Your Most Preferred Choice for Distilled Water System Laboratory Purifier
- Water is transformed to a gaseous state with heat for purification.
- Easy installation with a professional team.
- Quality checked for sensitive applications.
- Flexible and customizable as per different industry standards.
- Hassle-free cleaning and maintenance.
NEWater: Your Distilled Water System Laboratory Purifier Manufacturer in China
For 20 years, NEWater has been working relentlessly to offer the perfect water purification solutions to various industrial and domestic setups. Our laboratory distilled water systems ensure to produce the purest water. So, they are widely used across medical, pharmaceutical, cosmetic, microbiological, chemical, automotive, and other sensitive applications. The purity of the water further guarantees the safety of the end-users. If you prioritize your customer safety and want to maintain the standard of your products, choose NEWater.
NEWater Brings for YouDiverse Distilled Water System Laboratory Purifier
Your Distilled Water System Laboratory Purifier Supplier
NEWater is a reputable name that offers powerful water purification solutions for different applications. We believe in strict quality control and all our laboratory distilled water systems are capable of removing all impurities from water and making it inert.
They can help in successful laboratory applications in hospitals, veterinary care centers, pathology centers, biology labs, etc. In addition, we will safely ship and deliver your order to your doorstep.
5-stage Purification System Ensures Laboratory Water Quality
Raw water pretreatment system. PP fiber filter + AC filter + water softener.
Reverse osmosis system. The high removal rate of more than 99% for high valent ions, colloids, bacteria, and organic matter with a molecular weight greater than 300 Dalton (including endotoxin).
Ultra-pure system. The ion exchange resin uses H+ to exchange cations to discharge water from the filter and OH- to exchange anions to discharge water. The replaced H+ and OH- combine to produce H2O, and the ultrapure column is filled with ultrapure water core grade resin, which has water resistance up to 18.25 MΩ.cm.
Why Choose NEWater as Your Distilled Water System Laboratory Supplier
1. Polyethylene injection molding pretreatment system, easy to replace, no other instruments required. (PP+AC+KDF+UF) extends the life of the extended membrane.
2. Exhausted double flushing function can double the life of consumables, double flushing of reverse osmosis membrane
flushing integrated circuitry automatic control, high-end configuration.
NEWater Distilled Water System Laboratory Pays More Attention to Details
3. PE two-stage polishing, resin cartridge to ensure water quality. Filled with Rohm Haas and Dow, low TOC spare parts.
4. Circuit tube separated from the water. Safer, more reliable, simple layout, easy to identify. Different tube colors and smooth layout.
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.
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.
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.
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?
- As the voltage and frequency of different countries are different, we first need the local voltage and frequency of electricity.
- How many gallons the water requirement per hour is
- The water quality of the source water and what requirements need to be met
- If you need to provide on-site installation services
Does the Equipment Need to be Installed On-site?
- 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.
- 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.
- 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？
- We provide free installation instructions, with instruction manuals and installation videos
- 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
- 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.
- 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
- 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.
- 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.
What’s 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?
- 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.
- 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.
- During the warranty period, NEWater provides all kinds of professional technical support, and if necessary. We also provide remote video guidance services.
- 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.
Your Distilled Water System Laboratory Purifier from NEWater
NEWater distilled water system lab purifiers are known to perform the most powerful water purification process. They use heat to evaporate water, then the vapors are collected, condensed, cooled, and stored as pure water in a condenser. In this way, unwanted inorganic compounds are eliminated. In addition, distillation keeps the water free of non-volatile macromolecular organic compounds.
Laboratory water distillation systems also help get rid of harmful heavy metals, including lead, arsenic, and mercury. In addition, they keep the water free of calcium, magnesium, and other soluble minerals, as well as other biological threats, and ensure a stable supply of high-purity water to the lab.
So if you need a distilled water system lab purifier, call NEWater today.
The Ultimate FAQ Guide for Distilled Water System Laboratory.
