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AquaGas Smart CEMS solution

 

AquaGas is excited to increase its range of smart sensors with the release of a new branded CEMS (Continuous Emissions Monitoring System) recently acquired through an OEM with MADUR (Poland) and available across Oceania: the MAMOS.

The MAMOS Smart CEMS is an online monitoring system designed by MADUR and integrated by AquaGas for the ANZ market which responds to industrials and environmental authorities today’s demand for a large range of industrial applications including small to large combustion plants (power station, paper mill, cement plant…), WTE (waste to Energy) installations as well as biogas, syngas and biomass generators .

Thanks to its modular and adaptive design the Mamos allows combining multiple sensors (PID, low and high range NDIR, Electrochemical, Thermal Conductivity) with applications specific sampling systems (Direct extractive heated and standard sampling train, Peltier cooler, Nafion membrane…). All system components are field replaceable and comes with a 24 months warranty.

Available as standalone unit, single analyser or redundant systems (fully backed up with manual and automatic redundancy) the Mamos smart CEMS is offered as a complete stationary CEMS for permanent installation or long term rental. AquaGas global service includes the various level of associated services (initial and final installation, commissioning, long term or punctual service agreement as well as the supply of consumables and critical spares for periods up to 5 years.

Moreover the MAMOS Smart CEMS ensures minimal investment and extremely low ownership costs for trouble free environmental monitoring and process control operations while complying with Australians states regulations.

Here are some of the MAMOS Smart CEMS main features:

  • Suited to complex gas matrix with accurate measurements of a large selection of gases: H2S, CO, CO2, HCl, SOx, NOx, H2, VOCs, CxHy, O2, NMHC and more.
  • Designed for harsh operating conditions with high dust load and elevated moisture content
  • Peltier, Nafion and standard sample conditioning sampling system
  • Builtin data logger
  • Reporting of normalised concentrations (mg/Nm3 or ppm) through analogue outputs, ModBus
  • Standalone and redundant systems with DAHS
  • Madcom acquisition and configuration software
  • In depth filtration with three stage particulates filtration (insitu with sequential backflush, heated filter, condensate trap and fine safety filter)
  • Full remote access
  • Multistream monitoring

 

A 550 Industrial Handheld Analyser

O2, CO, NO, NO2, NOx and SO2

Compact, robust and extremely accurate the A 550 INDUSTRIAL® is all that is required to perform a complete analysis and inspection of small, medium and large installation of combustion (kiln, burner, furnace…) and associated Gas Treatment Center. The A 550 INDUSTRIAL® is a handheld analyser designed to be used in tough industrial heat processes. With its stainless steel sintered insitu filter and built in Peltier cooler, the A550i fits the requirements of the most demanding applications especially when it comes to high moisture content and heavy dust loads.

Exclusive Features

CONSULT US FOR DEMO, RENTAL OR NEW UNITS

Wohler Measuring Instruments

Wohler analysers and testing instruments are a byword for quality and just what you need to analyse and test heating systems, flue gas systems, ventilation systems and buildings.

MADE TO MEASURE

Environmental Monitoring and Process Control

AquaGas is supporting the global industrial community with high performance environmental and process monitoring systems (Continuous Emissions Monitoring Systems, Air Quality Monitoring Systems, Online process analysers, Water Quality Monitoring Systems) specifically designed and built to meet your application requirements.

 

Syngas monitoring

Purpose of gas monitoring in DRI plant

The use of process gas online monitoring systems at locations such blast furnace gas outlet, converter off gas exhaust and coking gas outlet is very reasonable in order to analyse the fuel gases composition by measuring the concentration of  CO, CO2, O2, N2, CH4, and H2. There from the calorific value BTU and the Wobbe Index WI can be accurately calculated. Modern steel plants uses dedicated stationary online monitoring system to monitor the primary constituents of  Direct Reduction Iron process gases essential to have a full understanding of the process status and efficiency.

