polyester)
Protection grade IP20
Operating conditions T: 10°C ÷ 50°C, RH: 5% ÷ 90% (non-condensing)
Storing temperature 0°C ÷ +55°C
Power supply: Input | maximal power consumption 115VAC or 230VAC | 90W (without heated hose)
Battery: type | work time | charging time Lead-acid, rechargeable 12V / 2.2Ah | 7h | 14h
Data memory: size | number of results 32kB | 30 reports + 10 banks (1024 sets of data)
Display Graphical LCD 128 x 128, with variable contrast and backlighting
Printer High-speed dot matrix, graphic printer for 57mm normal paper
Analogue outputs (optional) Two current (0/4÷20mA) or voltage (0÷10V) outputs
Gas pump | gas flow Diaphragm, max 2l/min (with automatic flow control) | 90l/h (1.5l/min)
Purging pump for CO sensor Diaphragm, max 1.5l/min
Communication interface with PC computer RS-232C
Gas filtering
  1. Heated filter included in the heated hose
  2. Built-in final filter (behind the gas dryer) with replaceable insert

Built-in gas dryer, heated hose driver, heated hose

Drying method Water condensation by rapid cooling down
Cooler type Based on Peltier element
Cooler temperature +5°C electronically stabilised
Cooler temperature hysteresis ~ 1°C
Maximum gas flow for efficient drying 100l/h
Condensate pump Peristaltic, 38ml/min.
Heated hose temperature +120°C electronically stabilised
Heated hose temperature hysteresis ~ 5°C
Heated hose length 3m (optionally 5m or 10m)
Heated hose power consumption 360W (max)
Heated hose thermocouple wires K-type (S-type optionally)

Measurements of gas components
Table below shows the combination of all sensors/ranges. Please mind that the maximum possible gas sensors number in a device is 7 EC and 2 NDIR.

Component Method Range | Resolution Accuracy Time(T90) Conformity
O2 – Oxygen Electrochemical sensor 20.95% | 0.01% ±0.1% abs. or 5% rel. 45 sec ISO 12039, CTM-030
O2 – Oxygen Electrochemical, partial pressure 20.95% | 0.01% ±0.1% abs. or 5% rel. 45 sec ISO 12039, CTM-030
O2 – Oxygen Electrochemical, partial pressure 25.00% | 0.01% ±0.1% abs. or 5% rel. 45 sec ISO 12039, CTM-030
O2 – Oxygen Electrochemical, partial pressure 100.00% | 0.1% ±0.1% abs. or 5% rel. 45 sec ISO 12039, CTM-030
CO – Carbon monoxide Electrochemical sensor 4000ppm | 1ppm ±5ppm abs. or 5% rel. 45 sec ISO 12039, CTM-030
CO – Carbon monoxide Electrochemical sensor 20000ppm | 1ppm ±5ppm abs. or 5% rel. 45 sec ISO 12039, CTM-030
CO – Carbon monoxide Electrochemical sensor 10% | 0.001% ±50ppm abs. or 5% rel. 45 sec ISO 12039, CTM-030
CO – Carbon monoxide Electrochemical,
with H2 compensation
2000ppm | 1ppm ±5ppm abs. or 5% rel. 45 sec ISO 12039, CTM-030
CO – Carbon monoxide NDIR 10% | 0.01% ±0.05% abs. or 5% rel. 45 sec ISO 12039, Method 10
CO – Carbon monoxide NDIR 100% | 0.1% ±0.5% abs. or 5% rel. 45 sec ISO 12039, Method 10
CO2 – Carbon dioxide NDIR 25% | 0.01% ±0.05% abs. or 5% rel. 45 sec ISO 12039
CO2 – Carbon dioxide NDIR 50% | 0.01% ±0.05% abs. or 5% rel. 45 sec ISO 12039
CO2 – Carbon dioxide NDIR 100% | 0.1% ±0.5% abs. or 5% rel. 45 sec ISO 12039
CH4 – Methane NDIR 5% | 0.01% ± 0.3% abs. or 3% rel. 45 sec x
CH4 – Methane NDIR 25% | 0.01% ± 0.3% abs. or 3% rel. 45 sec x
CH4 – Methane NDIR 100% | 0.1% ± 0.3% abs. or 3% rel. 45 sec x
NO – Nitric oxide Electrochemical sensor 1000ppm | 1ppm ±5ppm abs. or 5% rel. 45 sec EN 50379, CTM-022
NO – Nitric oxide Electrochemical sensor 5000ppm | 1ppm ±5ppm abs. or 5% rel. 45 sec EN 50379, CTM-022
NO2 – Nitrogen dioxide Electrochemical sensor 1000ppm | 1ppm ±5ppm abs. or 5% rel. 60 sec EN 50379, CTM-022
SO2 – Sulphur dioxide Electrochemical sensor 2000ppm | 1ppm ±5ppm abs. or 5% rel. 45 sec EN 50379, CTM-022
SO2 – Sulphur dioxide Electrochemical sensor 5000ppm | 1ppm ±5ppm abs. or 5% rel. 45 sec EN 50379, CTM-022
H2S – Hydrogen sulphide Electrochemical sensor 1000ppm | 1ppm ±5ppm abs. or 5% rel. 70 sec x
H2 – Hydrogen Electrochemical sensor 2000ppm | 1ppm ±10ppm abs. or 5% rel. 50 sec x
H2 – Hydrogen Electrochemical sensor 20000ppm | 1ppm ±10ppm abs. or 5% rel. 70 sec x
H2 – Hydrogen Thermal Conductivity Detector 10% | 0,1% ±0,5% abs. or 5% rel. 45 sec x
H2 – Hydrogen Thermal Conductivity Detector 25% | 0,1% ±0,5% abs. or 5% rel. 45 sec x
H2 – Hydrogen Thermal Conductivity Detector 50% | 0,1% ±0,5% abs. or 5% rel. 45 sec x
H2 – Hydrogen Thermal Conductivity Detector 100% | 0,1% ±0,5% abs. or 5% rel. 45 sec x
CL2 - Chlorine Electrochemical sensor 250ppm | 1ppm ±5ppm abs. or 5% rel. 60 sec x
HCl - Hydrogen chloride Electrochemical sensor 100ppm | 1ppm ±5ppm abs. or 5% rel. 70 sec x
N2O - Nitrous oxide NDIR 2000ppm | 1ppm ±10ppm abs. or 5% rel. 45 sec ISO 21258
VOC – Volatile Organic compounds PID Photo Ionization Detector 100ppm | 1ppm ±5ppm abs. or 5% rel. 120 sec Method 21
VOC – Volatile Organic compounds PID Photo Ionization Detector 1000ppm | 1ppm ±5ppm abs. or 5% rel. 120 sec Method 21

