This injection valve made of polyvinylidene fluoride (PVDF), which is designed for all emec dosing systems, is screwed into the pipe and is suitable for dosing both chlorine and pH minus. emec LOTUS MINI injection valve 1/2" - 6X8 PVDF+FP+CE + extension 10CM

Dosing lance made of PP (polypropylene) Precise dosing is essential, especially when the dosing pump has to work below the liquid level.  The high-quality Emec LINI chemical injection lance offers the ideal solution for industrial requirements. Conventional injection valves can cause problems such as crystallisation and chemical deposits, which are effectively avoided by the injection lance.  In addition, the unique design of the injection lance allows easy removal of the injection point, especially in pressurised systems, thanks to the optional non-return valve. Area of application: The EMEC LOTUS MINI LINI-D ½" is particularly suitable for applications where precise dosing is required, such as water treatment. Materials: Body: - The dosing lance is made of PP (polypropylene), a high-quality plastic O-rings and lip seal: These are made of EPDM (ethylene propylene diene rubber) Maximum flow rate: The dosing lance can achieve a flow rate of up to 10 litres per hour. Immersion depth: The immersion depth of the lance is variable: 20 - 160 mm Operating range: The dosing lance can be used at a maximum pressure of 16 bar and a temperature of 25°C (or 2 bar at 130°C). Process connection: The dosing lance has a ½" process connection Hose connection: the hose connection is 4x6 mm Dimensions: Width: 12 cmLength: 78 cmWeight: 800g

Precise dosing is essential, especially when the dosing pump has to work below the liquid level.  The high-quality Emec LINI chemical injection lance offers the ideal solution for industrial requirements. Conventional injection valves can cause problems such as crystallisation and chemical deposits, which are effectively avoided by the injection lance.  In addition, the unique design of the injection lance allows easy removal of the injection point, especially in pressurised systems, thanks to the optional non-return valve. Area of application:The EMEC LOTUS MINI LINI-D ½" is particularly suitable for applications where precise dosing is required, such as water treatment.Materials:  Body: - The dosing lance is made of PP (polypropylene), a high-quality plastic  O-rings and lip seal: These are made of EPDM (ethylene propylene diene rubber) Maximum flow rate: The dosing lance can achieve a flow rate of up to 10 litres per hour.Immersion depth: The immersion depth of the lance is variable: 20 - 160 mmOperating range: The dosing lance can be used at a maximum pressure of 16 bar and a temperature of 25°C (or 2 bar at 130°C).Process connection: The dosing lance has a ½" process connectionHose connection: the hose connection is 4x6 mm Dimensions:  Width: 12 cm  Length: 78 cm  Weight: 800g

Precise dosing is essential, especially when the dosing pump has to work below the liquid level.  The high-quality emec LINI chemical injection lance offers the ideal solution for industrial requirements. Conventional injection valves can cause problems such as crystallisation and chemical deposits, which are effectively avoided by the injection lance.  In addition, the unique design of the injection lance allows easy removal of the injection point, especially in pressurised systems, thanks to the optional non-return valve. Area of application: The EMEC LOTUS MINI LINI-V ½" is particularly suitable for applications where precise dosing is required, such as water treatment. Materials: Body: - The dosing lance is made of PVDF (polyvinylidene fluoride), a high-quality plastic with high resistance to chemicals. O-rings and lip seal: These are made of FKMB (Viton) Maximum flow rate: The dosing lance can achieve a flow rate of up to 10 litres per hour. Immersion depth: The immersion depth of the lance is variable: 20 - 160 mm Operating range: The dosing lance can be used at a maximum pressure of 16 bar and a temperature of 25°C (or 2 bar at 110°C). Process connection: The dosing lance has a ½" process connection Hose connection: the hose connection is 6x8 mm. Dimensions: Width: 12 cm Length: 78 cm Weight: 800g

Precise dosing is essential, especially when the dosing pump has to work below the liquid level.  The high-quality emec LINI chemical injection lance offers the ideal solution for industrial requirements. Conventional injection valves can cause problems such as crystallisation and chemical deposits, which are effectively avoided by the injection lance.  In addition, the unique design of the injection lance allows easy removal of the injection point, especially in pressurised systems, thanks to the optional non-return valve.  Area of application: The EMEC LOTUS MINI LINI-V ½" is particularly suitable for applications where precise dosing is required, such as water treatment. Materials: Body: - The dosing lance is made of PVDF (polyvinylidene fluoride), a high-quality plastic with high resistance to chemicals. O-rings and lip seal: These are made of FKM B (Viton) Maximum flow rate: The dosing lance can achieve a flow rate of up to 10 litres per hour. Immersion depth: The immersion depth of the lance is variable: 20 - 160 mm Operating range: The dosing lance can be used at a maximum pressure of 16 bar and a temperature of 25°C (or 2 bar at 110°C). Process connection: The dosing lance has a ½" process connection Hose connection: the hose connection is 9x12 mm Dimensions: Width: 12 cm Length: 78 cm Weight: 800g