  • In particular, the energy content of the gases, as described by their calorific value, provides the user with important information about efficient firing of different plants in the steel mill (coking plant, sinter plant, rolling mill, etc.) or a nearby power plant.
  • High-calorific coke or natural gas is mixed with low-calorific converter or blast furnace gas in mixing stations. This is to adjust the calorific value of the mixture to the requirements of the subsequent consumer and to avoid discharging of valuable gases into the off gas.
  • The knowledge of the calorific value together with information about pressure and flow rate of the fuel gas enables the user to adjust a constant energy content of the mixed gas using an intelligent control system.
  • Furthermore, analysis data of the gas analysers are also used to determine the equivalent amount of oxygen that is required to run the combustion process. This results in a stoichiometric and uniform combustion and prevents soot production.

Monitoring locations

The number of monitoring points can vary depending of the degree of automation and optimisation desired by the plant operators as well as the type, quality and stability of the combustible used.

Monitoring locations in Syngas Plant often include

Sampling Point Location Measuring purposes Measured components Recommended technology
At the stack of the sinter plant Monitoring compliance of pollutant emission with existing regulations CO, SO2, NOx, O2 Laser (OFCEAS), NDIR and/or Electrochemical sensor based Continuous Emissions Monitoring Systems.*
At the raw material storage hall Monitoring ambient air for toxic gases CO NDIR Gas detector
At the raw material silo Early detection of dangers arising from

• Acetylene from calcium carbide

• Fire hazard originating from magnesium

C2H2 O2 Laser (OFCEAS), NDIR Gas analyser.*
After blast furnace uptake duct Optimizing the blast furnace process from blast furnace gas composition CO, CO2, CH4 H2 Laser (OFCEAS), NDIR and/or Electrochemical sensor based online gas monitoring system.*
After dust bags Early detection of explosion risk for the dust bags from CO contents of the blast furnace gas CO CO2, CH4 H2 Laser (OFCEAS), NDIR and/or Electrochemical sensor based online gas monitoring system.*
At the blast furnace gas outlet Determination of the calorific value of the blast furnace gas for billing purposes CO, CO2, CH4 Calorific value H2, N2, O2, CO Laser (OFCEAS), NDIR and/or Electrochemical sensor based online gas monitoring system with Built-in calorific value calculation.Sampling method and measuring principle to be selected based on the exact application requirements.*
At the outlet of coal silo to coal mill Early detection of smouldering fires CO CH4 Laser (OFCEAS), NDIR and/or Electrochemical sensor based online gas monitoring system.*
At the stack of the coking plant Monitoring compliance of pollutant emission with existing regulations CO,  NO, SO2, O2 Dust Laser (OFCEAS), NDIR and Electrochemical sensor based Continuous Emissions Monitoring Systems.*

Insitu dust analyser.

At the coal dust silo Early detection of smouldering fires CO Laser (OFCEAS), NDIR and/or Electrochemical sensor based online gas monitoring system.*
At the off gas exit of coal mill Monitoring compliance of dust emission with existing regulations CO Dust Laser (OFCEAS), NDIR and Electrochemical sensor based Continuous Emissions Monitoring Systems (heated sampling system required).*

Insitu dust analyser.

At the hot blast inlet Monitoring the oxygen content of the hot blast in order to optimize the blast furnace process O2 Insitu Combustion analyser type Zirconium with built in metallic reference.
At the stack of the hot blast oven Monitoring compliance of pollutant emission with existing regulations CO, NO, SO2, O2 Dust Laser (OFCEAS), NDIR and Electrochemical sensor based Continuous Emissions Monitoring Systems.*

Insitu dust analyser.

At the converter off gas outlet Optimizing the converter process from the composition of the converter off gas CO, CO2, O2 CO, CO2,  H2 Laser (OFCEAS), NDIR and/or Electrochemical sensor based online gas monitoring system.*
At the coking gas outlet Determination of the calorific value of the coke oven gas for billing purposes and early detection of explosion risk CO, CH4, O2 H2 Calorific value Laser (OFCEAS), NDIR and/or Electrochemical sensor based online gas monitoring system with Built-in calorific value calculation.*

(*) Sampling method and measuring principle to be selected based on the exact application requirements and specifications.

