Your Most Preferred Choice for Laboratory Water Purifier

  • Provisions for maintaining the desired quality in purified water.
  • Application-based and R&D-backed design.
  • Easy to integrate into any laboratory system.
  • Cost-efficient and saves 50% of the investment.
  • WHO compliant and ISO certified.
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    NEWater: Leading Laboratory Water Purifier Makers in the World

    NEWater functions with the motto of providing water purifying solutions for various industries and applications. Our laboratory water purifiers use advanced RO, UV, UF, DI, activated carbon pretreatment, distillation, and other filtration technologies to prepare water for sensitive research purposes. These purifiers can remove all the unwanted contaminants and replenish the required elements in the water. Further, these can reduce the investment and maintenance of any laboratory operation. So, to get more accurate results with your laboratory experiments and enhance its standards, choose NEWater water purifiers.

    NEWater Brings for YouDiverse Laboratory Water Purifier Makers

    Lab Water Purification System

    Our lab water purification systems ensure to deliver the specific quality of water you need for a particular lab application. They are designed with advanced equipment for reliable and consistent performance.

    Laboratory DI Water System

    The laboratory DI water systems from NEWater use an advanced deionization method to eliminate positively and negatively charged harmful ions from the water. They come with powerful resins.

    Deionized Water System for Laboratory

    NEWater deionized water systems for laboratories are ideal for purifying and softening water derived from various sources. We can customize our water systems based on your laboratory applications.

    RO DI Water System for Laboratory

    These laboratory water purification systems use reverse osmosis and deionization mechanism for water purification. These come with semipermeable membranes for purifying water using the RO process. Besides, they have cationic and anionic resins for the deionization of the water.

    EDI Water Purification System for Laboratory

    NEWater EDI water purification systems for laboratories are engineered with powerful electrodeionization technology. They lessen the amount of hardness and conductivity in the water.

    Ultrapure Water Systems for Laboratory

    We manufacture ultrapure water systems for laboratories that can make the water free of the tiniest virus and germs. They work without electricity, making them more cost-effective for you.

    Your Most Advanced Laboratory Water Purifier Manufacturer

    Efficient design and reliable performance go hand in hand with the laboratory water purifiers from NEWater. Our powerful lab water purifiers with advanced purification and water treatment technologies are ideal for cosmetic, microbiological, cosmetic, chemical, pharmaceutical, and other laboratories. Further, we strictly adhere to WHO guidelines as many of our water purifiers are used for the treatment of water used in injections.

    Our purifiers have international CE-certified equipment, and they only ensure the performance of global standards. Further, we take utmost care in the safe transportation and doorstep delivery of your product.

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    Laboratory Water Purifier detail

    NEWater Laboratory Water Purifier Advantages

    1. ABS material, high-temperature resistance, corrosion resistance.
    2. Imported quick insert filter, easy to replace.
    3. Support RO water, ultra-pure water, two kinds of water out.
    4. Configuration front-end pretreatment, longer service life
    5. online monitoring of water quality, detection of ultra-pure water resistivity.
    6. Equipped with external pressure barrel, multi-functional water tank.
    7. Provide OEM support.
    8. Factory direct sales, high-cost performance.

    NEWater Provides You With One-to-one Design Solutions

    Humanized design:
    Intelligent UV control system. Standard UV lamp for water tank, equipped with UV lamp control system, which can realize the program control of UV lamp and effectively prolong the service life. Adopt a standard water tank air filter to prevent Co2 and microorganisms in the air from entering the water tank and affecting the water quality.

    One-touch disinfection function:
    The host has a one-key disinfection function and pipe disinfection control system, which can disinfect the host pipe and water tank quickly to ensure water quality.

    Laboratory Water Purifier design
    Laboratory Water Purifier application

    NEWater's Laboratory Water Purifier Application

    Independent water extraction:
    Real-time parameter display of mobile water extraction handle, color screen display interface, real-time display of water extraction parameters such as resistivity, water extraction rate, water tank water level, etc.

    Real-time dynamic monitoring of water quality:
    Real-time clear display of conductivity/resistivity, temperature, tank water level, work status, quantitative water extraction, consumables service life, and other information.

    How NEWater Ships Your Laboratory Water Purifiers

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    NEWater Mission:Bring New Life for Water

    NEWater has an independent large-scale production workshop, which is convenient for the control and supervision of product production quality. Strictly abide by production standards and provide detailed guarantees for all projects.