Precise dosing is essential, especially when the dosing pump has to work below the liquid level.  The high-quality emec LINI chemical injection lance offers the ideal solution for industrial requirements. Conventional injection valves can cause problems such as crystallisation and chemical deposits, which are effectively avoided by the injection lance.  In addition, the unique design of the injection lance allows easy removal of the injection point, especially in pressurised systems, thanks to the optional non-return valve.  Area of application: The EMEC LOTUS MINI LINI-V ½" is particularly suitable for applications where precise dosing is required, such as water treatment. Materials: Body: - The dosing lance is made of PVDF (polyvinylidene fluoride), a high-quality plastic with high resistance to chemicals O-rings and lip seal: These are made of FKM B (Viton) Maximum flow rate: The dosing lance can achieve a flow rate of up to 10 litres per hour. Immersion depth: The immersion depth of the lance is variable: 20 - 160 mm Operating range: The dosing lance can be used at a maximum pressure of 16 bar and a temperature of 25°C (or 2 bar at 110°C). Process connection: The dosing lance has a ½" process connection Hose connection: the hose connection is 4x8 mm Dimensions: Width: 12 cmLength: 78 cmWeight: 800g

Precise dosing is essential, especially when the dosing pump has to work below the liquid level.  The high-quality Emec LINI chemical injection lance offers the ideal solution for industrial requirements. Conventional injection valves can cause problems such as crystallisation and chemical deposits, which are effectively avoided by the injection lance.  In addition, the unique design of the injection lance allows easy removal of the injection point, especially in pressurised systems, thanks to the optional non-return valve.  Area of application: The EMEC LOTUS MINI LINI-V ½" is particularly suitable for applications where precise dosing is required, such as water treatment. Materials: Body: - The dosing lance is made of PVDF (polyvinylidene fluoride), a high-quality plastic with high resistance to chemicals O-rings and lip seal: These are made of FKM B (Viton) Maximum flow rate: The dosing lance can achieve a flow rate of up to 10 litres per hour. Immersion depth: The immersion depth of the lance is variable: 20 - 160 mm Operating range: The dosing lance can be used at a maximum pressure of 16 bar and a temperature of 25°C (or 2 bar at 110°C). Process connection: The dosing lance has a ½" process connection Hose connection: the hose connection is 4x6 Dimensions: Width: 12 cm Length: 78 cm Weight: 800g

Precise dosing is essential, especially when the dosing pump has to work below the liquid level.  The high-quality emec LINI chemical injection lance offers the ideal solution for industrial requirements. Conventional injection valves can cause problems such as crystallisation and chemical deposits, which are effectively avoided by the injection lance.  In addition, the unique design of the injection lance allows easy removal of the injection point, especially in pressurised systems, thanks to the optional non-return valve. Field of application: The EMEC LOTUS MINI LINIR-D ½" is particularly suitable for applications where precise dosing is required, such as water treatment. Materials: Body: - The dosing lance is made of PP (polypropylene), a high-quality plastic Ball valve: PVC O-rings and lip seal: These are made of EPDM (ethylene propylene diene rubber) Maximum flow rate: The dosing lance can achieve a flow rate of up to 10 litres per hour. Immersion depth: The immersion depth of the lance is max. 55 mm Operating range: The dosing lance can be used at a maximum pressure of 16 bar and a temperature of 25°C (or 3 bar at 50°C). Process connection: The dosing lance has a ½" process connection Hose connection: the hose connection is 4x6 Dimensions: Width: 12 cm Length: 78 cm Weight: 800g

The ½" injection nozzle is specially designed for the precise dosing of sodium hypochlorite in drinking water. With its automatic cleaning system, it ensures reliable and efficient performance. [#dspacer#] Area of application: The EMEC LOTUS MINI LINIR-V ½" is particularly suitable for applications where precise dosing is required, such as water treatment. Materials: Body: - The dosing lance is made of PVDF (polyvinylidene fluoride), a high-quality plastic with high resistance to chemicals Ball valve: PVC O-rings and lip seal: These are made of FKM B (Viton) Maximum flow rate: The dosing lance can achieve a flow rate of up to 10 litres per hour. Immersion depth: The immersion depth of the lance is max. 55 mm Operating range: The dosing lance can be used at a maximum pressure of 16 bar and a temperature of 25°C (or 3 bar at 50°C). Process connection: The dosing lance has a ½" process connection Hose connection: the hose connection is 4x6 mm Dimensions: Width: 12 cm Length: 78 cm Weight: 800g

LINIR-V 1/2"- 6x8 (PVDF+FP+CE) dosing lance made of PVDF The ½" injection nozzle is specially designed for the precise dosing of sodium hypochlorite in drinking water. With its automatic cleaning system, it ensures reliable and efficient performance  [#dspacer#]  Area of application: The EMEC LOTUS MINI LINIR-V ½" is particularly suitable for applications where precise dosing is required, such as water treatment. Materials: Body: - The dosing lance is made of PVDF (polyvinylidene fluoride), a high-quality plastic with high resistance to chemicals Ball valve: PVC O-rings and lip seal: These are made of FKM B (Viton) Maximum flow rate: The dosing lance can achieve a flow rate of up to 10 litres per hour. Immersion depth: The immersion depth of the lance is max. 55 mm Operating range: The dosing lance can be used at a maximum pressure of 16 bar and a temperature of 25°C (or 3 bar at 50°C). Process connection: The dosing lance has a ½" process connection Hose connection: the hose connection is 6x8 mm Dimensions: Width: 12 cm Length: 78 cm Weight: 800g

