ammolyser

ammo::lyser pro

A multi-parameter probe for the online measurement of ammonium. It is an absolutely reliable device outclassing conventional analyzers in terms of measurement stability and lifetime. Precision is guaranteed by real time compensation of the ammonium value with temperature, pH and potassium and a high performance reference electrode.

 

ammo::lyser™ III pro: monitors NH4-N and temperature
ammo::lyser™ IV pro+pH monitors NH4-N, temperature and pH (with potassium compensation)
ammo::lyser™ IV pro+NO3-N monitors NH4-N, temperature and NO3-N (with potassium compensation)

  • s::can plug & measure
  • measuring principle: ISE (ionselective electrodes) - with optional potassium compensation
  • multiparameter probe
  • long term stable, factory precalibrated
  • automatic cleaning with compressed air
  • unique, non-porous / non-leaking reference electrode for technically unrivalled and consistent performance
  • ISE refurbishment - the easy way to minimise maintenance
  • easy & quick mounting and measurement directly in the media (InSitu) or in flow cell (monitoring station)
  • operation via s::can terminals & s::can software
  • automatical temperature compensation, pH compensation possible
  • ideal for surface water, ground water and drinking water, also for applications in waste water
  • minimal maintenance
  • life time of ISE: typically 6 month (for applications <1mg/l NH4-N), resp. 1 to 2 years (for applications >1mg/l NH4-N)
First Nation communities in Canada remotely monitor the quality of their drinking water
First Nation communities in Canada remotely monitor the quality of their drinking water

s::can’s event detection system remotely monitor the drinking water quality of sixty small water systems in the First Nation communities of Alberta, Canada.

read more
Colorado Springs Utilities effectively controls aeration blowers in its wastewater treatment plant
Colorado Springs Utilities effectively controls aeration blowers in its wastewater treatment plant

s::can’s ammo::lyser monitors and controls aeration blowers using NH4-N, improving the plant’s energy efficiency and lowering operational costs.

read more
New standards for ammonium determination

The ammo::lyser can be mounted easily and quickly directly in the medium (in situ) or in a flow cell (monitoring station) and operated via s::can terminals and s::can software....

The ammo::lyser can be mounted easily and quickly directly in the medium (in situ) or in a flow cell (monitoring station) and operated via s::can terminals and s::can software. This s::can NH4 probe is ideal for applications in surface water (rivers, lakes), ground water and drinking water, and also for applications in waste water (influent, aeration tank, effluent). The plug and measure principle is at the core of all of s::can’s monitoring systems. Simple and quick installation and start-up, reliable results as soon as the instrument immerses into the water. This simplicity allows the users to work with s::can instruments without extensive training.
However, in addition to its technological advantages, the ammo::lyser is economically convincing. The robust ion-selective membrane typically reaches a service life of 6 months in applications with low NH4 -N concentrations (
Reference electrode
The ammo::lyser uses a high performance reference electrode. The clue about this electrode is that the entire outside surface is electrochemically active, it does not significantly drift, even when completely coated, and is therefore superior to conventional ones. Typical problems of conventional pH electrodes such as loss of performance by soiling of a small porous diaphragm or the danger of “bleeding” of the reference electrode are a matter of the past when using the ammo::lyser. Non-porous, non-leaking, stable potential even in extreme applications and no significant fouling, these are unsurpassed properties of the reference electrode, rendering the ammo::lyser unique.

Measuring precision
Ammonium measuring precision is ensured by temperature compensation as well as by optional pH and potassium determination. Thanks to the modular design, the ammo::lyser offers the flexibility to suit any application. The housing comprises four electrode slots, the first two of which are naturally used for the reference electrode and the ammonium electrode. The two other slots can be used arbitrarily for pH, nitrate, chloride or potassium compensation electrodes. Determination of pH is essential if this value is subject to fluctuations in the alkaline range, since pH has a direct effect on ammonium. Concurrent determination of potassium is necessary to compensate perturbations of ammonium determination if the potassium value is not stable in the application. Thus, the ammo::lyser is optimally equipped also for applications in the low concentration range (
Exchanging electrodes
Insertion or exchange of electrodes, respectively, is about as difficult as changing a light bulb. The design of the housing permits direct access to the electrodes which can be removed easily. This operation can also be performed in the field without any problems.

Housing
And the housing is yet another essential point why the ammo::lyser is different. The housing is made out of stainless steel and provides high stability against electromagnetic disturbances. The robust and resilient housing material permits use in industrial applications with aggressive liquids. The sophisticated design without any mobile components drastically reduces malfunctions and maintenance efforts.

