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)

Proposed use: for the regeneration of water softeners Composition: evaporated salt (min. 99.9% NaCl) Dimensions / weight of tablet: ø25mm / 14g Moisture content: < 0.08 Filling weight: 10kg per sack Type of packaging: PE film Storage description: store dry and well closed Certifications: ISO 9001, ISO 14001 and IFS Standard: The product complies with the following standards. EN 973:2009 Products for the treatment of water intended for human consumption - Sodium chloride for regenerating ion exchange resins -Type A EN 16401:2013 Products for the treatment of swimming pool water - Sodium chloride for use in electrochemical chlorine production plants - Type A EN 14805:2022 Products for the treatment of water intended for human consumption - Sodium chloride for on-site electrochemical production of chlorine by membrane-free processes - Type 1 EN 16370:2022 Products for the treatment of water intended for human consumption - Sodium chloride for the on-site electrochemical production of chlorine by means of membrane cells - Quality 2 Purchase options: Single purchase: 1x 10kg sack (Art.-No. 896467) Pallet purchase: 100x 10kg sacks (Art.-No. 896498)

Proposed use: for the regeneration of water softeners Composition: evaporated salt (min. 99.9% NaCl) Dimensions / weight of tablet: ø25mm / 14g Moisture content: < 0.08 Filling weight: 25kg per sack Type of packaging: PE film Storage description: store dry and well closed Certifications: ISO 9001, ISO 14001 and IFS Standard: The product complies with the following standards... EN 973:2009 Products for the treatment of water intended for human consumption - Sodium chloride for regenerating ion exchange resins -Type A EN 16401:2013 Products for the treatment of swimming pool water - Sodium chloride for use in electrochemical chlorine production plants - Type A EN 14805:2022 Products for the treatment of water intended for human consumption - Sodium chloride for on-site electrochemical production of chlorine by membrane-free processes - Type 1 EN 16370:2022 Products for the treatment of water intended for human consumption - Sodium chloride for the on-site electrochemical production of chlorine by means of membrane cells - Quality 2 Purchase options: Single purchase: 1x 25kg sack (Art.-No. 896468) Pallet purchase: 40x 25kg sacks - 1000 kg (Art.-No. 896500)

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)

Variants:2x Connection hose PE13V34BV340750, pressure hose length 750mm2x Connection hose PE13V34BV341000, pressure hose length 1000mm2x Connection hose PE13V34BV341500, pressure hose length 1500mm2x Connection hose PE13V34BV342000, pressure hose length 2000mm

Variants:2x Connection hose PE13V34BV340750, pressure hose length 750mm2x Connection hose PE13V34BV341000, pressure hose length 1000mm2x Connection hose PE13V34BV341500, pressure hose length 1500mm2x Connection hose PE13V34BV342000, pressure hose length 2000mm

Variants:2x Connection hose PE13V34BV340750, pressure hose length 750mm2x Connection hose PE13V34BV341000, pressure hose length 1000mm2x Connection hose PE13V34BV341500, pressure hose length 1500mm2x Connection hose PE13V34BV342000, pressure hose length 2000mm

Variants:2x Connection hose PE13V34BV340750, pressure hose length 750mm2x Connection hose PE13V34BV341000, pressure hose length 1000mm2x Connection hose PE13V34BV341500, pressure hose length 1500mm2x Connection hose PE13V34BV342000, pressure hose length 2000mm

Our 4- or 8- channel system allows the processing of up to four or eight measurement signals. For this purpose, 4-20 mA/ RS232 as well as Modbus RTU are available as signal inputs. Based on the received data a visualization as well as a trend display takes place. Through modular addition of optional modules (slaves) the realization of popular control concepts is possible.Advantages:Simple operation Integration of the Testomat® device world Integration into the existing control cabinet, alternatively we offer our NeoTecMaster® housingModular function range expandable by NeoTec slave modules (measure, control, control)Available as installation variant or structure variant

Water sterilisation by UV irradiation The development of water sterilisation 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 make it possible to remove legionella, microbes, bacteria, viruses and protozoa while respecting the environment. The irradiation process is therefore an ideal solution for killing microorganisms in water and helps to make it drinkable from a bacteriological point of view. However, it is important to note that water is only considered drinking water once the chemical parameters have been checked and deemed satisfactory.  Applications - Origin of the water Rainwater: UV treatment extends the range of applications and offers increased safety during use Well water: Avoidance of possible contamination by pathogens Tap water: UV treatment extends the area of application and increases safety. Spring water, surface water: Guarantees constant water quality that is flawless from a bacteriological point of view. Storage water in containers (caravan, boat...): Use of stored water for sanitary purposes.  Areas of application General nutrition, bath and shower Cooking Large-volume refrigerators Cold water fountains Aquarium Cleaning food  Advantages  Quick and easy installation Completely physical sterilisation through UV radiation Natural water treatment without additives and without the risk of chemical overdose No unpleasant taste or odour Effective methods for combating microorganisms that cause disease in humans No toxic by-products Low maintenance