    Production workshop

    NEWater establishes SOP standardized operation process and strictly implements the work process. The professional project installation team, implement 5S on-site management. Equipped with standard safety facilities, investigating access conditions, and short construction time.

    Operation example

    The safe transportation process does not have to worry about product damage and extends the construction period. NEWater has provided system equipment to thousands of companies around the world, which guarantees absolute product transportation.

    Production and transportation 

    detail (1)

    seawater desalination data sheet

    Seawater Desalination System data sheet

    How Long does the General Production Cycle Need to Wait?

    NEWater’s treatment types of equipment are divided into a large system and a small system according to the water volume. The equipment is divided into portable water-making equipment, small modular equipment, skid-mounted equipment, and container-type equipment. According to different water volumes and customer requirements, we provide customized services.

    Conventional small equipment takes 3-7 days, and large equipment takes 2-3 months. This is based on your requirements and water volume.

    If I Need to Customize Equipment, What Data Need to be Provided?

    1. As the voltage and frequency of different countries are different, we first need the local voltage and frequency of electricity.
    2. How many gallons the water requirement per hour is
    3. The water quality of the source water and what requirements need to be met
    4. If you need to provide on-site installation services

    Does the Equipment Need to be Installed On-site?

    1. Portable and small equipment — This is plug and play, it doesn’t need to be provided installation services. According to our instructions, you can install by yourself.
    2. Small modular equipment, skid-mounted equipment, and container equipment-we will reserve the interface for docking. If there are installation workers, we will provide installation instructions and installation instructions. If necessary, we can also send someone to install it.
    3. How to provide installation instructions —— We have installation instructions and installation videos. If necessary, we can provide free remote software to help you with remote video installation instructions.

    How to Charge for Installation Service

    1. We provide free installation instructions, with instruction manuals and installation videos
    2. Remote video installation guidance. If it is a large piece of equipment and the customer needs to install it by himself, then we will also provide free remote installation guidance service, but we need to plan a good time, within our working hours. Our working hours are from 9 o’clock to 18 o’clock Beijing time
    3. We send workers to install it. This needs to be based on the size of the project. If we have been designated to install it in the early stage, the installation service abroad will belong to our scope of work, and no additional charge is required.
    4. If we need to send someone to install it temporarily, we need to provide different charges according to different countries, installation technical requirements, and different types of technical work. Welcome to inquire.

    How to Transport the Equipment?

    There are several types of transportation, sea, air, and express

    1. If it is a small device and requires fast speed, we can provide door-to-door service by air and express, the normal transportation cycle is 5-10 days.
    2. If it is skid-mounted or container equipment, it is more appropriate to use the shipping method. The normal transportation cycle is 20-40 days.

    Whats Your Payment Method?

    Small equipment needs payment to delivery

    For skid-mounted equipment and container equipment, 50% is prepaid, 30% is charged after video inspection, and 20% is charged before shipment.

    Of course, we provide you with flexible ways of cooperation. Become our agents, and have more flexible support. Welcome to contact us.

    Do You Provide Maintenance Services?


    1. NEWater provides free installation guidance and a one-year product warranty service. During the warranty service period, if there is an equipment problem, we provide free equipment repair or replacement services. If it is a manual operation, a fee will be charged. We can provide the required equipment replacement.
    2. We provide life-long after-sales service. NEWater has a full set of equipment and accessories, which can be replaced. Don’t worry about the failure of after-sales and maintenance.
    3. During the warranty period, NEWater provides all kinds of professional technical support, and if necessary. We also provide remote video guidance services.
    4. After the warranty period, NEWater also provides life-long after-sales maintenance, which requires a certain amount of manual service. There are also many matching accessories that can be replaced, so there is no need to worry about the later operation of the equipment.

    Do You Provide Design Services?

    Yes, we do.

    For conventional small equipment, NEWater has standardized equipment. For large-scale skid-mounted and container equipment, we can design a process that meets the needs according to different water quality requirements.

    At the same time, we carry out three-dimensional drawing designs according to different requirements and then communicate with customers to confirm.

    After the design confirmation is completed, we then proceed to custom processing. So you don’t have to worry about our design and production capacity. We will provide you with the most professional technical support.

