Our pharmaceutical water systems here at NEWater provide water of different treatment levels for various applications. These include potable water, purified water, highly purified water, and WIF, which is water that is used for injections. Our equipment deals with microbial pathogen removal, degree of purification, storage process, and distribution process. The purification begins with water disinfection and oxidation of organic substances. Bacterial pathogen content is also lowered. After that, the neutralization process occurs where hardness and conductivity are lowered by using resins to remove ions. Double filtration is used for the removal of substances with varying molecular weights.
These systems use post-treatment systems that use reverse osmosis technology and UV radiation, to ensure that all harmful substances are removed. This water is also used in medications intended for ophthalmic, nasal, ear, and cutaneous uses!
Our pharmaceutical water system uses a post-treatment system using reverse osmosis technology and UV radiation to ensure that all harmful substances are removed. This water is also used for eye, nose, ear, and skin medications!
NEWater at and ask our dedicated customer service team any questions you may have!
Pharmaceutical applications demand immense hygiene levels and this necessitates the use of pure and ultrapure water in most applications. Health regulatory bodies have set quality standards that purified pharmaceutical water must adhere to. Pharmaceutical water equipment facilitates the production, storage, and distribution of purified pharmaceutical water. NEWater specializes in the manufacture of pharmaceutical water machines customized to accommodate your specific application, capacity, and production rate.
A pharmaceutical water equipment is a water treatment plant deployed in pharmaceutical manufacturing to provide purified water for injection and other pharmaceutical processes. Purified water for essential pharmaceutical applications has to meet the set regulations of various bodies such as USP, JP, or Eur. Ph.
To meet high-quality water standards, pharmaceutical water systems eradicate ions with a high molecular weight, organic constituents, and disease-causing microorganisms. Using ultraviolet light or ion exchange, the pre-treated water is further purified until it meets the set standards.
Quite a good number of essential pharmaceutical applications revolve around pharmaceutical water. To adequately fulfill the demand for high-quality pharmaceutical water, NEWater develops versatile pharmaceutical water systems. Principally, pharmaceutical water systems are utilized to:
The value of pharmaceutical water equipment in pharmaceutical manufacturing is unmatched. They offer a much-needed solution to the demand for high-quality pharmaceutical water at affordable rates. By providing high-grade pharmaceutical water, they aid mitigate the negative implications of using untreated water such as contamination of solutions.
Appropriate programming of pharmaceutical water machines permits personalization of functions thereby ensuring users get the ideal quality of potable water. Additionally, they are programmed to generate water that meets certain set standards.
Purification of water for pharmaceutical applications can be achieved using various water treatment technologies. The different processes have varying purification rates and for ultra-pure water, several purification processes can be deployed. Underneath we discuss the three most commonly used purification processes in purified water systems in the pharma industry.
Ion exchange simply involves the alienation of unwanted ions and the subsequent replacement of those ions with desired ions. Essentially, ion exchange seeks to substitute calcium and magnesium ions with sodium thereby mitigating scaling. Ion exchange is commonly used to soften hard water and eradicate metals from water.
Pharmaceutical water systems can alternatively utilize distillation to eradicate dissolved solids from feed water. Distillation operates on similar principles to the natural rain formation process. The water is heated to the point of evaporation, the resulting vapor is condensed and collected in separate jars as fresh potable water while the dissolved solids are discarded as waste.
Using filters and semi-permeable membranes, reverse osmosis manages to remove both large constituents and smaller particles like dissolved salts. Using high pressure, the ordinary osmotic flow is distorted thus prompting the flow of water from the highly concentrated side to the less concentrated one. Frequent cleaning of RO pharmaceutical water systems is mandatory to mitigate microbial fouling.
Pharmaceutical water varies in quality depending on the imminent application. For high-grade pharmaceutical water meant for use in injections or as excipients and diluents, it is mandatory that a huge chunk of contaminants and other substances are ejected.
The pharmaceutical water equipment and packaging containers of the treated water also necessitate frequent cleaning and sterilization to thwart microbial contamination. Purification techniques utilized in purified water generation systems in the pharmaceutical industry are responsible for eradicating:
● Bacteria, viruses, and pathogens.
● Chemicals and dissolved solids.
● Metals.
● Microorganisms.