Water sterilisation by UV irradiation The development of water sterilisation 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 make it possible to remove legionella, microbes, bacteria, viruses and protozoa while respecting the environment. The irradiation process is therefore an ideal solution for killing microorganisms in water and helps to make it drinkable from a bacteriological point of view. However, it is important to note that water is only considered drinking water once the chemical parameters have been checked and deemed satisfactory.  Applications - Origin of the water Rainwater: UV treatment extends the range of applications and offers increased safety during use Well water: Avoidance of possible contamination by pathogens Tap water: UV treatment extends the area of application and increases safety. Spring water, surface water: Guarantees constant water quality that is flawless from a bacteriological point of view. Storage water in containers (caravan, boat...): Use of stored water for sanitary purposes.  Areas of application General nutrition, bath and shower Cooking Large-volume refrigerators Cold water fountains Aquarium Cleaning food  Advantages  Quick and easy installation Completely physical sterilisation through UV radiation Natural water treatment without additives and without the risk of chemical overdose No unpleasant taste or odour Effective methods for combating microorganisms that cause disease in humans No toxic by-products Low maintenance

Water sterilisation by UV irradiation The development of water sterilisation 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 make it possible to remove legionella, microbes, bacteria, viruses and protozoa while respecting the environment. The irradiation process is therefore an ideal solution for killing microorganisms in water and helps to make it drinkable from a bacteriological point of view. However, it is important to note that water is only considered drinking water once the chemical parameters have been checked and deemed satisfactory.  Applications - Origin of the water Rainwater: UV treatment extends the range of applications and offers increased safety during use Well water: Avoidance of possible contamination by pathogens Tap water: UV treatment extends the area of application and increases safety. Spring water, surface water: Guarantees constant water quality that is flawless from a bacteriological point of view. Storage water in containers (caravan, boat...): Use of stored water for sanitary purposes.  Areas of application General nutrition, bath and shower Cooking Large-volume refrigerators Cold water fountains Aquarium Cleaning food  Advantages  Quick and easy installation Completely physical sterilisation through UV radiation Natural water treatment without additives and without the risk of chemical overdose No unpleasant taste or odour Effective methods for combating microorganisms that cause disease in humans No toxic by-products Low maintenance

Effective UV Disinfection for Safe Water – Chemical-Free Physical UV-C disinfection for reliable reduction of microorganisms directly in the water system The Cintropur UV2100 uses ultraviolet (UV-C) radiation to physically remove bacteria, viruses, and microorganisms from water. UV-C light disinfects the water, preventing microbial contamination. This method works without chemical additives, leaving the taste, odor, and composition of the water unchanged. UV disinfection occurs directly within the water system and leaves no residues or by-products. The compact unit can be flexibly integrated into pipelines with the appropriate connection sizes and is designed for low-maintenance operation. Physical UV disinfection provides a reliable reduction of microorganisms in water without residues or chemical by-products. It is important to note that water is only considered drinking water once chemical parameters have been checked and deemed safe. Versatile Applications of the UV Disinfection System The CINTROPUR UV2100 is suitable for a wide range of applications requiring reliable microbial reduction in water, including: Pharmaceutical industry Food and beverage industry Hospitals and medical facilities Swimming pools and water installations Water management Animal husbandry and breeding (e.g., chickens, rabbits, ducks) Benefits of Physical UV Disinfection with the CINTROPUR UV2100 The UV disinfection system offers several advantages over chemical methods: Simple and quick installation Purely physical disinfection using UV-C radiation Chemical-free natural water treatment No risk of overdosing No unpleasant taste or odor Effective reduction of pathogenic microorganisms No toxic by-products or residues Low maintenance requirements

Physical UV Sterilization for Hygienically Clean Water Effective UV-C disinfection without chemicals for reliable water hygiene The Cintropur UV4100 uses UV-C radiation for the physical disinfection of water and reliably reduces microorganisms such as bacteria, viruses, and protozoa. Water treatment is carried out entirely without chemical additives, ensuring that no by-products are formed and that taste and odor remain unaffected. The water flows through a reactor housing in which UV-C radiation inactivates microorganisms without leaving chemical residues. This makes the Cintropur UV4100 a natural and gentle method of water treatment. It is ideally suited for applications where hygienically safe water is required and the use of chemical disinfectants is deliberately avoided. Regular inspection and timely replacement of the UV lamp ensure that disinfection efficiency remains consistently high throughout the entire operating period. Where can the Cintropur UV4100 be used? This UV disinfection system is suitable for numerous applications with high requirements for water hygiene, including: Pharmaceutical industry Food and beverage industry Hospitals and medical facilities Swimming pools and water systems Water management Animal husbandry and breeding (e.g. chickens, rabbits, ducks) What are the benefits of UV sterilization with the Cintropur UV4100? Compared to chemical disinfection methods, physical UV disinfection offers numerous advantages: Easy and fast installation Purely physical disinfection using UV-C radiation Natural water treatment without chemical additives No risk of chemical overdosing No unpleasant taste or odor Effective reduction of pathogenic microorganisms No toxic by-products or residues Low maintenance requirements