Fouling
Thanks to the design of the probe, coarse contamination cannot hamper the measuring. And for all other contaminations, there is automatic rinsing with pressurized air for reliably removing particles or deposits on the electrodes. Automatic rinsing with pressurized air is successful even in untreated waste water. Thus manual cleaning is not necessary, further reducing maintenance efforts.

ISE refurbishment
Up to now, ion-elective electrodes with reduced performance due to ageing were maintained by replacing the ion-selective membranes and the internal electrolyte of the electrode. These manipulations caused some problems or risks in the field. With the s::can ISE refurbishment, the user does not have to exchange membranes or electrolytes any more, but the complete electrode. Simply send the aged ion-selective electrodes to s::can, and tightly quality controlled ISEs are sent back. The very simple and quick field exchange drastically reduces maintenance time and minimizes risk of damage. The benefits include shorter maintenance times on site as well as the lowest total cost of ownership.

ammo::lyser Refurbishment

Up to now, ion selective electrodes (ISE) with reduced performance due to ageing were maintained by replacing the ion-selective membranes and the internal electrolyte of the...

Up to now, ion selective electrodes (ISE) with reduced performance due to ageing were maintained by replacing the ion-selective membranes and the internal electrolyte of the electrode. These manipulations sometimes caused problems or risks in the field, see below. With the s::can ISE refurbishment program, the user does not have to exchange membranes or electrolyte any more, but the complete electrode. Simply send the aged ion-selective electrodes to s::can, and tightly quality controlled ISEs will be sent back. The very simple and quick field exchange drastically reduces maintenance effort and minimizes risk of damage due to avoiding:

- opening of the ion selective electrode
- intrusion into the electrode
- membrane change
- electrolyte handling

The benefits are shorter maintenance times on site as well as the lowest total cost of ownership. Another advantage of this system is that the user can arrive at the site with a preconditioned electrode, so he can check calibration within about 30 minutes after start up while formerly approximately 1.5 hours had to be spent.
Exchanging electrodes separately allows for optimization of the specific lifetime of each component together with accuracy, while simultaneous exchange of all electrodes in a cartridge (as offered by some competitors) necessarily is always a trade-off between accuracy and maintenance optimum. In the following the effects of the s::can electrode exchange system in comparison to other systems are shown.




All numbers according to published manufacturer specification, individual deviations possible

In order to reduce all involved parties’ administration paperwork the procedure to order a refurbished ion selective electrode is streamlined for you: Just a simple tick on the labels of your aged electrodes returned carriage free to s::can Vienna will be considered to be a purchase order for an identical number and type of refurbished electrodes. After checking proper condition of your aged ion selective electrodes we will ship immediately the same number of refurbished ISEs to you.

ammolyser

ammo::lyser eco

A multi-parameter probe for the online measurement of ammonium. It is an absolutely reliable device outclassing conventional analyzers in terms of measurement stability and lifetime. Precision is guaranteed by real time compensation of the ammonium value with temperature, pH and potassium and a high performance reference electrode.

 

ammo::lyser II eco: monitors NH4-N and temperature
ammo::lyser III eco+pH: monitors additionally pH
ammo::lyser III eco+NO3-N: monitors additionally NO3-N
ammo::lyser III eco+Cl-: Monitors additionally Chloride
ammo::lyser IV eco+pH+NO3-N: monitors additionally pH and NO3-N
ammo::lyser IV eco+pH+Cl-: Monitors additionally pH and chloride

  • s::can plug & measure
  • measuring principle: ISE (ionselective electrodes) - with optional potassium compensation
  • multiparameter probe
  • long term stable, factory precalibrated
  • automatic cleaning with compressed air
  • unique, non-porous / non-leaking reference electrode for technically unrivalled and consistent performance
  • ISE refurbishment - the easy way to minimise maintenance
  • easy & quick mounting and measurement directly in the media (InSitu) or in flow cell (monitoring station)
  • operation via s::can terminals & s::can software
  • automatical temperature compensation, pH compensation possible
  • ideal for surface water, ground water and drinking water, also for applications in waste water
  • minimal maintenance
  • life time of ISE: typically 6 month (for applications <1mg/l NH4-N), resp. 1 to 2 years (for applications >1mg/l NH4-N)
Optimization of different biofilm reactors for water treatment in warm climates
Optimization of different biofilm reactors for water treatment in warm climates

 A s::can system at a wastewater treatment plant in El Gouna, Egypt is used to enable modeling and dynamic simulation of different biological processes. With the help of the results, read more

New standards for ammonium determination

The ammo::lyser can be mounted easily and quickly directly in the medium (in situ) or in a flow cell (monitoring station) and operated via s::can terminals and s::can software....