Syngas online monitoring systems

The use of advanced online monitoring systems installed in the heart of syngas processes usually requires integration into air conditioned analyser rooms or shelters to preserve the instruments from harsh plant conditions and corrosive atmospheres. The installation in an area protected from the weather also secures the data/instrument availability by providing permanent access to the analysers – if attendance is required for maintenance or diagnosis.

Systems certified for installation in explosive area (ATEX) may be required in some cases.

Reliable, accurate and application customised online monitoring systems are valuable in DRI and other syngas plants as they allow determining the quality parameters of blast furnace, coke and natural gas essential to process optimisation.

AquaGas Pty Ltd offers a broad range of portable and stationary monitoring systems specifically designed to handle syngas online monitoring requirements.

Our analysers and systems provide plant operator with application specific key features:

  • Simultaneous measurement of several components within the same instruments reducing the cost of the system itself but also easing integration, installation and operation tasks
  • Combine various cells and measurement principles into the same instrument
  • Measure accurately over a large dynamic range
  • Measure all primary constituents of process gas: CO, CH4, O2, H2, CO, CO2, H2, CnHm
  • Calculate automatically the gas calorific value BTU and Wobbe Index WI
  • Allow fast sample transfer on long distances
  • Maintain the gas temperature above dew point
  • Decrease and stabilize the sample dew point prior analysis to eliminate water vapour cross interferences
  • Transmit to the plant DCS individual readings for all measured components (analogue or serial communication)
  • Convey the sample in SS, PFA or PFTE gas path
  • Designed to operate in harsh conditions
  • Remove particulates, soot and tar from the sample directly at the sampling location
  • Automatic sampling and calibration sequences including span, zero check, system purge, probe backflush
  • Store internally at least one month of data
  • Dedicated sampling system featuring heated particulate filtration and sample transfer, high temperature sampling probe, Gas cooler with PFA coated heat exchanger or Nafion membrane drier.

Monitoring solutions tailored to the needs of syngas plants

 

 

AquaGas is supporting the global industrial community with high performance environmental and process monitoring systems (Continuous Emissions Monitoring Systems, Air Quality Monitoring Systems, Online process analysers, Water Quality Monitoring Systems) specifically designed and built to meet your application requirements.

CEMS and process gas analyser

 

A new approach to continuous gas monitoring

The Mamos is a high quality stationary monitoring system for the measurement of up to 6 gases as well as gas temperature, ambiant and differential pressures (Gas Flow) in a large field of applications.

Designed to optimise performance/price ratio, small in size and yet very skilful analyser, the Mamos is the field proven alternative for large, intricate Continuous Emissions Monitoring Systems, as it does not fall behind them concerning functionality, abilities, reliability and is far ahead in terms of expenses.

AquaGas Multigas CEMS

Online monitoring made easy

Fully automated and packed with exclusive features, the Mamos concept enlarges monitoring possibilities and respond to the today’s demands in terms of accuracy, reliability and flexibility. Each analyser is supplied with its own sampling system. The entire system is mounted on a wall mount plate and designed for installation in industrial settings and rough environment. It has a modular construction, and offer a large panel of add-ons to match site specific application requirements. The Mamos minimises the installation and ongoing operation cost until now required to fulfil your monitoring needs.

MAMOS-Multigas-analyser-CEMS-features

Multigas

Depending of the gas matrix and components to be analysed, the Mamos can be fitted with up to 6 different sensors. The combination of technologies (NDIR, TCD, PID, Electrochemical) and the addition of separate gas channels into the same instrument empower flexibility in multigas applications. A unique feature is to allocate a gas channel to sensible sensors. Its design ensures the cells have a limited exposure to gases and therefore extends considerably their respective life-time.

Process gas and emissions monitoring in combustion plants, boilers, syngas, biogas, waste recycling facilities and associated filtration systems are typical applications for multiple gas channels configuration.