The ½" injection nozzle is specially designed for the precise dosing of sodium hypochlorite in drinking water. With its automatic cleaning system, it ensures reliable and efficient performance.  Area of application: The EMEC LOTUS MINI LINIR-V ½" is particularly suitable for applications where precise dosing is required, such as water treatment. Materials: Body: - The dosing lance is made of PVDF (polyvinylidene fluoride), a high-quality plastic with high resistance to chemicals Ball valve: PVC O-rings and lip seal: These are made of FKM B (Viton) Maximum flow rate: The dosing lance can achieve a flow rate of up to 10 litres per hour. Immersion depth: The immersion depth of the lance is max. 55 mm Operating range: The dosing lance can be used at a maximum pressure of 16 bar and a temperature of 25°C (or 3 bar at 50°C). Process connection: The dosing lance has a ½" process connection Hose connection: the hose connection is 8x10 mm Dimensions: Width: 12 cm Length: 78 cm Weight: 800g

The 3/4’ injection nozzle is specially designed for the precise dosing of sodium hypochlorite in drinking water. With its automatic cleaning system, it ensures reliable and efficient performance. Field of application: The EMEC LOTUS MINI LINIR-V 3/4’ is particularly suitable for applications where precise dosing is required, such as water treatment. Materials: Body: - The dosing lance is made of PVDF (polyvinylidene fluoride), a high-quality plastic with high resistance to chemicals Ball valve: PVC O-rings and lip seal: These are made of FKM B (Viton) Maximum flow rate: The dosing lance can achieve a flow rate of up to 120 litres per hour. Immersion depth: The immersion depth of the lance is max. 55 mm Operating range: The dosing lance can be used at a maximum pressure of 10 bar and a temperature of 25°C (or 3 bar at 50°C). Process connection: The dosing lance has a 3/4’ process connection Hose connection: the hose connection is 13x16 mm Dimensions:  Width: 12 cm  Length: 78 cm  Weight: 800g

LINIR-V 3/4" dosing lance 8X10 PVDF+FP+CE The 3/4" injection nozzle is specially designed for the precise dosing of sodium hypochlorite in drinking water. With its automatic cleaning system, it ensures reliable and efficient performance.  Field of application: The EMEC LOTUS MINI LINIR-V 3/4" is particularly suitable for applications where precise dosing is required, such as water treatment. Materials: Body: - The dosing lance is made of PVDF (polyvinylidene fluoride), a high-quality plastic with high resistance to chemicals Ball valve: PVC O-rings and lip seal: These are made of FKM B (Viton) Maximum flow rate: The dosing lance can achieve a flow rate of up to 120 litres per hour. Immersion depth: The immersion depth of the lance is max. 55 mm Operating range: The dosing lance can be used at a maximum pressure of 10 bar and a temperature of 25°C (or 3 bar at 50°C). Process connection: The dosing lance has a 3/4" process connection Hose connection: the hose connection is 8x10 mm Dimensions: Width: 12 cm Length: 78 cm Weight: 800g

Service set LOTUS A/MINI 8 / 20 for annual maintenance consisting of: 2 dosing heads VIS pumps acid/sodium chlorite - 4x6 (PVDF+FP+CE)2 PTFE diaphragms type A/I/J, VIS pumps acid/sodium chlorite1 pc. Dosing head VIS pump water dilution - 4x6 (PVDF+FP+CE)1 PTFE diaphragm type PCS/K, VIS pump water dilution3 pcs. non-return valve ½" (PVDF+FP+CE) 0.3 bar5 O-ring FPM for hose connection 1/2"1 pc. MFKT/V - 4x6 Multifunction valve (chlorine dioxide)1 pc. Injection valve 1/2" - 4x6 (PVDF+FP+CE+C276)2 pcs. service set FPM red/blue for suction lances LASP42 m dosing hose 4x6 PVDF10 m suction hose 4x6 PVC

MB A6K4 is a high capacity mixed bed ion exchange resin consisting of a mixture of strongly basic anion resin and a strongly acidic cation resin for direct water purification.The conductivity is about 0.06 µm/cm.Suitable for use in non-regenerable cartridges, high efficiency deionisation for silica removal and ultra pure water applications.Packed in 25 litre bagsPolymer matrix: gel polystyrene cross-linked with DVB.Ionic form, as supplied: H+ / OH-Physical shape and appearance: Spherical beadsSphericity: Min. 95%Particle size range (US Standard Screen): 1.25 - 0.315mm, wet.Particle size: +1.2mm < 5% ; -0.3mm < 1%Water retention H+: 45 - 50%Water retention OH-: 53 - 60%Shipping weight (approx.): 700-740 g/lMax. Temp. non-regenerative: 100°CMax. Temp. regenerative: 60°CpH-value range: 0-14Recommended operating conditions:Minimum bed depth should be 0.6m (24")Service flow rate should be 20-60 BV/hourProlonged exposure to strong oxidising agents such as chlorine, hydrogen peroxide and concentrated nitric acid will deteriorate the structural backbone of the resin and should be avoided.Mixture Resin:Anions: 60%Cations: 40%Purchase options:Single purchase - 25 ltr. (item no. 896495)1/2 pallet - 500 ltr. (Art.-No. 896496)1 pallet - 1050 ltr. (art.-no. 896497)

With an absolute filter fineness of 0.05 µm, the GR25 membrane filter element is suitable for applications where the highest purity and process safety are required. With a retention rate of 99.98%, it safely removes the finest particles and microbiological contaminants from liquids. With a standard length of 9 3/4, it is compatible with common filter housings and can be integrated into existing systems.