Other measurements / calculated results

Variable Method Range | Resolution Accuracy Time (T90)
Tgas – gas temperature K-type thermocouple -10°C ÷ 1000°C | 0.1°C ± 2°C 10 sec
Tgas – gas temperature S-type thermocouple -10°C ÷ 1500°C | 0.1°C ± 2°C 10 sec
Tamb – boiler intake air temperature PT500 resistive sensor -10°C ÷ 100°C | 0.1°C ± 2°C 10 sec
T1 & T3 – external temperatures K-type thermocouple -10°C ÷ 1000°C | 0.1°C ± 2°C 10 sec
T1 & T3 – external temperatures S-type thermocouple -10 ÷ 1500°C | 0.1°C ± 2°C 10 sec
T2 & T4 – external temperatures PT500 resistive sensor -10 ÷ 100°C | 0.1°C ± 2°C 10 sec
Differential pressure Silicon piezoresistive pressure sensor -25hPa ÷ +25hPa | 1Pa (0.01hPa) ± 2Pa abs. or 5% rel. 10 sec
Gas flow velocity Indirect, with Pitot tube & pressure sensor 1 ÷ 50m/s | 0.1m/s 0.3m/s abs. or 5% rel. 10 sec
Lambda λ – excess air number Calculated 1 ÷ 10 | 0.01 ± 5% rel. 10 sec
qA – stack loss Calculated 0 ÷ 100% | 0.1% ± 5% rel. 10 sec
Eta η – combustion efficiency Calculated 0 ÷ 120% | 0.1% ± 5% rel. 10 sec
U1 & U2 – analogue inputs (voltage) Delta-sigma ADC -20V ÷ +20V | 0.01V ± 2% rel. 10 sec
I1 & I2 – analogue inputs (current) Delta-sigma ADC -20mA ÷ +20mA | 0.01mA ± 2% rel. 10 sec

 

Accesorii necesare
Heated hose with heated gas filter supplies gas sample to the the analyser’s conditioning module.
Hose has M30x1 threaded connection to fix gas probe pipe. The other end has magnetic quick coupler and electric connector to connect it with analyser.
Standard length of hose is 3m, it is possible to order other lengths of hoses.
Hose is provided with a carrying bag.
Gas probe pipe
Exchangeable gas probe pipe mounted on the probe holder with M30x1 fastening.
It has thermocouple type K (in some configurations type S) for measurement of gas temperature and a threaded fixing cone. With the probe holder is a complete gas probe.
There are many probe pipes available. They differ in length and working temperature.
For work efficiency it is advised to own different probe pipes to be able to adjust to the measurement place.