Laboratories’ most coveted solvent is unquestionably water. Water with different qualities is utilized distinctively to different effects. High-quality laboratory-grade water is typically generated using varied mechanisms. Distillation, for instance, is commonly used to generate laboratory-grade distilled water, which is primarily used as a cleaning agent and in general lab applications. The article beneath intends to elaborate further on laboratory water distillers and the distinct roles of the distilled water they provide.
- What is a Distilled Water System Laboratory?
- How do Distilled Water Systems Laboratory Operate?
- What is The Chief Uses of Distilled Water Systems Laboratory?
- What is Distilled Water Systems for Laboratories Made of?
- Which Impurities Are Eliminated by Distilled Water Systems Laboratory?
- What are The Benefits of Using Distilled Water Systems Laboratory?
- Which Quality of Water is Generated by Laboratory Water Distillers?
- How Much Do Distilled Water Systems Laboratory Cost?
- Which Maintenance Practices Are Needed by Laboratory Water Distillers?
- How Much Energy Is Used by Distilled Water Systems Laboratory?
- Which Pretreatment Technologies are Used in Distilled Water Systems Laboratory?
➣What is a Distilled Water System Laboratory?
A distilled water system laboratory is a water purification machine that eradicates objectionable minerals and other contaminants to produce laboratory-grade distilled water. Laboratory water distillers can eliminate up to 99.9% of unwanted impurities such as chemicals, minerals, metals, and microorganisms ultimately producing purified water. The distillation technology they employ dates back to ancient 200 AD but has been advanced to elevate efficiency.
They generally generate a higher grade of purified water than water deionizer systems. NEWater manufactures distinctively designed laboratory water distillers for both small and industrial-level laboratories. They essentially boil water to the point of evaporation before ultimately condensing the steam. The feed water is however pretreated using media filters to eliminate suspended solids and colloids.
➣How do Distilled Water Systems Laboratory Operate?
Water distillation is a process that has been widely exploited since 200 AD. It was initially used to desalinate seawater by alienating the dissolved salts. Thanks to innovation, the technology has been massively improved with respect to output and energy efficiency. Simply put, the distillation process is an imitation of the natural rain formation process.
Using a heat source, the feed water is boiled until it converts into vapor. Once the water reaches its boiling point, the heat is maintained at that temperature to facilitate optimal vaporization. Constituents with a higher boiling point than the water are left behind as the water converts into steam. These include illness-causing microorganisms, dissolved solids, minerals, heavy metals, and chemicals.
The vapor, which is essentially purified water, is then driven into a condenser. A decrease in temperature prompts the vapor to convert back into liquid form. The distilled water is then funneled into a storage tank ready for post-treatment or immediate use. Click on the link below to watch a video illustration of the water distillation process.
➣What is The Chief Uses of Distilled Water Systems Laboratory?
Laboratory water distillation systems are principally used to alienate impurities from water consequently producing purified water. The distilled water they produce is considerably inert meaning it is ideal for varying laboratory applications. It has a relatively lower contaminant concentration compared to deionized water. They are mainly used to generate water for sterilizing laboratory equipment as well as media preparation.
Using distilled water from laboratory distillers abolishes the threat of contamination. In medical laboratories, distilled water is also used to sterilize the operators’ hands. It is also used in intravenous injections by veterinarians. Water distillers are also utilized in other fields such as locomotives, cosmetics, biology, and medical fields.
➣What is Distilled Water Systems for Laboratories Made of?
Laboratory water distillers are generally simply designed machines made of various components that work cohesively to produce distilled water. As a user, you must understand your distiller and its crucial components. Underneath is a breakdown of the chief components that make up a functional laboratory water distiller.
● Boiling chamber.
The water to be distilled (feedwater) is pumped into the boiling chamber where it is heated until it boils. The boiling chamber is typically vented and the vapor formed from evaporating the feed water is driven through the vent to the condenser. The alienated impurities, which include microorganisms and minerals, are left in the boiling chamber.