The ammo::lyser can be mounted easily and quickly directly in the medium (in situ) or in a flow cell (monitoring station) and operated via s::can terminals and s::can software. This s::can NH4 probe is ideal for applications in surface water (rivers, lakes), ground water and drinking water, and also for applications in waste water (influent, aeration tank, effluent). The plug and measure principle is at the core of all of s::can’s monitoring systems. Simple and quick installation and start-up, reliable results as soon as the instrument immerses into the water. This simplicity allows the users to work with s::can instruments without extensive training.
However, in addition to its technological advantages, the ammo::lyser is economically convincing. The robust ion-selective membrane typically reaches a service life of 6 months in applications with low NH4 -N concentrations (
Reference electrode
The ammo::lyser uses a high performance reference electrode. The clue about this electrode is that the entire outside surface is electrochemically active, it does not significantly drift, even when completely coated, and is therefore superior to conventional ones. Typical problems of conventional pH electrodes such as loss of performance by soiling of a small porous diaphragm or the danger of “bleeding” of the reference electrode are a matter of the past when using the ammo::lyser. Non-porous, non-leaking, stable potential even in extreme applications and no significant fouling, these are unsurpassed properties of the reference electrode, rendering the ammo::lyser unique.

Measuring precision
Ammonium measuring precision is ensured by temperature compensation as well as by optional pH and potassium determination. Thanks to the modular design, the ammo::lyser offers the flexibility to suit any application. The housing comprises four electrode slots, the first two of which are naturally used for the reference electrode and the ammonium electrode. The two other slots can be used arbitrarily for pH, nitrate, chloride or potassium compensation electrodes. Determination of pH is essential if this value is subject to fluctuations in the alkaline range, since pH has a direct effect on ammonium. Concurrent determination of potassium is necessary to compensate perturbations of ammonium determination if the potassium value is not stable in the application. Thus, the ammo::lyser is optimally equipped also for applications in the low concentration range (
Exchanging electrodes
Insertion or exchange of electrodes, respectively, is about as difficult as changing a light bulb. The design of the housing permits direct access to the electrodes which can be removed easily. This operation can also be performed in the field without any problems.

Housing
And the housing is yet another essential point why the ammo::lyser is different. The housing is made out of stainless steel and provides high stability against electromagnetic disturbances. The robust and resilient housing material permits use in industrial applications with aggressive liquids. The sophisticated design without any mobile components drastically reduces malfunctions and maintenance efforts.

Fouling
Thanks to the design of the probe, coarse contamination cannot hamper the measuring. And for all other contaminations, there is automatic rinsing with pressurized air for reliably removing particles or deposits on the electrodes. Automatic rinsing with pressurized air is successful even in untreated waste water. Thus manual cleaning is not necessary, further reducing maintenance efforts.

ISE refurbishment
Up to now, ion-elective electrodes with reduced performance due to ageing were maintained by replacing the ion-selective membranes and the internal electrolyte of the electrode. These manipulations caused some problems or risks in the field. With the s::can ISE refurbishment, the user does not have to exchange membranes or electrolytes any more, but the complete electrode. Simply send the aged ion-selective electrodes to s::can, and tightly quality controlled ISEs are sent back. The very simple and quick field exchange drastically reduces maintenance time and minimizes risk of damage. The benefits include shorter maintenance times on site as well as the lowest total cost of ownership.

ammo::lyser Refurbishment

Up to now, ion selective electrodes (ISE) with reduced performance due to ageing were maintained by replacing the ion-selective membranes and the internal electrolyte of the...

Up to now, ion selective electrodes (ISE) with reduced performance due to ageing were maintained by replacing the ion-selective membranes and the internal electrolyte of the electrode. These manipulations sometimes caused problems or risks in the field, see below. With the s::can ISE refurbishment program, the user does not have to exchange membranes or electrolyte any more, but the complete electrode. Simply send the aged ion-selective electrodes to s::can, and tightly quality controlled ISEs will be sent back. The very simple and quick field exchange drastically reduces maintenance effort and minimizes risk of damage due to avoiding:

- opening of the ion selective electrode
- intrusion into the electrode
- membrane change
- electrolyte handling

The benefits are shorter maintenance times on site as well as the lowest total cost of ownership. Another advantage of this system is that the user can arrive at the site with a preconditioned electrode, so he can check calibration within about 30 minutes after start up while formerly approximately 1.5 hours had to be spent.
Exchanging electrodes separately allows for optimization of the specific lifetime of each component together with accuracy, while simultaneous exchange of all electrodes in a cartridge (as offered by some competitors) necessarily is always a trade-off between accuracy and maintenance optimum. In the following the effects of the s::can electrode exchange system in comparison to other systems are shown.