Back to the guide ⇪
For high-quality pharmaceutical water to be generated, the system in use must be endowed with components and processes that facilitate the reduction of pollutants to less than 1 ppm. Reverse osmosis pharmaceutical water systems have a pre-treatment chamber, which filters out large constituents.
They also have semi-permeable membranes that eliminate smaller solids and a post-treatment phase, which facilitates the mineral and PH adjustment of the water. Typical pharmaceutical water machines may also comprise a storage unit and distribution system.
Back to the guide ⇪
NEWater manufactures automatic pharmaceutical water systems to ease the user experience and lessen expenditure on labor. Our automatic pharmaceutical water equipment is easy to control and permits the pre-programming of productivity rates.
They are available in varying standard designs and dimensions, and customization is applicable upon request. Our standard pharmaceutical water purification systems support capacities ranging from 0.25 m3/h to 25.0 m3/h.
For order placement or further information, kindly contact our engineers.
Back to the guide ⇪
The market offers different pharmaceutical water systems with each system utilizing specialized water purification technologies. This results in differently priced systems based on the size, treatment process, sustainability, and operational costs.
A 1,500L/h pharmaceutical water machine using reverse osmosis and ultrafiltration typically consumes 9kW of power. The membrane-based pharmaceutical water treatment has a relatively low capital cost compared to a multi-effect distillation system. However, it has a higher cost of operation.
NEWater provides quotations on capital costs for pharmaceutical water systems upon inquiry. This ensures we provide our customers with accurate prices considerate of the system’s specifications.
Back to the guide ⇪
Pre-treatment in pharmaceutical water systems is immensely crucial given it eradicates multiple particulates and unwanted contaminants from raw water and protects the machinery from corrosion. Chemical dosing is often utilized in raw water pre-treatment to regulate chlorine levels and disinfect the water. The several processes often exploited to pre-treat raw water for pharmaceutical use include:
● Reverse osmosis.
● Microfiltration.
● Multimedia filters.
● Ultrafiltration.
Back to the guide ⇪
Post-treatment permits the readjustment of PH levels and remineralization of the purified water. The water generated from RO pharmaceutical water systems typically has pH levels ranging from 5 to 6, meaning it is marginally acidic. This could potentially corrode pipes and other vital equipment hence the need for post-treatment.
There are several ways to post-treat water meant for use in pharmaceutical applications. Primarily, you can post-treat your pharmaceutical water using either:
Pharmaceutical water post-treatment ensures the PH surpasses the saturation level. Post-treatment is determined by the desired pharmaceutical water quality.
Back to the guide ⇪
Just like ordinary purification systems, pharmaceutical water systems function by eliminating or lessening the concentration of unwanted impurities from raw water. Pharmaceutical water is greatly regulated meaning the purification processes involved must be highly effective.
Reverse osmosis generally generates purified water for non-pyrogenic pharmaceutical formulations. To produce water for injection (WFI), reverse osmosis is deployed to pretreat the water thereby thwarting the scaling effect and equipment corrosion.
Consequently, the distillation process (mainly multi-effect distillation) commences. Ordinarily, the resulting water meant for injection is deposited while hot in containers at 80 degrees Celsius prior to distribution.
Back to the guide ⇪
Various pharmaceutical applications demand varying qualities of potable and non-potable water. The water generated by pharmaceutical water systems differs in quality and its quality is often graded based on its suitability for specific applications. Often, distinct purification processes are employed to generate potable, pure, or ultra-pure of differing quality. The following are different qualities of water generated by pharmaceutical water machines.
Back to the guide ⇪
The utilization of reverse osmosis in pharmaceutical water equipments occurs in two broad forms. First, reverse osmosis is deployed as a pretreatment solution for feed water prior to further purification of the permeate using distillation, UV radiation, or other purification mechanisms. Reverse osmosis removes large and smaller contaminants from feed water, thwarts the scaling effect, and prevents corrosion of the machinery.
Alternatively, reverse osmosis is used to generate high-quality potable water for use in different pharmaceutical water machines. Reverse osmosis can eliminate up to 99.4% of contaminants present in feed water thereby producing freshwater suitable for human consumption as well as a solvent for certain pharmaceutical formations.
Back to the guide ⇪
Pharmaceutical water purification systems habitually utilize ultraviolet light radiation to disinfect pharmaceutical water. Strategic deployment of ultraviolet light specifically at 256 nm attacks the DNA of microorganisms thereby generating pure water free of disease-causing organisms.