Accesorii optionale
Ambient temperature sensor This ambient temperature sensor on a 3m cable is used for measurement of the boiler’s inlet air.
In basic configuration the ambient temperature is measured by sensor installed in the connector of the gas probe handle.
Pitot tube is used for indirect measurement of gas flow velocity (measurement with the analayser’s differential pressure sensor).
A few lengths of tubes are available. Pitot tube has 2m gas tubings to connect it with the analyser.
Soot test adapter is installed in place of the standard lid.
Adapter allows to perform soot test according to Bacharach method.
USB converter 2.5m cable that allows to connect the analyser (its RS232C port) with USB port in PC computer (especially valuable when PC is not equipped with COM port).
Bluetooth Module connected to the analyser’s RS232C port, allows to communicate with PC computer over Bluetooth protocol.

Professional flue gas analyser that combines high quality of sample conditioning with great measurement accuracy contained in a compact soft casing.
Analyser is equipped with heated hose with heated filter, built-in high efficient condensation dryer.
It can be fitted with up to 9 sensors (electrochemical cells and NDIR sensors).
Has built-in pressure sensor, large internal memory for results and built-in ribbon printer for standard (non-thermal) paper.

 
detector_scurgeri_gaze_metan

Analizor portabil gaze de ardere cu 10 senzori interschimbabili
Model GA-60

Analizor de gaze mobil

cu 10 senzori pentru gaze arse si aplicatii multiple

Portable Combustion Gas Analyzers


produsul poate fi achizitionat si prin SEAP


Pret: la cerere »


Made in EU

Analizor de gaze mobil cu 10 senzori de gaze arse pentru aplicatii multiple, dispune de cele mai avansate solutii, indeosebi pentru analiza gazelor arse cu tehnologie si design de ultima ora, dotat cu noua generatie de senzori si de celulelor electrochimice cu o durata de viata mai lunga, dotat cu racitor Peltier, dispozitiv de prelevare si pregatire a gazelor si imprimanta incorporata, extrem de robust, rezistent la socuri mecanice si electromecanice, cu inchidere complet ermetica.
Se utilizeaza pentru reglajul si verificarea arderii, determinarea componentei gazelor arse la cuptoare si cazane de puteri medii si mari, conventionale sau in condensatie. Se recomanda in mod deosebit pentru arderea combustibililor solizi, monitorizari arderi de lunga durata.
Analizor de gaze GA60 poate fi achizitionat la preturi diferite in functie de nr. de senzori.
Construit conform norme europene in domeniu EN50379

The largest of madur’s analysers equipped with electrochemical cells.
It can fit even up to 7 EC cells and up to 3 NDIR sensors.
GA-60 has a large (320x240), graphical LCD with backlighting. Datalogger with SD card for storing results and built-in ribbon printer for standard (non-thermal) paper.
Analyser is offered in two versions:
In basic configuration analyser is not equipped with the gas dryer and works with the probe holder + gas probe pipe. It can be paired with PGD-100 gas dryer with heated hose.
Analyser equipped with a built-in NAFION type gas dryer and heated hose - configuration especially recommended for measurement of gases highly reactive with water or disturbed by its presence (SO2, HCl, NO2, Cl2).
Main features
Equipped with up to 7 electrochemical cells
Equipped with up to 3 NDIR sensors
Built-in 58mm ribbon, graphic printer
Measurements of gas and ambient temperatures, optionally 8 additional inputs for temperature sensors
Built-in rechargeable battery for up to 8 hours of operating (for basic configuration with probe holder + probe pipe)
Additional gas filter with condensate trap (installed in the lid)
Differential pressure sensor - for measurements of chimney draft and flow velocity (with help of Pitot tube)
Soot measurement program
Analogue outputs (4-20mA / 0-10V) - optional
SD card data-logger for saving results
Calculations of many additional parameters
Aplication for gas calibration
For analyser in A version:
Works with madur standard probe holder and probe pipe
Possibility to work with full-size gas dryers (like PGD-100)
For analyser in B version:
Built-in NAFION dryer with peristaltic pump for condensation removal
Driver for heated hose
Works with heated hose with built-in heated gas filter and with standard M30x1 fitting, that fits all madur gas probes with K-type thermocouples