All numbers according to published manufacturer specification, individual deviations possible

In order to reduce all involved parties’ administration paperwork the procedure to order a refurbished ion selective electrode is streamlined for you: Just a simple tick on the labels of your aged electrodes returned carriage free to s::can Vienna will be considered to be a purchase order for an identical number and type of refurbished electrodes. After checking proper condition of your aged ion selective electrodes we will ship immediately the same number of refurbished ISEs to you.

chlodilyser

chlori::lyser

The chlori::lyser is a revolutionary pH- and flow-independent sensor for monitoring free chlorine or total chlorine. Its internal buffer electrolyte allows pH-independent measurement between pH 4 to 10+, and its 3-electrode system provides extremely stable readings. High precision is ensured even at high fluctuations of pH, temperature and flow.

 

chlori::lyser™ monitors free chlorine (Cl2 + HOCl + OCl-) or total chlorine (free chlorine + combined chlorine)
 

  • s::can plug & measure
  • measuring principle: amperometric (membrane covered)
  • ideal for drinking water
  • long term stable and lowest maintenance in operation
  • replacement of membrane only once a year
  • readings stable at high fluctuations of pH, temperature and flow
  • compensates fluctuations of pH in an unmatched way
  • pH range from 4 to 10 FCl
  • pH range from 4 to 12 TCl
  • low cross sensitivity to many surfactants
  • cross sensitivities to chlorine dioxide, ozone can be compensated by using readings from spectro::lyser™
  • factory zero point precalibrated
  • mounting and measurement in flow cell
  • operation via s::can terminals & s::can software

 

s::can sensors monitor Ganges river quality during world’s largest religious gathering
s::can sensors monitor Ganges river quality during world’s largest religious gathering

s::can’s stations monitor the quality of the water in the Ganges river in India. This results in a better understanding of the contamination of the river by local industry and protects the read more

First Nation communities in Canada remotely monitor the quality of their drinking water
First Nation communities in Canada remotely monitor the quality of their drinking water

s::can’s event detection system remotely monitor the drinking water quality of sixty small water systems in the First Nation communities of Alberta, Canada.

read more
The city of Tarragona upgraded to a smart drinking water network
The city of Tarragona upgraded to a smart drinking water network

s::can technology is used to monitor drinking water in real-time in the distribution network of Tarragona, Spain. Stations monitor up to 8 parameters (UV254, turbidity, color, TOC, DOC, free Cl, read more

chlori::lyser - why do we measure

When drinking water is disinfected through chlorination it is necessary to continuously control the actual free chlorine level. This is crucial in the first place to ensure efficient disinfection...

When drinking water is disinfected through chlorination it is necessary to continuously control the actual free chlorine level. This is crucial in the first place to ensure efficient disinfection and secondly to prevent regrowth of microorganisms in the finished water. For these two tasks it is necessary to carefully process control the level of free chlorine, also in order to prevent the concentration of harmful disinfection byproducts that can be formed in the presence of chlorine.

 

chlori::lyser - how do we measure

chlori::lyser monitors free chlorine - mounted in a flow cell setup. Due to the membrane covered amperometric measuring principle, flow and pH fluctuations of the water do not influence the...

chlori::lyser monitors free chlorine - mounted in a flow cell setup. Due to the membrane covered amperometric measuring principle, flow and pH fluctuations of the water do not influence the measurement result. Additionally, the integrated temperature compensation and the special, third electrode completely eliminates potential interferences.

chlodilyser

chlodi::lyser

The chlodi::lyser is an amperometric sensor for monitoring chlorine dioxide. It is ideal for all kinds of water treatment and produces stable readings even at high fluctuations of pH, temperature and flow. Strong surfactants are tolerated and the chlodi::lyser is not cross sensitive to chlorine.