● Heating source.
The heating source is customarily attached to the boiling chamber. It provides the heat that boils the feed water to the point of evaporation. The heating source can be powered by renewable energy sources like solar and wind or non-renewable energy sources like fossil fuels.
● The condenser.
The vapor from the boiling chamber is passed to the condenser through a vent. The condenser is characteristically a coil of tube typically made of stainless steel. A high-energy fan located at the top of the distiller usually chills the steam, ultimately generating droplets of water.
● Post-treatment filter.
Certain pollutants such as Volatile Organic Compounds (VOCs) often escape the distillation process and are found in distilled water. Their removal necessitates a post-treatment system such as an activated carbon filter. The AC post-filters eliminate VOCs, dissolved gasses, and other volatile chemicals through adsorption.
➣Which Impurities Are Eliminated by Distilled Water Systems Laboratory?
Distilled water systems are greatly revered because of the diverse impurities they remove from feed water. In fact, laboratory distilled water systems edge out water deionizer systems when it comes to the range of pollutants eliminated. They eradicate ionic, biological, inorganic, and organic impurities. Typically, a quality distilled water system laboratory will eliminate 99.9% of unwanted pollutants from your feed water.
The inorganic impurities they eliminate include nitrates, water hardness minerals, iron, fluoride, asbestos, barium, mercury, arsenic, lead, and copper. The biological impurities ejected from the water include Cryptosporidium, bacteria, cysts, viruses, chlamydia, fungi, and Giardia. Laboratory distillers are in fact capable of eliminating virtually all biological pollutants from water.
In addition, they remove organic pollutants such as growth hormones, solvents, insecticides, herbicides, fertilizers, and antibiotics. This diversity in the range has massively proliferated the use of laboratory distillers as laboratory water purification systems.
➣What are The Benefits of Using Distilled Water Systems Laboratory?
Most users of distilled water systems laboratories regard their experience with them as highly rewarding. Below, we are going to look at the high rewards gained by users of NEWater’s laboratory water distillers.
● High purification rate.
NEWater’s distilled water systems can generate distilled with a purity level of up to 99.9%. This means that up to 99.9% of the impurities residing in the feed water are effectively removed. They eliminate a range of contaminants despite their dissimilar attributes. For instance, lab water distillers eliminate virtually all biological impurities.
● Return on investment.
Despite being pricey assets, distilled water systems laboratories guarantee sufficient returns on the investment. When compared to buying distilled water, generating your own distilled water is significantly cheaper and more dependable. Additionally, they hardly necessitate costly maintenance practices and they are environmentally friendly.
● No installation.
Other water treatment systems necessitate installation, which can be relatively costly. Distilled water systems laboratories, however, only need to be plugged into a power source. They are essentially on-the-go systems that are easy to get up and running. This makes them time-conserving and cost-efficient laboratory water purification solutions.
➣Which Quality of Water is Generated by Laboratory Water Distillers?
Distilled water systems laboratories generally generate distilled water for laboratory use. This is essentially purified water with considerably high purity levels. The distillation process employed to generate the distilled water eradicates numerous pollutants hence the impeccable purity levels.
Electrical conductivity is the most effective parameter used to measure the quality of distilled and purified water. Essentially, it evaluates the water’s ability to pass an electrical current. As a sign of its high purity levels, distilled water has a conductivity of 0.5 to 3 µmhos/cm. The lower the electrical conductivity, the purer the distilled water is.
The TDS level is also another crucial parameter used to grade distilled water. Laboratory water distillers shrink the total dissolved solids concentration to below 10 mg/L. Distilled water is characteristically inert hence it is suitable for use in diverse laboratory applications.
➣How Much Do Distilled Water Systems Laboratory Cost?
With cutting-edge technologies being adopted annually, the cost of generating distilled water using laboratory water distillers continues to surge down. Production costs have massively dropped and this has translated into more affordable water distillers. The operational costs have equally decreased, especially because of the big stride made in economizing the power consumption of the distillation process.