General parameters
Version A (without built-in dryer)

Dimensions (W x H x D) 500 x 395 x 173mm
Weight (without accessories) 12.2 ÷ 13.2 kg
Casing's material Plywood covered with aluminium
Protection grade IP20
Operating conditions T: 10°C ÷ 50°C, RH: 5% ÷ 90% (non-condensing)
Storing temperature -20°C ÷ +55°C
Power supply: Input | maximal power consumption 115VAC or 230VAC | 90W (without heated hose)
Battery: type | work time | charging time Lead-acid, rechargeable 3x6V / 4.5Ah | 16h | 12h
Data memory: type | size | number of results SD flash card | max 4GB | practically unlimited
Display Graphical LCD 320 x 240, with variable contrast and back-light
Printer High-speed dot matrix, graphic printer for 2.25” (57.5 ± 0.5mm) normal paper
Gas pump | gas flow Diaphragm, max 2l/min (with automatic flow control) | 90l/h (1.5l/min)
Purging pump for CO sensor Diaphragm, max 1.5l/min
Communication interface with PC computer RS-232C
Gas filtering Built-in final filter with replaceable insert

Version B (with built-in Nafion® dryer)

Weight (without accessories) 13.7 ÷ 14.7 kg
Gas filtering 1. Heated filter included in the heated hose
2. Built-in final filter (behind the gas dryer) with replaceable insert

2. Built-in gas dryer, heated hose driver, heated hose
Concerns only the B version (with built-in Nafion® dryer)

Dryer type Based on Nafion® exchanger
Drying method Water transfer through Nafion® membrane driven by partial vapour pressure differential – first order kinetic reaction
Maximum gas flow for efficient drying 100 l/h
Heated hose temperature +120°C electronically stabilised
Heated hose temperature hysteresis ~ 5°C
Heated hose length 3m (optionally 5m or 10m)
Heated hose power consumption 360W (max)
Heated hose thermocouple wires K-type (S-type optionally)

3. Measurements of gas components
Table below shows the combination of all sensors/ranges. Please mind that the maximum possible gas sensors number in a device is 7 EC and 3 NDIR