 

chlodi::lyser measures chlorine dioxide

  • s::can plug & measure
  • measuring principle: amperometric (membrane covered)
  • ideal for all kinds of water treatment
  • long term stable and lowest maintenance in operation
  • replacement of membrane only once a year
  • readings stable even at high fluctuations of pH, temperature and flow
  • strong surfactants are tolerated
  • not cross sensitive to chlorine
  • factory precalibrated
  • mounting and measurement in a flow cell
  • operation via s::can terminals & s::can software
  • additionally also measures temperature
chlodilyser

hyper::lyser

The hyper::lyser is an amperometric sensor for monitoring hydrogen peroxide. It is ideal for all kinds of water treatment and produces stable readings even at high fluctuations of pH, temperature and flow. Strong surfactants are tolerated.

 

  • s::can plug & measure
  • measuring principle: amperometric (membrane covered)
  • ideal for all kinds of water treatment
  • long term stable and lowest maintenance in operation
  • replacement of membrane only once a year
  • readings stable even at high fluctuations of pH, temperature and flow
  • strong surfactants are tolerated
  • factory precalibrated
  • mounting and measurement in a flow cell
  • operation via s::can terminals & s::can software
  • additionally also measures temperature
chlodilyser

peroxy::lyser

The peroxy::lyser is an amperometric sensor for monitoring peracetic acid. It is ideal for all kinds of water treatment and produces stable readings even at high fluctuations of pH, temperature and flow. Strong surfactants are tolerated and the peroxy::lyser is not cross sensitive to high concentrations of hydrogen peroxide.

 

  • s::can plug & measure
  • measuring principle: amperometric (membrane covered)
  • ideal for all kinds of water treatment
  • long term stable and lowest maintenance in operation
  • replacement of membrane only once a year
  • readings stable even at high fluctuations of pH, temperature and flow
  • strong surfactants are tolerated
  • not cross sensitive to high concentrations of hydrogen peroxide
  • factory precalibrated
  • mounting and measurement in a flow cell
  • operation via s::can terminals & s::can software
  • additionally also measures temperature
condulyser

condu::lyser

The condu::lyser is a maintenance-free and long-term stable probe for online measurement of conductivity, automatically compensated with temperature. It can be mounted directly in the media or in a flow cell providing high precision by either conductive or inductive measurement. Thanks to the high measurement range it is ideal for all varieties of water.

 

  • s::can plug & measure
  • measurement principle condu::lyser: 4 electrode contacting measurement
  • multiparameter sensor
  • ideal for surface water, ground water, drinking water and waste water
  • condu::lyser monitors conductivity, temperature and salinity
  • long term stable and maintenance free in operation
  • high temperature, pressure and measuring range
  • steam sterilizable, autoclavable and compatible with Cleaning In Place (CIP)
  • factory precalibrated
  • mounting and measurement directly in the media (InSitu) or in a flow cell
  • operation via s::can terminals & s::can software
  • 2 versions available:
    sensor with plug connector for use in stations
    sensor with fixed cable for submersion
  • optional: automatic cleaning with compressed air
redolyser

redo::lyser

The redo::lyser is a long-term stable and maintenance free sensor for the online measurement of the redox potential immersed in the medium or in a flow cell. Thanks to a groundbreaking reference electrode, high precision is guaranteed in virtually any medium and under harshest conditions. It is pre-calibrated ex works and immediately ready for use.

 

redo::lyser eco monitors ORP & temperature
redo::lyser pro: high temperature range

  • s::can plug & measure
  • measuring principle: unique, non-porous / non-leaking combined reference electrode for technically unrivalled and consistent ORP performance
  • multiparameter sensor
  • ideal for surface water, ground water and drinking water, also waste water
  • long term stable and maintenance free in operation
  • factory precalibrated
  • mounting and measurement directly in the media (InSitu) or in Bypass
  • operation via s::can terminals & s::can software
     
pHlyser

pH::lyser

The pH::lyser is a maintenance-free sensor for the real-time measurement of pH and temperature directly in the medium or in a flow-cell. Even under tough conditions (up to 90°C) or in water with very low conductivity long term stability and precise measurement is ensured. The sensor is pre-calibrated ex works and immediately ready.