The GR25 membrane filter element with an absolute filter fineness of 0.1µm is suitable for applications where the highest purity and process safety are required. With a retention rate of 99.98%, it reliably removes the finest particles and microbiological contaminants from liquids. With a standard length of 9 3/4, it is compatible with common filter housings and can be integrated into existing systems.

The GR25 membrane filter element with an absolute filter fineness of 0.2 µm is designed for applications where the highest purity and process reliability are required. It reliably removes the finest particles and microbiological contaminants from liquids with a retention rate of 99.98%.The filter element, with a standard length of 9 3/4 inches, is compatible with common filter housings and can be integrated into existing systems.

High-quality conductivity meter for conductivity monitoring Our innovative conductivity meter has been specially developed for monitoring conductivity in ultrapure water (demineralised water) and has a 4-20 mA signal output that enables easy integration into higher-level control systems.The measurements are temperature-compensated, which ensures greater accuracy. With a measuring range of 0 to 2 µS/cm, our device is particularly suitable for monitoring low conductivities, such as those typically found in mixed-bed ion exchanger cartridges. The limit value is displayed by means of 2 LEDs (green/red) on the top of the device. An acrylic glass cover ensures that the current status is immediately visible. The device has a ¾ screw thread, which can be customised for easy and safe installation. There is also the option of customisation in terms of the LEDs, including the measuring range and a private label. Our high-quality conductivity meter offers a reliable solution for conductivity monitoring in medical areas to fulfil the guidelines and recommendations of the DGSV. Our measuring device is also particularly suitable for mixed bed cartridge monitoring in the clinical environment. Standard LED configuration (1 green LED, 1 red LED): <0.5 µS/cm = green >0.5 µS/cm to <1.0 µS/cm = green/red flashing >1 µS/cm = red

Reliable Monitoring of Water Quality at Extremely Low Conductivity High-precision conductivity meter for ultrapure and process water The N-LF5R meter was developed for continuous monitoring of very low electrical conductivities in aqueous solutions. With a measuring range of 0–5 µS/cm, it delivers meaningful readings even with minimal conductivity changes. The integrated 3/4" screw-in measuring cell allows direct installation into the process flow. Its compact design and low power requirement via 9 V DC operation make the N-LF5R highly flexible. The robust IP65 housing protects the device against dust and splash water, ensuring reliable operation even under demanding conditions. Why precise conductivity measurement is particularly important in the low range Even slight deviations in conductivity can determine the quality of the final product or the safety of a system in many processes. The N-LF5R detects the smallest changes in the 0–5 µS/cm range, which can indicate contamination, material degradation, or process deviations. Benefits of the N-LF5R for monitoring ultrapure and process water The N-LF5R conductivity meter enables early detection of even minimal changes in conductivity in ultrapure and process water. This allows contamination, leaks, material leaching, or process deviations to be identified quickly before they lead to quality issues or equipment damage. The integrated screw-in measuring cell allows direct inline measurement, ensuring continuous and reliable readings without sampling. Combined with the robust IP65 housing, the device is ideal for permanent use in industrial applications where high measurement accuracy and operational reliability are critical.