Component Method Range | Resolution Accuracy Time(T90) Conformity
O2 – Oxygen Electrochemical sensor 20.95% | 0.01% ±0.1% abs. or 5% rel. 45 sec ISO 12039, CTM-030
O2 – Oxygen Electrochemical, partial pressure 20.95% | 0.01% ±0.1% abs. or 5% rel. 45 sec ISO 12039, CTM-030
O2 – Oxygen Electrochemical, partial pressure 25.00% | 0.01% ±0.1% abs. or 5% rel. 45 sec ISO 12039, CTM-030
O2 – Oxygen Electrochemical, partial pressure 100.00% | 0.1% ±0.1% abs. or 5% rel. 45 sec ISO 12039, CTM-030
CO – Carbon monoxide Electrochemical sensor 4 000ppm | 1ppm ±5ppm abs. or 5% rel. 45 sec ISO 12039, CTM-030
CO – Carbon monoxide Electrochemical sensor 20 000ppm | 1ppm ±5ppm abs. or 5% rel. 45 sec ISO 12039, CTM-030
CO – Carbon monoxide Electrochemical sensor 10% | 0.001% ±50ppm abs. or 5% rel. 45 sec ISO 12039, CTM-030
CO – Carbon monoxide Electrochemical,
with H2 compensation
4 000ppm | 1ppm ±5ppm abs. or 5% rel. 45 sec ISO 12039, CTM-030
CO – Carbon monoxide NDIR 10% | 0.01% ±0.05% abs. or 5% rel. 45 sec ISO 12039, Method 10
CO – Carbon monoxide NDIR 100% | 0.1% ±0.5% abs. or 5% rel. 45 sec ISO 12039, Method 10
CO2 – Carbon dioxide NDIR 5% | 0.01% ±0.05% abs. or 5% rel. 45 sec ISO 12039
CO2 – Carbon dioxide NDIR 25% | 0.01% ±0.05% abs. or 5% rel. 45 sec ISO 12039
CO2 – Carbon dioxide NDIR 100% | 0.1% ±0.5% abs. or 5% rel. 45 sec ISO 12039
CH4 – Methane NDIR 5% | 0.01% ± 0.3% abs. or 3% rel. 45 sec x
CH4 – Methane NDIR 25% | 0.01% ± 0.3% abs. or 3% rel. 45 sec x
CH4 – Methane NDIR 100% | 0.1% ± 0.3% abs. or 3% rel. 45 sec x
NO – Nitric oxide Electrochemical sensor 1 000ppm | 1ppm ±5ppm abs. or 5% rel. 45 sec EN 50379, CTM-022
NO – Nitric oxide Electrochemical sensor 5 000ppm | 1ppm ±5ppm abs. or 5% rel. 45 sec EN 50379, CTM-022
NO2 – Nitrogen dioxide Electrochemical sensor 1 000ppm | 1ppm ±5ppm abs. or 5% rel. 60 sec EN 50379, CTM-022
SO2 – Sulphur dioxide Electrochemical sensor 2 000ppm | 1ppm ±5ppm abs. or 5% rel. 45 sec EN 50379, CTM-022
SO2 – Sulphur dioxide Electrochemical sensor 5 000ppm | 1ppm ±5ppm abs. or 5% rel. 45 sec EN 50379, CTM-022
H2S – Hydrogen sulphide Electrochemical sensor 1000ppm | 1ppm ±5ppm abs. or 5% rel. 70 sec x
H2 – Hydrogen Electrochemical sensor 2 000ppm | 1ppm ±10ppm abs. or 5% rel. 50 sec x
H2 – Hydrogen Electrochemical sensor 20 000ppm | 1ppm ±10ppm abs. or 5% rel. 70 sec x
H2 – Hydrogen Thermal Conductivity Detector 10% | 0,1% ±0,5% abs. or 5% rel. 45 sec x
H2 – Hydrogen Thermal Conductivity Detector 25% | 0,1% ±0,5% abs. or 5% rel. 45 sec x
H2 – Hydrogen Thermal Conductivity Detector 50% | 0,1% ±0,5% abs. or 5% rel. 45 sec x
H2 – Hydrogen Thermal Conductivity Detector 100% | 0,1% ±0,5% abs. or 5% rel. 45 sec x
CL2 - Chlorine Electrochemical sensor 250ppm | 1ppm ±5ppm abs. or 5% rel. 60 sec x
HCl - Hydrogen chloride Electrochemical sensor 100ppm | 1ppm ±5ppm abs. or 5% rel. 70 sec x
N2O - Nitrous oxide NDIR 2 000ppm | 1ppm ±10ppm abs. or 5% rel. 45 sec ISO 21258
CHF3 – Fluoroform (Refrigerant R23) NDIR 2.5% | 0.01% ± 0.05% abs. or 5% rel. 45 s x
SO2 – Sulphur dioxide NDIR 1% | 0.01% ±5ppm abs. or 5% rel. 45 sec x
NO2 – Nitrogen dioxide NDIR 1 % | 0.01% ± 0.05% abs. or 5% rel. 45 sec x
VOC – Volatile Organic compounds PID Photo Ionization Detector 100ppm | 1ppm ±5ppm abs. or 5% rel. 120 sec Method 21
VOC – Volatile Organic compounds PID Photo Ionization Detector 1000ppm | 1ppm ±5ppm abs. or 5% rel. 120 sec Method 21

4. Other measurements / calculated results

Variable Method Range | resolution Accuracy Time (T90)
Tgas – gas temperature K-type thermocouple -10 ÷ 1000°C | 0.1°C ± 2°C 10 sec
Tgas – gas temperature S-type thermocouple -10 ÷ 1500°C | 0.1°C ± 2°C 10 sec
Tamb – boiler intake air temperature PT500 resistive sensor -10 ÷ 100°C | 0.1°C ± 2°C 10 sec
Differential pressure Silicon piezoresistive pressure sensor -25hPa ÷ +25hPa | 1Pa (0.01hPa) ± 2Pa abs. or 5% rel. 10 sec
Gas flow velocity Indirect, with Pitot tube & pressure sensor 1 ÷ 50m/s | 0.1m/s 0.3m/s abs. or 5% rel. 10 sec
Lambda λ – excess air number Calculated 1 ÷ 10 | 0.01 ± 5% rel. 10 sec
qA – stack loss Calculated 0 ÷ 100% | 0.1% ± 5% rel. 10 sec
Eta η – combustion efficiency Calculated 0 ÷ 120% | 0.1% ± 5% rel. 10 sec

 

 

 

Analizor multigaz mobil profesional
Model PHOTON

Analizor multi-gaze ultra-performant

pentru 9 gaze de ardere si combustie

Professional Portable Analyser for 9 Flue Gases


produsul poate fi achizitionat si prin SEAP


Pret: la cerere »