In Biogas, the primary gas channel holds the CO2, CH4, Osensors while an additional separate gas channel is allocated to sensible Electrochemical sensors, H2S for example. The two NDIR gas channels can then be used for CO and VOCs.

MAMOS-CEMS-Flow diagram-2

The Mamos offers multiple sensor and method configurations. Here are the measuring parameter for the most common gases. For other gases or different measuring ranges (MR), please consult us.

 

Gas Analysis Method Range   I   Resolution Accuracy Time (T90) Conformity
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% |

0.01%

± 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, with H2 compensation 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, with H2 compensation 20 000ppm |

1ppm

± 5ppm abs. or 5% rel. 45 sec ISO 12039,
CTM-030
CO

Carbon Monoxide

Electrochemical Sensor 10% |

0.001%

± 0.005% abs. or 5% rel. 45 sec ISO 12039,
CTM-030
CO

Carbon Monoxide

NDIR

Non Dispersive Infra Red

10% |

0.01%

± 0.05% abs. or 5% rel. 45 sec EN 15058 and

Method 10

CO

Carbon Monoxide

NDIR

Non Dispersive Infra Red

25% |

0.01%

± 0.05% abs. or 5% rel. 45 sec EN 15058 and

Method 10

CO

Carbon Monoxide

NDIR

Non Dispersive Infra Red

50% |

0.01%

± 0.05% abs. or 5% rel. 45 sec EN 15058 and

Method 10

CO

Carbon Monoxide

NDIR

Non Dispersive Infra Red

100% |

0.1%

± 0.5% abs. or 5% rel. 45 sec EN 15058 and

Method 10

CO2

Carbon Dioxide

NDIR

Non Dispersive Infra Red

5% |

0.01%

± 0.05% abs. or 5% rel. 45 sec ISO 12039,

OTM-13

CO2

Carbon Dioxide

NDIR

Non Dispersive Infra Red

10% |

0.01%

± 0.05% abs. or 5% rel. 45 sec ISO 12039,

OTM-13

CO2

Carbon Dioxide

NDIR

Non Dispersive Infra Red

25% |

0.01%

± 0.05% abs. or 5% rel. 45 sec ISO 12039,

OTM-13

CO2

Carbon Dioxide

NDIR

Non Dispersive Infra Red

50% |

0.01%

± 0.05% abs. or 5% rel. 45 sec ISO 12039,

OTM-13

CO2

Carbon Dioxide

NDIR

Non Dispersive Infra Red

100% |

0.1%

± 0.5% abs. or 5% rel. 45 sec ISO 12039,

OTM-13

CxHy

Total Hydrocarbons

NDIR

Non Dispersive Infra Red

1% |

0.01%

± 0.05% abs. or 5% rel. 45 sec
CxHy

Total Hydrocarbons

NDIR

Non Dispersive Infra Red

5% |

0.01%

± 0.05% abs. or 5% rel. 45 sec
CxHy

Total Hydrocarbons

NDIR

Non Dispersive Infra Red

10% |

0.01%

± 0.05% abs. or 5% rel. 45 sec
CxHy

Total Hydrocarbons

NDIR

Non Dispersive Infra Red

25% |

0.01%

± 0.05% abs. or 5% rel. 45 sec
CxHy

Total Hydrocarbons

NDIR

Non Dispersive Infra Red

50% |

0.01%

± 0.05% abs. or 5% rel. 45 sec
CxHy

Total Hydrocarbons

NDIR

Non Dispersive Infra Red

100% |

0.1%

± 0.5% abs. or 5% rel. 45 sec
NO

Nitric Oxide

Electrochemical Sensor 1 000ppm |

1ppm

± 5ppm abs. or 5% rel. 45 sec CTM-022
NO

Nitric Oxide

Electrochemical Sensor 5 000ppm |

1ppm

± 5ppm abs. or 5% rel. 45 sec CTM-022
NO2

Nitrogen Dioxide

Electrochemical Sensor 1 000ppm |

1ppm

± 5ppm abs. or 5% rel. 60 sec CTM-022
NO2

Nitrogen Dioxide

Electrochemical Sensor 4 000ppm |

1ppm

± 5ppm abs. or 5% rel. 60 sec CTM-022