 

pH::lyser eco monitors pH & temperature
pH::lyser pro: high temperature and pH range
 

  • s::can plug & measure
  • measuring principle: unique, non-porous / non-leaking combined reference electrode for technically unrivalled and consistent pH performance
  • multiparameter sensor
  • ideal for surface water, ground water, drinking water and waste water
  • long term stable and maintenance free in operation
  • factory precalibrated
  • mounting and measurement directly in the media (InSitu) or in flow cell
  • operation via s::can terminals & s::can software
  • optional: automatic cleaning with compressed air
     
s::can sensors monitor Ganges river quality during world’s largest religious gathering
s::can sensors monitor Ganges river quality during world’s largest religious gathering

s::can’s stations monitor the quality of the water in the Ganges river in India. This results in a better understanding of the contamination of the river by local industry and protects the read more

First Nation communities in Canada remotely monitor the quality of their drinking water
First Nation communities in Canada remotely monitor the quality of their drinking water

s::can’s event detection system remotely monitor the drinking water quality of sixty small water systems in the First Nation communities of Alberta, Canada.

read more
pH::lyser Benefits

"Why do we measure" Drinking water suppliers use the pH::lyser for the continuous process monitoring and control of chemical and physical treatment steps that are...

"Why do we measure"
Drinking water suppliers use the pH::lyser for the continuous process monitoring and control of chemical and physical treatment steps that are characterised by changes in pH, such as neutralisation, flocculation, mixing of source waters. Furthermore, the pH::lyser is applied in early warning systems that monitor source water quality, both in ground and surface water.

"How do we measure"
is a multi-parameter probe that measures the pH value and temperature directly in the water. The pH::lyser uses the temperature to correct the result of the pH measurement online. The non-porous, solid-state reference electrode ensures excellent pH readings and a long lifetime of the electrode.

ammolyser

fluor::lyser

The fluor::lyser is an ion-selective measuring device designed for the continuous monitoring of the concentration of fluor (F) dissolved in water. Also the instrument continuously measures the temperature of the medium and corrects the measured concentration accordingly. For proper usage the probe has to be connected to an s::can controller, i.e. a con::cube.

 

fluor::lyser monitors fluoride and temperature

  • s::can plug & measure
  • measuring principle: ISE (ionenselektive elektrodes)
  • no cross sensitivities in typical drinking water applications
  • multiparameter probe
  • long term stable, factory precalibrated
  • automatic cleaning with compressed air
  • easy and quick mounting and measurement directly in the media (InSitu) or in a flow cell (monitoring station)
  • operation via s::can terminals & s::can software
  • ideal for drinking water
  • minimal maintenance
f_solilyser_h460px

soli::lyser

The soli::lyser is an optical probe that measures concentrations of suspended solids directly in the water. It integrates the temperature measurement for online correction. Using the principle of infrared absorbance, the readings are not affected by colors. The soli::lyser utilizes an automatic cleaning system that uses compressed air for removal of fouling.

 

soli::lyser monitors TSS (MLSS)

  • s::can plug & measure 
  • measuring principle: optical (infrared absorbance)
  • ideal for waste water
  • long term stable and maintenance free in operation
  • factory precalibrated (2 measuring ranges available)
  • automatic cleaning with compressed air
  • mounting and measurement directly in the media (InSitu) or in flow cell
  • operation via s::can terminals & s::can software
  • minimal maintenance (no waste parts)
  • most cost efficient sensor, cost of ownership is unmatched
f_oxilyser_h460px

oxi::lyser

The oxi::lyser is an optical multi-parameter probe that measures the concentration of dissolved oxygen and the temperature directly in the water. It does not need a minimum flow to produce accurate readings and integrates the temperature measurement for On-Line correction. Minimal conventional calibration and virtually zero maintenance.

 

oxi::lyser™ II monitors disolved oxygen & temperature

  • s::can plug & measure 
  • measuring principle: optical / fluorescence
  • multiparameter sensor
  • ideal for surface water, ground water and drinking water, also waste water
  • long term stable and maintenance free in operation
  • factory precalibrated
  • automatic cleaning with compressed air
  • mounting and measurement directly in the media (InSitu) or in Bypass
  • no flow necessary
  • operation via s::can terminals & s::can software
  • minimal maintenance (no consumables)
     
Optimization of different biofilm reactors for water treatment in warm climates
Optimization of different biofilm reactors for water treatment in warm climates

 A s::can system at a wastewater treatment plant in El Gouna, Egypt is used to enable modeling and dynamic simulation of different biological processes. With the help of the results, read more

Colorado Springs Utilities effectively controls aeration blowers in its wastewater treatment plant
Colorado Springs Utilities effectively controls aeration blowers in its wastewater treatment plant

s::can’s ammo::lyser monitors and controls aeration blowers using NH4-N, improving the plant’s energy efficiency and lowering operational costs.

read more