Made in EU

Analizor mobil de gaze de uz industrial cu 9 senzori de gaze
Versatilitatea analizorului de gaze de ardere PHOTON este data de numarul mare de senzori si accesorii cu care acesta poate fi dotat; reprezinta solutia cea mai optima si profesionala pentru masuratori complexe atat ale componentelor din gazele arse cat si a presiunilor, temperaturilor, vitezelor si debitelor, precum si a altor marimi relevante.
Este dotat cu 6 senzori infrarosu si suplimentat cu alte 3 senzori electrochimice are Afisaj grafic color VGA pentru prezentare datelor.
Dotat cu hard-disk tip Compact-flash pentru stocare datelor si baze de date.
Sistemul de operare si computerul intern de clasa industriala PC-104 opereaza cu platforma de operare Windows CE.
Analizorul Photon este echipat cu dispozitive puternice pentru conditionarea gazului ce creaza conditii optime pentru analiza gazului sub orice conditii
Construit conform norme europene in domeniu EN50379

Photon is a state-of-the-art gas analyser. It is a class of its own, equipped with up to 6 NDIR sensors, supplemented with up to 3 electrochemical cells. Large, colourful VGA display for data presentation. Compact-flash disk for results (stored in a database form). All administered by PC-104 industrial class computer with Windows CE operating system.
Photon paired with the most efficient gas conditioner creates fully professional gas analysing system that meets the most rigorous requirements and criteria. Recommend for all those who appreciate the most: quality and performance.
Main features
Double thermal stabilisation: stabilisation of entire casing and of each NDIR sensor separately - such approach provides the best thermal stabilisation (accuracy to 0.01°C), short warm up time (30 ÷ 60min) and the best accuracy of the NDIR sensors
Up to 6 NDIR sensors, up to 3 electrochemical cells
Paired up with professional gas conditioner - PGD-100
Large - 6.4”, high-resolution - VGA (640x480) colourful display with touch-pad
PC-104 industrial class computer with Windows CE operating system
Advanced algorithms to control analyser's work, like warming up, compensation of cross-sensitivity values, response time - all which influence the quality and performance.
Measurement of many additional parameters: temperatures (ambient, gas), pressures (atmospheric, differential), flow velocity (with help of Pitot tube), flow control through device and more Calculation of all combustion parameters like: stack loss, combustion efficiency,excess air coefficient, dew point temperature, and more
Communication with PC computer via RS232C and Ethernet interfaces
2x USB port for connecting commercial peripherals (mice, keyboards) and Photon add-ons (analogue outputs / inputs)
Optional add-ons: analogue outputs (8-channels), analogue inputs (8-channels) modules
Optional portable printer
Results stored in database - possibility to view entire measurement session in graphical form, create measurement reports, export data to csv files, and more
Database for customers and objects informations

1. General parameters

Dimensions (W x H x D) 500mm x 395mm x 173mm
Weight 14kg ÷ 18kg
Casing's material Plywood covered with aluminium
Protection grade IP20
Operating conditions T: 10°C ÷ 50°C, RH: 5% ÷ 90% (non-condensing)
Storing temperature -20°C ÷ +55°C
Power supply: input | maximal power consumption 115 or 230VAC | 150W
Operating system Windows CE 5.0
Display 6.4” VGA (640x480)
Data storage: type | capacity Compact Flash card | max. 4GB
Interface for external devices (USB disk, mouse, keyboard) 2x USB
Communication interface with PC computer RS-232C, RJ45 (Ethernet)
Warming up time 90min max
Warming up temperature About 18°C above ambient temperature
Maximum outside temperature drift that does not affect warming up temperature ±5°C

2. Measurements of gas components
Table below shows the combination of all sensors/ranges. Please mind that the maximum possible gas sensors number in a device is 6 NDIR and 3 EC – see ordering guide.