The modular water treatment system was specially developed for the outpatient care sector. While retaining the overall geometry, the system can be adapted to the different degrees of water hardness in Germany, the quantities required in different outpatient centers, as well as to the initial water quality including any treatment steps on the part of the supplier. The modularity offers the decisive advantage that the overall concept can be adapted to the respective water type or composition as well as the treatment process of the supplier. Concept Demineralized water treatment for the outpatient sector Use of demineralized water in the outpatient sector Fully demineralized water (demineralized water) plays a central role in the outpatient medical sector, particularly in the reprocessing of medical devices, in laboratory applications and in the final rinse for mechanical instrument reprocessing. The aim is to avoid residues that could be caused by minerals, salts or other substances contained in tap water. For safe use, demineralized water must meet defined quality requirements: The conductivity must be below 0.1 µS/cm. This indicates that it contains almost no dissolved salts or ions. The silicate content must not exceed 0.4 g/l to avoid silicate deposits on medical instruments that could impair functionality or lead to hygienic risks. Only if these limit values are adhered to can residue-free and gentle reprocessing be guaranteed that meets the hygiene requirements in the outpatient sector. This is particularly relevant in dental practices, dermatology, endoscopy and in outpatient operating theatres, where deionized water is used for final rinsing or for steam generators in sterilization processes, among other things. The components used are listed below: Cabinet System separator Filter system (pre-filter & activated carbon filter) Softening system Reverse osmosis system Permeate tank 100 liters (volume can be adjusted) Pressure boosting station Two-stage mixed bed UV system (optional) Pyrogen filter (optional) Ring line in front of the mixing bed if the consumers are not removed to prevent contamination Brine lifting system (optional) Testomat 808 SIO2 (silicate measurement) Conductivity measurement NeoTecMaster (optional) Performance of the system Depending on the design of the system, 90 l, 150 l, 230 l or 300 l deionized water can be produced per hour. The capacity of the permeate tank can be adjusted, but must be positioned outside the cabinet due to the larger dimensions including the pressure booster station from a capacity of > 150 l/ (depending on the application). Shut-off via system separator The installation of a system separator is mandatory to protect the drinking water network from contamination by treated water or changes to the natural composition of the drinking water fed in due to its technical treatment. The system has an integrated system separator (type BA), which is located directly behind the Aqua-Stop of the water connection. Aqua-Stop (solenoid valve shut-off) An Aqua-Stop is a safety mechanism used in water supply systems to stop or limit the flow of water if a fault or leakage occurs. The Aqua-Stop is located directly behind the main water connection of the system as the first element. The associated solenoid valve is coupled with two sensors, one of which is integrated in the bottom tray of the cabinet and the second is located outside at the level of the tank and the pressure booster station. Filter The pre-filter section is a filter unit consisting of a pre-filter and an activated carbon filter. Its main purpose is to protect downstream softening and osmosis systems that could be damaged by impurities in the water. Water softener The water softener removes the hardness constituents (calcium and magnesium) from the drinking water and replaces them with sodium. The function is based on an ion exchange process and ensures that the reverse osmosis membranes are reliably protected against clogging. Reverse osmosis In reverse osmosis, the natural osmotic process is reversed. The softened water is pumped through a membrane under pressure, whereby the membrane only allows water molecules and very small molecules to pass through and retains larger particles such as salts, bacteria, fours and other impurities. The installed reverse osmosis has a retention rate of approx. 98% in relation to all substances dissolved in the water. Permeate tank The built-in round tank offers advantages in terms of stability, cleaning and space requirements. The uniform shape ensures that the water is treated and stored efficiently. The optimized tank geometry prevents the potential growth of microbiological contamination and thus meets the high requirements for media purity to a greater extent. Pressure booster station The pressure booster station ensures that the connected consumers are supplied with the required operating pressure and flow rate. This enables an optimized and needs-based media supply. Mixing bed The two-stage mixing bed (connected in series) is a so-called pole mixer. Due to the special composition of the resin contained in the cartridges, all dissolved substances remaining in the water are reliably removed. The resin used is highly effective against silicates, which have a particularly negative impact on the reprocessing of medical products. The mixing bed is also the first stage of the recirculation process when using the optionally available buffer tank system. Pyrogen filter A pyrogen filter is a special type of filter used in water treatment to remove pyrogens from the water. Pyrogens are substances that can cause an immunological reaction in the body, in particular an increase in body temperature. These are usually endotoxins that are released by bacteria such as Escherichia coli (E. coli). Water disinfection by UV irradiation The development of water disinfection using UV radiation has made considerable progress in recent years due to its simplicity and efficiency. The UV-C rays generated, which are significantly more intense than sunlight, are therefore used to disinfect water in order to counteract water contamination. They enable the removal of legionella, microbes, bacteria, viruses and protozoa while respecting the environment. Testomat® 808 SiO2 silicate measuring device A Testomat®808 SiO2 silicate is used for permanent silicate monitoring. The Testomat®808 SiO2 is a measuring instrument that is used to determine the silicate content in water. The use of the Testomat 808®SiO2 ensures reliable compliance with the limit value for SiO2 of 0.4 mg/l recommended by the DGSV and AKI. Conductivity measurement Continuous monitoring of conductivity in the range of 0-10 μS/cm on the second mixing bed. For the reprocessing of medical devices, a conductivity of <1 µS/cm is recommended for the water used for the cleaning & disinfection and sterilization process. The conductivity measurement used continuously monitors whether the conductivity falls below this value. NeoTecMaster® 5 inch with housing Data acquisition, visualization and processing are just some of the relevant topics in the field of modern water treatment. The networking of different measuring systems and their integration into process automation is an elementary component here. The NeoTecMaster® was specially developed for this task and is a manufacturer-independent multi-parameter system. Cabinet systems Only a minimum footprint of 1.60 m x 1 m is required for installation. The module consists of 2 cabinets, each 80 cm wide and 60 cm deep. It is possible to work with double hinged doors, resulting in a room depth of 1m due to the depth of 60cm and a double hinged door with a dimension of 40cm. The cabinets used are made of sturdy sheet steel modules and have a high-quality surface coating. Viewing window Viewing windows are installed in Rittal enclosures to provide an overview of the measurement technology. The use of viewing windows in Rittal enclosure systems has several advantages. They enable a visual inspection of the devices in the enclosure without having to open the enclosure. This facilitates the monitoring, maintenance and troubleshooting of components without compromising the integrity of the enclosure. The viewing windows are usually made of a transparent material such as glass. Notes: Viewing windows in Rittal enclosures are only available for single-leaf doors. If this option is selected, please note that the required minimum room depth increases from 100 cm to 140 cm.Abwasser Abführung über Solehebeanlage (optional) As an optional component, the treatment plant can be extended to include an integrated wastewater lifting unit, which pumps the generated and collected wastewater into the sewer system. The main wastewater volume flows here are the wastewater from the regeneration of the softening system and the concentrate from the reverse osmosis. Collecting tray The integrated drip tray is used to detect leaks and is therefore a safety device part of the cabinet systems.The optional components of the system:Viewing windowLighting