Reliable and economical demineralized water treatment (demineralized water) is indispensable in sterile processing. However, processes, system status and operating costs are subject to constant change. As part of our basic on-site analysis, you will receive a well-founded and independent assessment of your existing demineralized water treatment system - directly at your location. Our consulting approach aims to identify optimization potential at an early stage and make it economically viable. Among other things, we look at Plant technology and dimensioning Equipment and feed technology Instruments used In sensitive environments such as hospitals, the quality of the demineralized water used is crucial - especially in areas such as sterile goods processing, laboratory diagnostics or medical technology. On request, we can also carry out targeted and professional water sampling at representative sampling points for a fee. Some of the water samples taken are analyzed on site using photometric measurements and then sent to an accredited laboratory. The results are documented in a clearly structured report - including an assessment and specific recommendations for optimization.

Focus on efficiency, quality and safety The supply of demineralized water (demineralized water) is of central importance in many areas of a clinic - for example in central sterilization, laboratory analysis or medical technology. At the same time, the requirements for efficiency, operational safety and hygiene are constantly increasing. Our on-site process analysis provides you with a structured evaluation of the existing demineralized water treatment - with a focus on efficiency, supply reliability and compliant implementation. Our consulting approach includes, among other things System survey and weak point analysis Recording the entire process chain - from the raw water supply to softening, desalination, filtration, storage and distribution systems. Comparison with the actual water demand Checking whether system capacities, retention times and storage volumes match the current and future usage situation. Evaluation of technical and organizational interfaces z. e.g. transfer points to medical technology, automatic rinsing cycles, instrument logistics, redundancy concepts, etc. Risk analysis with regard to microbiological and technical weak points incl. recommendations for sampling, avoidance of downtime contamination and material safety. Economic efficiency analysis Consideration of e.g. use of chemicals, personnel costs and optimization possibilities. As part of our process analysis, we work with you to determine The relevant withdrawal points in the supply system (e.g. after the demineralization plant, at points of consumption, in the return area) The correct sampling technique Possible influences on the measurement results (e.g. dead volume, stagnation, material compatibility) Requirements for microbiological and chemical-physical analysis Adapted to the medical requirements of the facility The aim of sampling is to obtain a realistic picture of the water quality in the facility and to identify potential risks at an early stage. Our independent analysis supports you in complying with regulatory requirements, strengthening internal quality assurance measures and ensuring the long-term operational safety of your demineralized water treatment. The results are documented in a clearly structured report - including an assessment and specific recommendations for optimization. Our process analysis creates transparency, identifies optimization potential and forms the basis for well-founded investment decisions or quality assurance measures. You receive clear documentation with specific recommendations for action - practical, independent and tailored to your clinic.

The reliable supply of demineralized water (demineralized water) to the AEMP is a critical factor for the flawless reprocessing of medical devices. Decision-makers in hospitals are faced with key questions: What are the requirements for water quality? Which pipe materials are suitable? How can a standard-compliant, hygienic and economical solution be planned and implemented? We support you in all project phases - from technical planning to material selection and implementation - with the following focal points: Determination of demand & load profiles: Analysis of peak consumption (e.g. washer-disinfectors, autoclaves), design of water treatment and storage solutions according to AEMP capacity. We take into account not only current but also future requirements. Requirements of current DGSV and AKI guidelines: Ensuring compliance with the required limit values for conductivity and silicates. Line design & material selection Technology concept: selection of suitable DI system technology Economic efficiency analysis: focus on life cycle costs, energy efficiency and maintenance costs. Our manufacturer-independent advice ensures that your investment functions reliably, compliantly and efficiently in the long term - in the interests of patient, operator and process safety.

The regular validation of the entire reprocessing process and its repeated implementation in the event of interventions or changes within the reprocessing process is an essential instrument for demonstrating process reliability. In the course of our work as technical experts, we verify the overall process, assist you with sustainable documentation, continuously monitor the effectiveness of the measures introduced, coordinate the involvement of all process participants and make recommendations for the involvement of authorised external accredited bodies and specialist companies.