Component Method Range | resolution Accuracy Time (T90) Conformity
O2 – Oxygen Electrochemical sensor 20.95% | 0.01% ± 0.1% abs. or 5% rel. 45 sec ISO 12039, CTM-030
O2 – Oxygen Electrochemical, partial pressure 20.95% | 0.01% ± 0.1% abs. or 5% rel. 45 sec ISO 12039, CTM-030
O2 – Oxygen Electrochemical,partial pressure 25% | 0.01% ± 0.1% abs. or 5% rel. 45 sec ISO 12039, CTM-030
O2 – Oxygen Electrochemical,partial pressure 100% | 0.1% ± 0.1% abs. or 5% rel. 45 sec ISO 12039,CTM-030
O2 – Oxygen Paramagnetic sensor 25% | 0.01% ± 0.1% abs. or 5% rel. 45 sec EN 14789, OTM-13
O2 – Oxygen Paramagnetic sensor 100% | 0.1% ± 0.1% abs. or 5% rel. 45 sec EN 14789, OTM-13
CO – Carbon monoxide NDIR 20000ppm | 1ppm ± 3ppm abs. or 3% rel. 45 sec EN 15058, Method 10
CO – Carbon monoxide NDIR 10% | 0.01% ± 0.3% abs. or 3% rel. 45 sec EN 15058, Method 10
CO – Carbon monoxide NDIR 100% | 0.1% ± 0.3% abs. or 3% rel. 45 sec EN 15058, Method 10
CO2 – Carbon dioxide NDIR 5% | 0.01% ± 0.3% abs. or 3% rel. 45 sec ISO 12039, OTM-13
CO2 – Carbon dioxide NDIR 25% | 0.01% ± 0.3% abs. or 3% rel. 45 sec ISO 12039, OTM-13
CO2 – Carbon dioxide NDIR 100% | 0.1% ± 0.3% abs. or 3% rel. 45 sec ISO 12039, OTM-13
CH4 – Methane NDIR 5% | 0.01% ± 0.3% abs. or 3% rel. 45 sec x
CH4 – Methane NDIR 25% | 0.01% ± 0.3% abs. or 3% rel. 45 sec x
CH4 – Methane NDIR 100% | 0.1% ± 0.3% abs. or 3% rel. 45 sec x
NO – Nitric oxide NDIR 1000ppm | 1ppm ± 3ppm abs. or 3% rel. 45 sec ISO 10849, Method 7E
NO – Nitric oxide NDIR 5000ppm | 1ppm ± 3ppm abs. or 3% rel. 45 sec ISO 10849, Method 7E
NO2 – Nitrogen dioxide NDIR 1000ppm | 1ppm ± 3ppm abs. or 3% rel. 45 sec ISO 10849, Method 7E
NO2 – Nitrogen dioxide Electrochemical sensor 1000ppm | 1ppm ± 5ppm abs. or 5% rel. 60 sec CTM-022
SO2 – Sulphur dioxide NDIR 1000ppm | 1ppm ± 3ppm abs. or 3% rel. 45 sec ISO 7935, Method 6C
SO2 – Sulphur dioxide NDIR 5000ppm | 1ppm ± 3ppm abs. or 3% rel. 45 sec ISO 7935, Method 6C
H2S – Hydrogen sulfide Electrochemical sensor 1000ppm | 1ppm ± 5ppm abs. or 5% rel. 70 sec x
H2 – Hydrogen Electrochemical sensor 2000ppm | 1ppm ± 10ppm abs. or 5% rel. 50 sec x
H2 – Hydrogen Electrochemical sensor 20000ppm | 1ppm ± 10ppm abs. or 5% rel. 70 sec x
H2 – Hydrogen Thermal Conductivity Detector 10% | 0.1% ± 0.5% abs. or 5% rel. 45 sec x
H2 – Hydrogen Thermal Conductivity Detector 25% | 0.1% ± 0.5% abs. or 5% rel. 45 sec x
H2 – Hydrogen Thermal Conductivity Detector 50% | 0.1% ± 0.5% abs. or 5% rel. 45 sec x
H2 – Hydrogen Thermal Conductivity Detector 100% | 0.1% ± 0.5% abs. or 5% rel. 45 sec x
N2O – Nitrous oxide NDIR 2000ppm | 1ppm ± 3ppm abs. or 3% rel. 45 sec ISO 21258
CHF3 – Fluoroform (Refrigerant R23) NDIR 2.5% | 0.01% ± 0.3% abs. or 3% rel. 45 sec x
VOC - Volatile Organic compounds PID - Photo Ionization Detector 100ppm | 1ppm ± 5ppm abs. or 5% rel. 120 sec Method 21
VOC - Volatile Organic compounds PID - Photo Ionization Detector 1000ppm | 1ppm ± 5ppm abs. or 5% rel. 120 sec Method 21