The modular water treatment system was specially developed for the outpatient care sector. While retaining the overall geometry, the system can be adapted to the different degrees of water hardness in Germany, the quantities required in different outpatient centers, as well as to the initial water quality including any treatment steps on the part of the supplier. The modularity offers the decisive advantage that the overall concept can be adapted to the respective water type or composition as well as the treatment process of the supplier. Concept Demineralized water treatment for the outpatient sector Use of demineralized water in the outpatient sector Fully demineralized water (demineralized water) plays a central role in the outpatient medical sector, particularly in the reprocessing of medical devices, in laboratory applications and in the final rinse for mechanical instrument reprocessing. The aim is to avoid residues that could be caused by minerals, salts or other substances contained in tap water. For safe use, demineralized water must meet defined quality requirements: The conductivity must be below 0.1 µS/cm. This indicates that it contains almost no dissolved salts or ions. The silicate content must not exceed 0.4 g/l to avoid silicate deposits on medical instruments that could impair functionality or lead to hygienic risks. Only if these limit values are adhered to can residue-free and gentle reprocessing be guaranteed that meets the hygiene requirements in the outpatient sector. This is particularly relevant in dental practices, dermatology, endoscopy and in outpatient operating theatres, where deionized water is used for final rinsing or for steam generators in sterilization processes, among other things. The components used are listed below: Cabinet System separator Filter system (pre-filter & activated carbon filter) Softening system Reverse osmosis system Permeate tank 100 liters (volume can be adjusted) Pressure boosting station Two-stage mixed bed UV system (optional) Pyrogen filter (optional) Ring line in front of the mixing bed if the consumers are not removed to prevent contamination Brine lifting system (optional) Testomat 808 SIO2 (silicate measurement) Conductivity measurement NeoTecMaster (optional) Performance of the system Depending on the design of the system, 90 l, 150 l, 230 l or 300 l deionized water can be produced per hour. The capacity of the permeate tank can be adjusted, but must be positioned outside the cabinet due to the larger dimensions including the pressure booster station from a capacity of > 150 l/ (depending on the application). Shut-off via system separator The installation of a system separator is mandatory to protect the drinking water network from contamination by treated water or changes to the natural composition of the drinking water fed in due to its technical treatment. The system has an integrated system separator (type BA), which is located directly behind the Aqua-Stop of the water connection. Aqua-Stop (solenoid valve shut-off) An Aqua-Stop is a safety mechanism used in water supply systems to stop or limit the flow of water if a fault or leakage occurs. The Aqua-Stop is located directly behind the main water connection of the system as the first element. The associated solenoid valve is coupled with two sensors, one of which is integrated in the bottom tray of the cabinet and the second is located outside at the level of the tank and the pressure booster station. Filter The pre-filter section is a filter unit consisting of a pre-filter and an activated carbon filter. Its main purpose is to protect downstream softening and osmosis systems that could be damaged by impurities in the water. Water softener The water softener removes the hardness constituents (calcium and magnesium) from the drinking water and replaces them with sodium. The function is based on an ion exchange process and ensures that the reverse osmosis membranes are reliably protected against clogging. Reverse osmosis In reverse osmosis, the natural osmotic process is reversed. The softened water is pumped through a membrane under pressure, whereby the membrane only allows water molecules and very small molecules to pass through and retains larger particles such as salts, bacteria, fours and other impurities. The installed reverse osmosis has a retention rate of approx. 98% in relation to all substances dissolved in the water. Permeate tank The built-in round tank offers advantages in terms of stability, cleaning and space requirements. The uniform shape ensures that the water is treated and stored efficiently. The optimized tank geometry prevents the potential growth of microbiological contamination and thus meets the high requirements for media purity to a greater extent. Pressure booster station The pressure booster station ensures that the connected consumers are supplied with the required operating pressure and flow rate. This enables an optimized and needs-based media supply. Mixing bed The two-stage mixing bed (connected in series) is a so-called pole mixer. Due to the special composition of the resin contained in the cartridges, all dissolved substances remaining in the water are reliably removed. The resin used is highly effective against silicates, which have a particularly negative impact on the reprocessing of medical products. The mixing bed is also the first stage of the recirculation process when using the optionally available buffer tank system. Pyrogen filter A pyrogen filter is a special type of filter used in water treatment to remove pyrogens from the water. Pyrogens are substances that can cause an immunological reaction in the body, in particular an increase in body temperature. These are usually endotoxins that are released by bacteria such as Escherichia coli (E. coli). Water disinfection by UV irradiation The development of water disinfection using UV radiation has made considerable progress in recent years due to its simplicity and efficiency. The UV-C rays generated, which are significantly more intense than sunlight, are therefore used to disinfect water in order to counteract water contamination. They enable the removal of legionella, microbes, bacteria, viruses and protozoa while respecting the environment. Testomat® 808 SiO2 silicate measuring device A Testomat®808 SiO2 silicate is used for permanent silicate monitoring. The Testomat®808 SiO2 is a measuring instrument that is used to determine the silicate content in water. The use of the Testomat 808®SiO2 ensures reliable compliance with the limit value for SiO2 of 0.4 mg/l recommended by the DGSV and AKI. Conductivity measurement Continuous monitoring of conductivity in the range of 0-10 μS/cm on the second mixing bed. For the reprocessing of medical devices, a conductivity of <1 µS/cm is recommended for the water used for the cleaning & disinfection and sterilization process. The conductivity measurement used continuously monitors whether the conductivity falls below this value. NeoTecMaster® 5 inch with housing Data acquisition, visualization and processing are just some of the relevant topics in the field of modern water treatment. The networking of different measuring systems and their integration into process automation is an elementary component here. The NeoTecMaster® was specially developed for this task and is a manufacturer-independent multi-parameter system. Cabinet systems Only a minimum footprint of 1.60 m x 1 m is required for installation. The module consists of 2 cabinets, each 80 cm wide and 60 cm deep. It is possible to work with double hinged doors, resulting in a room depth of 1m due to the depth of 60cm and a double hinged door with a dimension of 40cm. The cabinets used are made of sturdy sheet steel modules and have a high-quality surface coating. Viewing window Viewing windows are installed in Rittal enclosures to provide an overview of the measurement technology. The use of viewing windows in Rittal enclosure systems has several advantages. They enable a visual inspection of the devices in the enclosure without having to open the enclosure. This facilitates the monitoring, maintenance and troubleshooting of components without compromising the integrity of the enclosure. The viewing windows are usually made of a transparent material such as glass. Notes: Viewing windows in Rittal enclosures are only available for single-leaf doors. If this option is selected, please note that the required minimum room depth increases from 100 cm to 140 cm.Abwasser Abführung über Solehebeanlage (optional) As an optional component, the treatment plant can be extended to include an integrated wastewater lifting unit, which pumps the generated and collected wastewater into the sewer system. The main wastewater volume flows here are the wastewater from the regeneration of the softening system and the concentrate from the reverse osmosis. Collecting tray The integrated drip tray is used to detect leaks and is therefore a safety device part of the cabinet systems.The optional components of the system:Viewing windowLighting