SO2

Sulphur Dioxide

Electrochemical Sensor 2 000ppm |

1ppm

± 5ppm abs. or 5% rel. 45 sec
SO2

Sulphur Dioxide

Electrochemical Sensor 5 000ppm |

1ppm

± 5ppm abs. or 5% rel. 45 sec
H2S

Hydrogen sulfide

Electrochemical Sensor 1 000ppm |

1ppm

± 5ppm abs. or 5% rel. 70 sec
H2S

Hydrogen sulfide

Electrochemical Sensor 10 000ppm |

1ppm

± 5ppm abs. or 5% rel. 45 sec
H2

Hydrogen

Electrochemical Sensor 2 000ppm |

1ppm

± 10ppm abs. or 5% rel. 50 sec
H2

Hydrogen

Electrochemical Sensor 20 000ppm |

1ppm

± 10ppm abs. or 5% rel. 70 sec
H2

Hydrogen

TCD

Thermal Conductivity Detector

10% |

0.1%

± 0.5% abs. or 5% rel 45 sec
H2

Hydrogen

TCD

Thermal Conductivity Detector

25% |

0.1%

± 0.5% abs. or 5% rel 45 sec
H2

Hydrogen

TCD

Thermal Conductivity Detector

50% |

0.1%

± 0.5% abs. or 5% rel 45 sec
H2

Hydrogen

TCD

Thermal Conductivity Detector

100% |

0.1%

± 0.5% abs. or 5% rel 45 sec
N2O

Nitrous Oxide

NDIR

Non Dispersive Infra Red

2 000ppm |

1ppm

± 10ppm abs. or 5% rel 45 sec ISO 21258
N2O

Nitrous Oxide

NDIR

Non Dispersive Infra Red

5 000ppm |

1ppm

± 10ppm abs. or 5% rel 45 sec ISO 21258
CHF3

Fluoroform (Refrigerant R23)

NDIR

Non Dispersive Infra Red

2.5% |

0.01%

± 0.05 abs. or 5% rel. 45 sec
CL2

Chlorine

Electrochemical Sensor 250ppm |

1ppm

± 5ppm abs. or 5% rel. 60 sec
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

Pleasant interface

Its powerful and pleasant PC interface provides operators and system integrators with a broad range of settings to adjust many aspects of the measurement tasks such as automated sampling, calibration, purge sequences, analogue outputs behaviour, data presentations…

For large sites with complex monitoring requirements, the LAN and ModBus interfaces allow implementing in an efficient way large instruments networks with master/slave configurations and user settable monitoring functions.

MAMOS-CEMS-interface

Optimised integration

This compact system is delivered ready for installation. Thanks to its small size, the system is easy to locate,  install and set-up. The routing of the cables and tubes to the instrument is simplified with all gas and electrical connections grouped onto a single plate.

MAMOS-CEMS-Connector panel MAMOS-CEMS-Connector panel-2

Advanced Features

  • Miniature and field replaceable technology
  • Standard configuration includes 6 sensors (NDIR, TCD, PID or Electrochemical)
  • Measured gases: O2, CO, CO2, CxHy, NO, NO2, SO2, H2S, H2, N2O, Cl2, VOC
  • Built-in real-time calculations for the following process parameters:

 

Variable Method Range   I   Resolution Accuracy Response Time (T90)
Tgas

Gas temperature

K-type thermocouple -50 ÷ 1000°C |

0.1°C

± 2°C 10 sec
Tgas

Gas temperature

S-type thermocouple -50 ÷ 1000°C |

0.1°C

± 2°C 10 sec
Tamb

Boiler intake air temperature

PT500 resistive sensor -50 ÷ 1000°C |

0.1°C

± 2°C 10 sec
DP

Differential Pressure

Silicon piezo-resistive pressure sensor 25hPa ÷ +25hPa |

1Pa (0.01hPa)