Bearing in mind that various factors determine the price of distilled water systems, we encourage prospective clients to send quotation inquiries via our website. The primary factors that determine the cost of distilled water systems laboratory include the production capacity, heating element deployed, and the level of customization.
Their operational costs are comparatively cheaper given that they hardly demand installation. The common operational costs incurred include labor, feed water purchase, maintenance, and post-filtration. The decrease in energy consumption rates is particularly mesmerizing (estimated to be 50%). Most importantly, the dedication of our engineers to develop more efficient and economical solutions promises more affordable laboratory water distillers in the near future.
➣Which Maintenance Practices Are Needed by Laboratory Water Distillers?
The cost-efficiency of laboratory water distillers is mainly facilitated by their low-maintenance expenditures. They only necessitate cleansing of the boiling chamber, which is often subject to the buildup of unwanted pollutants at the bottom. The accumulation of calcium and magnesium ions in the chamber is likely to deteriorate the distiller’s performance or even prematurely damage it. To clean your distilled water system laboratory, you need to follow the following steps.
● Step 1.
Before cleaning your laboratory water distiller, you must first switch off the system. In addition, detach the removable lid from the boiling chamber. Fill a nearby container or sink with water and pour vinegar, lemon, a descaling agent, or lime juice into the water.
● Step 2.
Immerse the lid into the solution you just prepared and let it soak in for a while. For non-removable lids, use a cloth or brush submerged in the cleaning solution to rigorously scrub the lid.
● Step 3.
Add the cleaning solution you are using into the boiling chamber and pour in water. The cleaning agent will detach the scales from the boiling chamber. Leave the solution in the boiling chamber for a while. You can also swirl the chamber to make certain the cleaning agent comes into contact with all the scales.
● Step 4.
Get rid of the cleaning solution in the boiling chamber and sufficiently rinse it with water. You can use warm water and repeat the rinsing process several times. Give the distiller some time to dry up and then plug it into the power source. Do not forget to place the lid at the top of the boiling chamber.
➣How Much Energy Is Used by Distilled Water Systems Laboratory?
The heating element in the distilled water system laboratory is mainly powered by electrical energy. In fact, electrical consumption is the largest operational cost of water distillation systems. Water distillation systems have come a long way when it comes to energy efficiency. Technological advancements inefficient energy use have turned distilled water systems for laboratories into efficient and economical purification systems.
A typical water distillation system will necessitate 3kWh of electrical power to generate a gallon of distilled water. This translates to affordable power bills and generally low production expenses. Assuming that the payment rate of a unit of electricity is $ 0.1, the cost of distilling a gallon of water amounts to $0.3 per gallon. It is however worth noting that the payment rate in different regions is likely to differ slightly.
➣Which Pretreatment Technologies are Used in Distilled Water Systems Laboratory?
Distilled water systems laboratories are commonly regarded as high-output solutions capable of eliminating distinct impurities. Their success rate in distilling water is however partly influenced by the pretreatment mechanism employed. Here, we discuss some of the high-level pretreatment technologies used to make laboratory water distillers more effective and economical.
● Sediment filters.
When sourcing your feed water from rivers or underground wells, it is recommended that you first subject it to sediment filters. You may opt for multimedia filters or conventional pressure sand filters to eradicate particles, dust, debris, and other suspended solids, which might build up on the boiling chamber.
● Activated carbon pre-filters.
If your feed water depicts higher concentrations of volatile organic compounds (VOCs) and chlorine, you should employ an activated carbon filter. They also improve the water quality by removing organic chemicals, which give water awful odors and tastes.
- Water softener.
A water softener system mitigates the accumulation of limescale on the boiling chamber. They simply remove hardness ions (calcium Ca2+and magnesium Mg2+) using the ion exchange process thereby mitigating the devastating effects of scale buildup.