For applications that do not require deionized water, we offer a customized version of our cabinet system that is capable of producing permeate. Unlike the deionized water treatment system, the permeate cabinet system consists of only one cabinet. Water treatment is carried out using a pre-filter, a water softener, a reverse osmosis system with a 100-liter permeate tank including a water seal and sterile filter, and a pressure booster station. If required, a brine lifting system can also be integrated into the first cabinet. The installed components are listed again below: Cabinet Filter system (pre-filter & activated carbon filter) Softening system Reverse osmosis system 100-liter permeate tank (volume can be adjusted) Pressure booster station Brine lifting system (optional)  System performance: Depending on the system design, 90 l, 150 l, 230 l, or 300 l of permeate can be produced per hour. The capacity of the permeate tank is adjustable, but may need to be positioned outside the cabinet due to its larger dimensions. Shut-off via system separator To protect the drinking water network from contamination by treated water or changes in the natural composition of the drinking water fed into the system as a result of technical treatment, the installation of a system separator is mandatory. The system has an integrated system separator (type BA), which is located directly behind the Aqua-Stop of the water connection. Aqua-Stop (solenoid valve shut-off) An Aqua-Stop is a safety mechanism used in water supply systems to stop or limit the flow of water in the event of a malfunction or leak. It is usually an automatic shut-off mechanism that closes the water supply valve to prevent major water damage. A solenoid valve is a type of shut-off valve that is controlled by the use of an electromagnetic field. In water treatment, a solenoid valve is used to shut off or regulate the flow of water. The solenoid valve consists of an electromagnetic coil system and a valve mechanism. Applying an electrical voltage to the coil generates a magnetic field that influences the valve mechanism. Depending on the application, the solenoid valve can be opened or closed to allow or block the flow of water. In combination, additional safety and control over the water flow can be ensured. The Aqua-Stop is located directly behind the main water connection of the system as the first element. The associated solenoid valve is coupled with two sensors, one of which continuously monitors the base trays of the two cabinet systems.  Filter system The pre-filter section is a filter unit consisting of a pre-filter and an activated carbon filter. Its main purpose is to protect downstream softening and osmosis systems, which could be damaged by impurities in the water. Water softener A water softener is used to remove excess minerals, especially calcium and magnesium ions, which are responsible for the hardness of the water. It works on the basis of an ion exchange process. Reverse osmosis Reverse osmosis reverses the natural osmotic process. In this process, the softened water is forced through a membrane under pressure, whereby the membrane only allows water molecules and very small molecules to pass through and retains larger particles such as salts, bacteria, viruses, and other impurities. Permeate tank A round tank offers advantages in terms of stability, cleaning, energy efficiency, and space utilization, making it the preferred choice for storing and treating water in treatment plants. Its uniform shape and flow characteristics ensure that water is treated and stored efficiently. Pressure boosting station A pressure boosting station is used to continuously supply the connected consumers with the required operating pressure. Cabinet systems Only a minimum floor space of 0.80 m x 1.40 m is required to install this module from HeylNeomeris. The module consists of a cabinet that is 0.80 m wide and 0.60 m deep. It is possible to use double doors, which, due to the depth of 60 cm and a double door with a dimension of 40 cm, results in a minimum room depth of 1 m. The cabinets used are made of sturdy sheet steel modules and have a high-quality surface coating. Wastewater disposal via brine lifting unit (optional) As an optional component, the treatment plant can be expanded to include an integrated wastewater lifting unit, which transports the generated and collected wastewater into the sewer system. The main wastewater flows here are the wastewater from the regeneration of the softening plant and the concentrate from the reverse osmosis process. Collection tray The integrated collection tray in the cabinet serves to collect potential leaks or escaping liquids that could escape from the pipes or components. This is particularly important, for example, in industrial applications or in environments where sensitive electronic equipment or chemicals are stored.