± 2Pa abs. or 5% rel. 10 sec
V

Gas velocity

With sampling probe equipped 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
  • Large display / User friendly menu
  • Built-in gas chiller with continuous condensate removal
  • Data-logger with SD card for results collection.
  • Analogue outputs (both current and voltage) to control external devices
  • User configurable functions controlled via digital and analogue inputs
  • USB, LAN, RS485 and MODBUS

Versatile in use

The sampling system configuration can be adapted to specific monitoring needs such as multipoint monitoring, redundancy, continuous or time set measuring cycles… When sampling from wet and hot gas, moisture content, condensates and salts are continuously removed by the use of one or several gas dryer(s) (Peltier or Nafion) equipped with built-in safety filter, condensate trap and safety inline particulate filters.

Wether it uses the built-in sampling pump or the pressure from the source, the analyser is designed to work with overpressure. Single gas channel configuration can handle overpressure up 1.8 bar.

MD3 for high moisture content – Waste incinerator, Syngas, Coal Power Stations, Chemical and refinery facilities, (…)

MAMOS-CEMS-MD3-Gas-Dryer

MD2 for low and medium moisture content – Biogas, landfill, odour filtration system, LNG, (…)

Three configurations

Compact – Short-extractive CEMS – Analyser with gas dryer on a common mounting plate, all installed near the measurement place.

MAMOS-CEMS-Compact Version

 

Dimensions (W x H x D) 240 mm x 360 mm x 160 mm
Weight (depends on equipment) 4 kg ÷ 5 kg
Casing’s material ABS
Protection grade IP 20
Mounting plate

dimensions (H x W) | material | weight

596 mm x 450 mm | aluminium | 1.9 kg
Operating conditions T: 10°C ÷ 50°C, RH: 5% ÷ 90% (non-condensing)
Storing temperature 0°C ÷ 55°C
Power consumption (analyser unit only) 30 W max
Data-logger: type | size | number of results SD flash card | max 4GB | practically unlimited
Display: type | parameters Backlit LCD | 20 characters x 4 lines
Gas pump: type | max gas flow | standard gas flow Diaphragm | max 2l/min | 1.5l/min (90l/h)
Maximal extraction point pressure: Atmospheric ±200hPa
Current analogue outputs 4 outputs 0mA ÷ 20mA or 4mA ÷ 20mA
Voltage analogue outputs 4 outputs 0V ÷ 5V or 0V ÷ 10V
Digital inputs 2 inputs, TTL levels, floating = high level
Digital outputs 1 open collector output + 2 SPDT relays (optional)
Computer communication interface B type USB socket

Split /1 dryer – Cold Dry Extractive CEMS – Analyser and gas dryer are installed on separate mounting plates, each equipped with its own power supply module.  The gas dryer is installed near the sampling point therefore the analyser can be located away from the source. Once free from water vapour, the sample can be conveyed on long distances without the need for heated lines.

MAMOS-CEMS-Split Version-2

Split/2 dryers – Cold Dry Extractive CEMS – Compact configuration with an additional gas dryer installed on separate mounting plates, each equipped with its own power supply module. Two dryers in serial for high drying performances suitable for Traces monitoring in wet sample.

MAMOS-CEMS-Split Version

Twin Split – Cold Dry Multipoint CEMS – This version is based on the Twin Split/1 dryer configuration, but uses two MD3 dryer with their own power supply added on  separate mounting plates enabling measurements from two different locations (each dryer is installed near the sampling point). User programmable sampling sequences.
Mamos - Mulitplexed CEMS

 

 

Madur, state-of-the-art monitoring solutions

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1300 850 862

Call us with your application details handy to organise a CEMS demo at your facilities !

AquaGas is supporting the global industrial community with high performance environmental and process monitoring systems (Continuous Emissions Monitoring Systems, Air Quality Monitoring Systems, Online process analysers, Water Quality Monitoring Systems) specifically designed and built to meet your application requirements.