The LOTUS MINI system is a device for the production, dosing and monitoring of chlorine dioxide for the disinfection of water and is available as a system with a capacity of 8 g/h (192 g/day) and as a system for up to 20 g/h (480 g/day). Chlorine dioxide is produced by the acid-chlorite process from diluted hydrochloric acid (HCl 9%) and sodium chlorite (NaClO2 7.5%). Chlorine dioxide production by LOTUS MINI can be controlled according to the flow rate of the water or according to a predefined setpoint. No chlorine dioxide is stored or saved, so neither chlorine dioxide gas nor concentrated solutions are produced outside the process application. LOTUS MINI is designed so that chlorine dioxide is generated in a special reaction chamber. Safety is ensured by multifunction valves at the injection points in the reaction chamber. The starting chemicals are stored in tanks and fed into the reaction chamber via suction lances. Integrated fill level sensors stop the pumps automatically when the tanks are empty. The Lotus Mini system is equipped with the following components: The Lotus control unit Dosing pumps for HCI (red) and NaCIO2 (blue) A pump for dilution water (grey) 3SEFL flow sensors to ensure increased safety An MFKT/V multifunction valve that regulates pressure and safety and acts as an antisiphon and drain valve A reaction chamber Injection valves 2 suction lances Advantages: Reaction under atmospheric pressure High stability of the chlorine dioxide solution No loss of CIO2 due to closed reaction chamber Use of diluted chemicals Functions: Immediate CIO2 production Proportional CIO2 dosing Flow monitoring input (flow alarm) Tank level monitoring (level alarms) Water meter connection Standby input Real-time production data Monitoring of pumps and flow sensors (SEFL) Continuous data storage with system data log (logbook in the menu) ERMES communication mA output Display of the next service date Optional USB data protocol Optional Ethernet module Optional internal GSM/GPRS modem Characteristics: CIO2 concentration: 2g/l Dosing pumps for HCI (red), NaCIO2 (blue) and dilution water (grey) 3 SEFL control sensors for monitoring pump dosing MFKT/V multifunction valve for pressure and safety, as antisiphon and drain valve Reaction chamber made of PVC Housing made of ASA (acrylonitrile-styrene-acrylate copolymer) Protection class IP65 (NEMA4x) for the LOTUS control unit and pumps Rotary control for easy programming Operating temperature: 0/45°C (32/110°F)

The LOTUS MINI system is a device for the production, dosing and monitoring of chlorine dioxide for the disinfection of water and is available as a system with a capacity of 8 g/h (192 g/day) and as a system for up to 20 g/h (480 g/day). Chlorine dioxide is produced by the acid-chlorite process from diluted hydrochloric acid (HCl 9%) and sodium chlorite (NaClO2 7.5%). Chlorine dioxide production by LOTUS MINI can be controlled according to the flow rate of the water or according to a predefined setpoint. No chlorine dioxide is stored or saved, so neither chlorine dioxide gas nor concentrated solutions are produced outside the process application. LOTUS MINI is designed so that chlorine dioxide is generated in a special reaction chamber. Safety is ensured by multifunction valves at the injection points in the reaction chamber. The starting chemicals are stored in tanks and fed into the reaction chamber via suction lances. Integrated fill level sensors stop the pumps automatically when the tanks are empty. The Lotus Mini system is equipped with the following components: The Lotus control unit Dosing pumps for HCI (red) and NaCIO2 (blue) A pump for dilution water (grey) 3SEFL flow sensors to ensure increased safety An MFKT/V multifunction valve that regulates pressure and safety and acts as an antisiphon and drain valve A reaction chamber Injection valves 2 suction lances Advantages: Reaction under atmospheric pressure High stability of the chlorine dioxide solution No loss of CIO2 due to closed reaction chamber Use of diluted chemicals Functions: Immediate CIO2 production Proportional CIO2 dosing Flow monitoring input (flow alarm) Tank level monitoring (level alarms) Water meter connection Standby input Real-time production data Monitoring of pumps and flow sensors (SEFL) Continuous data storage with system data log (logbook in the menu) ERMES communication mA output Display of the next service date Optional USB data protocol Optional Ethernet module Optional internal GSM/GPRS modem Characteristics: CIO2 concentration: 2g/l Dosing pumps for HCI (red), NaCIO2 (blue) and dilution water (grey) 3 SEFL control sensors for monitoring pump dosing #BBD0E0 »

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" - 4 x 6 PVDF+FP+CE 

This injection valve made of polyvinylidene fluoride (PP), which is designed for all emec dosing systems, is screwed into the pipe and is suitable for dosing both chlorine and pH minus. LOTUS MINI injection valve 1/2"- 4x6 (PP+EP+CE) Opening pressure: 0.3 bar

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. LOTUS MINI injection valve 1/2"- 4x6 (PVDF+FP+CE+C276) Opening pressure: 3 bar

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. LOTUS MINI injection valve 1/2" - 6x8 PVDF+FP+CE+C276, 0.3 bar