For applications that do not require deionised water, we offer a modified version of our cabinet system that is capable of producing permeate. Unlike the deionised water treatment system, the permeate cabinet system consists of only one cabinet. Water treatment involves pre-filtration, a softening system, a reverse osmosis system with a 100-litre permeate tank including a water seal and sterile filter, and a pressure booster station. If required, a brine lifting system can also be integrated into the first cabinet. The installed components are listed again below: Cabinet Filter system (pre-filter & activated carbon filter) Water softener Reverse osmosis system Permeate tank 100 litres (volume can be adjusted) Pressure booster station Brine lifting system (optional) System performance: Depending on the system design, 90 l, 150 l, 230 l or 300 l of permeate can be produced per hour. The capacity of the permeate tank is adjustable, but may need to be positioned outside the cabinet due to its larger dimensions. Shut-off via system separator To protect the drinking water network from contamination by treated water or changes in the natural composition of the drinking water fed into the system as a result of technical treatment, the installation of a system separator is mandatory. The system has an integrated system separator (type BA), which is located directly behind the Aqua-Stop of the water connection. Aqua-Stop (solenoid valve shut-off) An Aqua-Stop is a safety mechanism used in water supply systems to stop or limit the flow of water in the event of a malfunction or leak. It is usually an automatic shut-off mechanism that closes the water supply valve to prevent major water damage. A solenoid valve is a type of shut-off valve that is controlled by the use of an electromagnetic field. In water treatment, a solenoid valve is used to shut off or regulate the flow of water. The solenoid valve consists of an electromagnetic coil system and a valve mechanism. Applying an electrical voltage to the coil generates a magnetic field that influences the valve mechanism. Depending on the application, the solenoid valve can be opened or closed to allow or block the flow of water. In combination, additional safety and control over the water flow can be ensured. The Aqua-Stop is located directly behind the main water connection of the system as the first element. The associated solenoid valve is coupled with two sensors, one of which continuously monitors the base trays of the two cabinet systems. Filter system The pre-filter section is a filter unit consisting of a pre-filter and an activated carbon filter. Its main purpose is to protect downstream softening and osmosis systems, which could be damaged by impurities in the water. Water softener A water softener is used to remove excess minerals, especially calcium and magnesium ions, which are responsible for the hardness of the water. It works on the basis of an ion exchange process. Reverse osmosis Reverse osmosis reverses the natural osmotic process. In this process, the softened water is forced through a membrane under pressure, whereby the membrane only allows water molecules and very small molecules to pass through and retains larger particles such as salts, bacteria, viruses and other impurities. Permeate tank A round tank offers advantages in terms of stability, cleaning, energy efficiency and space utilisation, making it the preferred choice for storing and treating water in treatment plants. Its uniform shape and flow characteristics ensure that the water is treated and stored efficiently. Pressure boosting station A pressure boosting station is used to continuously supply the connected consumers with the required operating pressure. Cabinet systems Only a minimum floor space of 0.80 m x 1.40 m is required to install this module from HeylNeomeris. The module consists of a cabinet that is 0.80 m wide and 0.60 m deep. It is possible to use double doors, which, due to the depth of 60 cm and a double door with a dimension of 40 cm, results in a minimum room depth of 1 m. The cabinets used are made of sturdy sheet steel modules and have a high-quality surface coating. Wastewater disposal via brine lifting unit (optional) As an optional component, the treatment plant can be expanded to include an integrated wastewater lifting unit, which transports the generated and collected wastewater into the sewer system. The main wastewater flows here are the wastewater from the regeneration of the softening plant and the concentrate from the reverse osmosis process. Collection tray The integrated collection tray in the cabinet serves to collect potential leaks or escaping liquids that could escape from the pipes or components. This is particularly important, for example, in industrial applications or in environments where sensitive electronic equipment or chemicals are stored.