Universal gas sampling system

 

complete gas analysis equipment from one source

Sampling is a key factor to ensure representative analysis and essential to preserve the good status of your monitoring system. AquaGas Monitoring Systems introduces Ankersmid Sampling BVBA (Belgium) stationary sampling equipment designed for Continuous Emission Monitoring (CEMS) and process online analysis.

AquaGas solutions are available as system components for integration into third party systems or as complete turn-key systems. Our systems combine the best technologies available to extract, transfer, and condition samples from stack or crucial process locations prior to analysis.

ACC 400 COMPRESSOR GAS COOLER

Ankersmid Sampling Patented design offers a wide selection of modular options and combinations essential to optimise sampling performances and secure the availability rate of CEMS and process monitoring equipment.

Our adaptative product range is versatile and suits a large variety of applications including:

  • Cement Plant
  • Power Station (Coal fired, Diesel…)
  • Waste Incinerators
  • DeNOx, deSOx and other flue gas treatment process
  • Combustion and Process control
  • Syngas and biogas plant
  • Refineries…

Heated Gas Sample Probes

  • 50°C to 320°C with PID controller or 0-180°C self-limiting heating cartridges
  • High & Low temperature alarm and RS485 ModBus
  • Wide variety of filter materials, length and porosity
  • PTFE demister for wet scrubbers
  • Blowback function for higher dust load up to 10g/Nm3
  • The test gas injection port according to emissions standards (EN14181)
  • Calibration gas feeding via the filter element of the gas sample probe
  • Large selection of heated and unheated sample tubes (incl. ATEX)
  • Easy access to filter, inner stack sample tube, and top-filter
  • Efficient and fast maintenance and routine inspection tasks

Heated Lines

AHL Heatedline-v2

  • 50°C to 200°C Heated Line with PID controller
  • 0-180°C self-limiting heat trace Sample line
  • High & Low temperature alarm and RS485 ModBus
  • Large choice of options and combinations (incl. ATEX)
  • PTFE or SS316 inner tube
  • Multiple inner tubes for calibration, air and sample flows
  • No cold spot
  • Large selection of temperature sensor
  • UV rated PA12 , Polyamide braiding or highly flexible smooth silicon outer jacket
  • Maintenance free and delivered ready for installation

Gas Conditioners

  • 4°C +/-0.1°C dew point stabiliser
  • 19 inch rack  or wall mount units
  • High & Low temperature alarm and RS485 ModBus
  • Large choice of options and combinations (incl. ATEX)
  • Ankersmid Sampling patented NEO® heat exchanger design
  • Multiple stream capabilities
  • PFA® coated gas path and heat exchanger
  • ASS integrated rack mount complete stationary sampling system
  • Low maintenance and reduced operating cost
  • High-performance continuous condensate purge
  • AOX, TUV certified 99% conversion efficiency NOx converter

Gas Sampling Pumps

  • High performance PTFE gas sampling pump
  • 5 to 30 lpm flow range
  • 5 to 240°C operating temperature range
  • Designed for a large range of analytical applications (incl. ATEX)
  • Large choice of options and combinations

Speciality Filters

  • Universal all purposes filters
  • Deep acting particulate filters
  • Calibration gas humidifiers
  • Scrubbers and adsorption material
  • Liquid stop, condensate drain…
  • Built-in liquid alarm sensor, condensate purge, heater…

Ankersmid Sampling

  • Universal

    CEMS integration made easy

  • Performant

    Field proven, high quality, durable Ankersmid Sampling BVBA patented designs

  • Modular

    Comprehensive range of gas sampling equipment from one source

  • Efficient

    Easy to install, maintain and operate

AquaGas is supporting the global industrial community with high performance environmental and process monitoring systems (Continuous Emissions Monitoring Systems, Air Quality Monitoring Systems, Online process analysers, Water Quality Monitoring Systems) specifically designed and built to meet your application requirements.