    Laboratory Water Purifiers from NEWater

    NEWater laboratory ultrapure water machine categories of water treatment machine are pure water machine, reverse osmosis pure water machine, water purifier, countertop water purifier, terminal water purifier, etc. The working principles we apply in the laboratory ultrapure water machine are mainly reverse osmosis activated carbon ultrafiltration, reverse osmosis, high dialysis, etc.

    Considering the high standard of laboratory water, our water purifiers use various filtration processes. In addition to complete cartridges and filtration systems, our portfolio of terminal water purification systems includes primary ultra-pure water systems, secondary pure water systems, reverse osmosis systems, and distillers.

    In addition, our laboratory water purifiers take care of five stages of contaminants, including organics, inorganic ions, bacteria, colloids, and harmful gases. They work on pretreatment methods, reverse osmosis technology, DI and EDI processes to eradicate large, small, and dissolved impurities.

    Our laboratory water filters can be easily programmed and customized to specific industry standards, so if you need a reliable laboratory water filter, contact NEWater today.

    The Ultimate FAQ Guide for Laboratory Water Purifier.

    Water is undoubtedly the most utilized solvent in laboratory applications. The severity of the application often influences the grade of water used. Purified water and ultra-pure water are mandatory for applications such as electrochemistry and cell culture. It is almost impossible to derive purified water from taps or other natural sources hence most laboratories have water purification systems. The article beneath will expound on laboratory water purifiers by answering the frequently asked questions.

    Figure 1 Laboratory water purifier.

    What is a Laboratory Water Purifier?

    A laboratory water purifier is a specialized water treatment system used to eradicate biological, chemical, and physical pollutants from water. They generally provide distinct grades of purified water which is then used in general lab applications, cleaning, and other complicated applications like cell and tissue culture. Different breeds of laboratory water purifiers are manufactured, all producing distinct grades of laboratory water.

    They employ numerous water purification technologies, which can be selectively utilized to eradicate specified contaminants. Customarily, laboratory water purifiers exploit reverse osmosis, water deionization, distillation, and UV sterilization among others. They are rigorously tested and rightfully certified for their impeccable quality, which ensures the purified water generated complies with laboratory standards.

    Which Processes Are Used in Laboratory Water Purifiers?

    General water purification processes are classified as biological, chemical, or physical. Physical purification processes include sedimentation, distillation, and filtration while chemical processes include chlorination and flocculation. Underneath, we briefly look at the common water purification processes used in laboratory water purifiers.

    ● Water deionization.

    Water deionization is a purification mechanism that exploits ion exchange resins to substitute pollutant ions with non-objectionable ions. Laboratory water deionizer systems generally produce type II purified water, which can be used for general applications such as media preparation and sanitization.

    The cation exchange resin discharges hydrogen (H+) ions, which consequently trade places with the cationic impurities attracted to the high-affinity active sites. The anion exchange resins emit hydroxyl (OH-) ions, which swap places with the anionic pollutants. In the end, purified water devoid of dissolved ionic impurities is harvested.

    ● Reverse osmosis.

    Reverse osmosis is a highly effective membrane filtration process that eliminates dissolved solids, microorganisms, minerals, and other constituents using partially permeable membranes. Pressure is applied to the feed water, forcing it to penetrate through semi-permeable membranes. Up to 99.7% of the dissolved solids, as well as other high-molecular-weight substances (roughly 150-250 Daltons), are left on the retentate side while the water molecules and slight concentrations of low-molecular-weight solutes pass to the permeate side.

    ● UV water sterilization.

    Ultraviolet sterilization is chiefly used to eliminate waterborne viruses, bacteria, and other harmful microorganisms. It is a chemical-free process that destroys the DNA of microorganisms using UV rays. UV disinfection eradicates 99.99% of illness-causing microorganisms from water without altering the odor or taste. Here is a visual illustration to boost your understanding.

    Other processes such as distillation, ultrafiltration, and electrodeionization are also used in laboratory water purifiers. For better outputs, several technologies such as reverse osmosis and water deionization are used jointly to supplement each other.

    Figure 2 Water deionization process.

    Why Should I Use a Laboratory Water Purifier?

    Laboratory water purification systems are universally coveted because there is a global undersupply of naturally occurring purified water. The use of non-purified water, which essentially includes ordinary tap water, would temper with laboratory processes, results, and products. Using a laboratory water purifier also ensures your laboratory apparatus are not left with spots after cleaning. The absence of biological pollutants in the purified water allows for spot-free cleaning.