3. Other measurements / calculated results

Variable Method Range | resolution Accuracy Time (T90)
Tgas – gas temperature K-type thermocouple -10 ÷ 1000°C | 0.1°C ± 2°C 10 s
Tgas – gas temperature S-type thermocouple -10 ÷ 1500°C | 0.1°C ± 2°C 10 s
Tamb – boiler intake air temperature PT500 resistive sensor -10 ÷ 100°C | 0.1°C ± 2°C 10 s
Differential pressure Silicon piezoresistive pressure sensor -25hPa ÷ +25hPa | 1Pa (0.01hPa) ± 2Pa abs. or 5% rel. 10 s
Gas flow velocity Indirect, with Pitot tube & pressure sensor 1 ÷ 50m/s | 0.1m/s 0.3m/s abs. or 5% rel. 10 s
Lambda λ – excess air number Calculated 1 ÷ 10 | 0.01 ± 5% rel. 10 s
qA – stack loss Calculated 0 ÷ 100% | 0.1% ± 5% rel. 10 s
Eta η – combustion efficiency Calculated 0 ÷ 120% | 0.1% ± 5% rel. 10 s
IL – incomplete combustion Calculated 0 ÷ 100% | 0.01% ± 5% rel. 10 s

 

Livrare standard
Analyser’s standard equipment supplied along with the device
3m mains cable (with selectable plug type)
Single gas filter with condensate trap and filter insert (pore size 5µm)
Ambient temperature sensor with 300mm cable
2.5m RS-232C communication cable with DB9 female connector
Software CD with programs and manuals
Quick coupling for the probe holder (3pc)
Photon ↔ PGD-100 electric communication cable
Photon ↔ PGD-100 gas hose connection
Optional equipment & spare parts
Accesorii necesare
PGD 100 Gas conditioner
Photon analyser “cares” only for analysing the gas sample. Nevertheless, such sample must firstly be properly prepared. For this purpose, the Photon is always paired with powerful gas conditioner PGD-100.
Photon communicates with, and controls PGD-100 dryer via 2.5m electric cable. Gas sample is delivered via 2.5m Tygon tube.
Heated hose
Heated hose with heated gas filter supplies gas sample to the the analyser’s conditioning module.
Hose has M30x1 threaded connection to fix gas probe pipe. The other end has magnetic quick-coupler and electric connector to connect it with analyser.
Standard length of hose is 3m, it is possible to order other lengths of hoses.
Hose is provided with a carrying bag.
Gas probe pipe
Exchangeable gas probe pipe mounted on the probe holder with M30x1 fastening.
It has thermocouple type K (in some configurations type S) for measurement of gas temperature and a threaded fixing cone. With the probe holder is a complete gas probe.
There are many probe pipes available. They differ in length and working temperature.
For work efficiency it is advised to own different probe pipes to be able to adjust to the measurement place.
Accesorii optionale
Boiler’s inlet air temperature sensor
This PT500 temperature sensor on a 3m cable is used for measurement of the boiler’s inlet air. It is optional equipment. The sensor has to be connected to the Temp. Amb. socket. If this sensor is not connected Photon assumes the boiler’s inlet air temperature to be equal to the temperature measured with the NTC2k7 sensor installed in the device’s lid.
Temperature sensor for thermal stabilisation
This NTC2k7 temperature sensor with a 300mm cable is used for measurement of the surrounding air temperature. It helps to set the optimal target temperature for Photons thermal stabilisation. The sensor is connected to the Temp. Aux socket (in some units the socket is without label). The head of NTC2k7 sensor is installed in analyser's lid. For calculations, where ambient temperature is required, Photon uses readings from PT500 3m sensor (boiler's inlet air temperature sensor). In case of absence of this PT500 sensor, readings from NTC2k7 are being used.
Pitot tube
Pitot tube is used for indirect measurement of gas flow velocity (measurement with the analayser’s differential pressure sensor).
A few lengths of tubes are available. Pitot tube has 2m gas tubings to connect it with the analyser.
Ordering code:
Z00-PITOT-5002 – 500mm tube with connecting hoses
Z00-PITOT-8002 – 800mm tube with connecting hoses
Analogue outputs module
Optional module with 8 current and 8 voltage galvanically separated outputs.
Installed into the device’s lid.
Connected to the USB socked of Photon
Analogue inputs module
Optional module with 8 current and 8 voltage inputs.
Installed into the device’s lid.
Connected to the USB socked of Photon
Martel portable printer with USB cable
Small, portable, battery operated printer for work with Photon analyser. Must be connected to Photon USB socket
Ordering code:
MPH-PRINT1 – Martel MCP-8810, thermal printer with USB interface
ZPH2-PRINTER-USB-KAB – USB cable for connecting the printer to analyser
Photon ↔ PGD-100 electric communication cable
2.5m communication cable for connecting the PGD-100 gas dryer to the Photon analyser.
Photon ↔ PGD-100 gas tube
2.5m long gas hose for connecting the PGD-100 gas dryer to the Photon analyser. Quick couplers on both ends.