    Furthermore, they help you avoid the devastating effects caused by ionized water such as scaling. You will not have to frequently repair or replace worn-out appliances due to accumulation of scale. Generally, laboratory water purifiers make certain you have a reliable supply of laboratory-grade water at your disposal.

    Which Types of Laboratory Water Purifiers Are Available?

    Over the past decades, numerous water purification systems have been developed to gratify the ever-ballooning demand for purified water in homes, businesses, and industries. With laboratories accounting for one of the largest consumers of purified water, NEWater has developed an array of laboratory water purifiers. Here is a broader look into these systems.

    ● Distilled water systems.

    Distilled water systems for laboratories are first-rate distillation systems that remove impurities through evaporation and condensation to generate pure water. Our laboratory water distillers function similarly to the customary rain formation process. They eliminate impurities such as bacteria and viruses, dissolved solids, arsenic, and fluoride to supply high-quality pure water.

    Figure 3 Laboratory water distiller.

    ● Laboratory water deionizer systems.

    Water deionizer systems for laboratories produce Type II deionized water via the ion exchange process. They primarily remove all ionized impurities and are divided into dual-bed deionizers and mixed-bed deionizers. However, electrodeionization systems are gradually taking over as the preferred water deionization equipment. Water deionizers are made more efficient and economical by integrating them with reverse osmosis systems.

    ● Reverse osmosis systems.

    Individually, reverse osmosis systems generate Type III water, which is not necessarily purified water. They are however commonly used in laboratory water purification systems but with supplemental systems. Laboratory reverse osmosis systems eliminate TDS concentrations, microorganisms, proteins, minerals, and metals. They are often boosted by the assimilation of polishers such as UV water sterilizers and EDI water systems.

    ● UV water sterilizers.

    Ultraviolet water sterilizers are used to purify water by selectively eliminating harmful microorganisms from water. They utilize UV germicidal rays to attack and annihilate the genetic core of the microbes. Laboratory UV water sterilizers eradicate up to 99.99% of bacteria, viruses, fungi, and other harmful protozoans.

    Which Pretreatment Systems Are Used in Laboratory Water Purifiers?

    The majority of laboratory water purification systems are constrained in the range of impurities they can eliminate. Their primary components could also suffer premature fouling if they are exposed to certain contaminants. Here, we look at the varying systems assimilated to laboratory water purifiers to precondition the feed water.

    ● Membrane filtration systems.

    Membrane filtration systems, specifically ultrafiltration and nanofiltration systems are considered more effective pretreatment systems than conventional media filters. They eliminate turbidity, dust particles, suspended particles, and small amounts of dissolved solids. They can be used as pretreatment systems for reverse osmosis systems, water deionizers, and UV water sterilizers.

    ● Media filters.

    The commonly utilized media filters are multimedia filters, pressure sand filters, and activated carbon filters. Sand filters and multimedia filters are mainly used to remove suspended solids and colloidal particles while activated carbon filters are utilized to alter the chemical composition of the feed water. They eliminate chlorine, VOCs, and organic chemicals causing unwanted odors and tastes.

    ● Water softeners.

    Calcium and magnesium are responsible for water hardness. Whenever they accumulate on metallic surfaces, they cause scaling, which reduces the efficiency of the system. Cationic ion exchangers are primarily integrated to soften feed water with high concentrations of calcium and magnesium.

    Figure 4 Laboratory reverse osmosis system.

    How Do You Measure the Purity of Water Generated by Laboratory Water Purifiers?

    Laboratory grade purified water is typically compounded into three classes, Type I, Type II, and Type III. Varying parameters are used to grade the purified water as is explained below.

    ● Electrical conductivity/ resistivity.

    Purified water has low concentrations of dissolved solids and other ionized constituents. Therein, its electrical conductivity is significantly low. Its resistivity to electrical power is however quite high. Type I water, which is essentially ultra-pure water, has a conductivity of <0.056 µS/cm and a resistivity of >18 MΩ-cm. Type II water (deionized water) is purified water with a resistivity of >1 MΩ-cm and conductivity of <1 µS/cm.

    ● Total Organic Compounds (TOC).

    The concentration of total organic compounds in water depicts its quality. High-purity water has a low TOC level (roughly <10 ppb) while low-quality water has a high TOC level. Type II laboratory-grade water has a TOC concentration of <50ppb while Type III RO water has a TOC level of <200ppb. The other parameters used to gauge the quality of purified water include total dissolved solids (TDS) level, microbial count, and turbidity.

    Back to the guide ⇪

    Can Laboratory Water Purifiers Provide Ultra-Pure Water?

    Ultra-pure water is essentially water with exceptionally stringent purity levels.  It is categorized as laboratory Type I water and its common applications include tissue and cell culture, HPLC, mass spectrometry, and gas chromatography. The generation of ultra-pure water necessitates the use of ultra-pure water systems. The dominant ultra-pure water systems used in laboratories include EDI water systems and reverse osmosis di water systems.

    Customarily, ultra-pure water systems consist of several integrated water purification systems. NEWater manufactures highly-advanced ultra-pure water systems capable of generating high-purity water with a resistivity of 18.2MW/cm and TOC concentration of <10ppb. The microbial count is fundamentally non-existent owing to the use of UV water sterilizers.

    Figure 5 Laboratory ultra-pure water system.

    Back to the guide ⇪

    What Qualities Should a Good Laboratory Water Purifier Have?

    If you are looking at procuring a laboratory water purifier, you must begin by understanding the variety of equipment available. Secondly, you must scrutinize the imminent feed water to understand its contaminant concentration and compositions. Underneath, we evaluate the qualities you should look for when purchasing a laboratory water purification system.

    ● Quality of purified water produced.

    Does the purifier provide the right grade of laboratory purified water? A good laboratory water purifier for you must be able to produce the perfect grade of lab water your project demands. For instance, if you need Type II water, the suitable system should be a water deionizer system.

    ● The production capacity.

    What is the capacity and flow rate of the lab water purifier? The number of purified water gallons generated by the system should match the quantity of purified water your laboratory needs.

    ● Feedwater specifications.

    Is the purifier compatible with your imminent feedwater? The composition and concentration of your feed water should help you determine the perfect water purification technology and equipment for your laboratory.

    Back to the guide ⇪

    How Do You Install a Laboratory Water Purifier?

    Conventionally small laboratory water purifiers can be easily installed by the user using NEWater’s installation guide. They are characteristically plug-and-play systems that hardly necessitate the installation services of a professional. You can also procure a turnkey laboratory water purifier whose components are pre-assembled in a self-contained structure. These turkey purifiers take minutes to set up and operationalize.

    Our technicians provide installation services when the purification system is conventionally enormous and sophisticated. We charge friendly installation fees and provide free consultations. You can also request installation tutorials from our customer support team in case you get stuck.

    Back to the guide ⇪

    What is The Role of Reverse Osmosis in Laboratory Water Purifiers?

    Reverse osmosis is a popular water treatment technology whose application fields cut across numerous industries. It is exploited in laboratory water treatment applications for diverse gains. Reverse osmosis systems are either employed as standalone systems or as hybrid water treatment systems.

    In laboratory water purification systems, reverse osmosis is typically used as the primary purification process. Secondary and tertiary purification systems such as water deionization and UV sterilization are then employed to polish the RO water.

    Reverse osmosis generates Type III water, which is perfect for numerous laboratory applications like glassware cleansing, feed water use, and media preparation. The process ensures 95-99.7% of dissolved constituents are freed from the water.

    Figure 6 Laboratory water purification system.

    Back to the guide ⇪

    Can Water Deionizer Systems Be Used as Laboratory Water Purifiers?

    Yes. Water deionizer systems get rid of nearly all ionized components in water by exchanging them with non-pollutant ions. They generate laboratory-grade II water, which is characteristically pure water. The purity of the water is evidenced by the relatively low electrical conductivity (<1 µS/cm) and comparatively high resistivity (>1 MΩ-cm). In addition, they significantly decrease the level of total organic compounds(TOC) in the water (<50ppb).

    The microorganisms present in the deionized water are eliminated using ultraviolet (UV) light disinfection systems. The purified water they produce is used in clinical analyzers, sample dilution, media preparation, and electrochemistry.  Specialized deionizers are available for laboratory use.

    Moreover, they can be incorporated into hybrid water purification systems such as reverse osmosis di water systems. This ensures both ionic and non-ionic impurities are effectively eliminated and the purified water quality is elevated.

    Back to the guide ⇪

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