UV light further inhibits the growth and replication of microorganisms and the intensity of the radiation determines the effectiveness of UV radiation. Typically, the use of ultraviolet radiation in pharmaceutical water systems guarantees an impressive effectiveness rate of up to 99.9%.
Back to the guide ⇪
NEWater manufactures a comprehensive array of standard and customized pharmaceutical water distribution systems. Our pharmaceutical water systems are fitted with adequate storage and a reliable distribution system for convenient use.
Production is carried out in strict adherence to WHO, cGMP, and Eur. Ph protocols and standards. The complete production of pharmaceutical water distribution systems is done in-house thereby granting us complete control over the plant’s quality.
Back to the guide ⇪
Pharmaceutical water equipment is often intricate and valuable systems with complex functional specifications. A substantial grasp of basic pharmaceutical water systems, however, doubles your chance of procuring the perfect system. Our consumers have often cited the following factors as key proponents in their successful purchase of premium pharmaceutical water equipments.
Certain pharmaceutical applications such as the generation of water for injection or hemodialysis necessitate high-quality potable water. To meet the objectives of your intended application, you must purchase a system with sufficient purification rates.
You will get efficient and thoughtful service from ShekeSaisi.
Ordinarily, different pharmaceutical enterprises will demand different amounts of purified or treated water depending on their operational scale. Your purchase should therefore be inspired by the system’s capacity to meet the daily targets for water quantity.
Pharmaceutical operations and products are often regulated by various organizations like WHO, cGMP, and Eur. Ph. It is essential that you first establish the existing regulations governing the use of pharmaceutical water systems and their products in pharmaceuticals.
Back to the guide ⇪
NEWater saves you the trouble and hassle of researching and inquiring about potential suppliers of pharmaceutical water systems. We are an independent manufacturer, committed to sufficiently fulfilling the local and global demand for pharmaceutical water treatment.
To ensure prospective buyers have unlimited access to premium purified water systems in pharma industry, we manufacture a wide range of products and ship them to hundreds of global destinations. From our website, you can request an accurate price quotation for certain pharmaceutical water systems and also seek technical advice.
Our product quality, prices, and after-sale services are unmatched. NEWater’s comprehensive purified water systems in pharmaceutical industry are available in standard and customized versions.
Back to the guide ⇪
We have elaborate delivery systems that facilitate the shipment and door-to-door delivery of pharmaceutical water systems in over 200 countries. NEWater further procures the services of reputable delivery service providers to ensure your system is delivered safely and promptly.
NEWater boasts of one of the best turnaround times averaging 3 to 7 days for smaller equipment and 2 to 3 months for conventionally larger systems. We exploit renowned routes and utilize safe transport modes such as air, sea shipment, and rail transport.
Back to the guide ⇪
Advanced pharmaceutical water purification systems deploy complementary purification processes for optimal results. This makes it possible to generate pharmaceutical water from virtually all forms of feed water. The deployment of varying purification mechanisms at various stages of the purification process facilitates the ejection of over 99% of unwanted contaminants from feed water.
Depending on the desired water quality, pharmaceutical water purification systems can treat both non-potable and potable water. Below are some water sources, pharmaceuticals utilize as feed water.
● Tap water.
● Groundwater.
● Brackish water.
● Seawater.
Back to the guide ⇪
The production of pharmaceutical water equipment with varying capacities ensures all pharmaceutical demands for purified water are adequately met. NEWater primarily manufactures standard pharmaceutical water systems with capacities ranging from 100 to 20,000 liters per hour.
We also manufacture customized pharmaceutical water machines with personalized capacities to accommodate diverse applications. For more information on the available capacity ranges of pharmaceutical water systems, reach out to our specialists.
Back to the guide ⇪
Yes. To deliver on customer demands not accommodated in our standard pharmaceutical water equipment, we manufacture customized systems on order. To make certain we capture your unique specifications, we design a blueprint of your pharmaceutical water plant using 3D computer modeling.
Typical customizations involve modification of the system’s voltage and frequency options, production rate, and capacity. To consult our engineers or order a customized pharmaceutical water system visit our website.
Back to the guide ⇪
To purify pharmaceutical water, storing it at high or extremely low temperatures, and distributing it necessitates quite a lot of power. The two primary purification processes used in pharmaceutical water systems, distillation, and reverse osmosis are immensely reliant on electrical or thermal power.
As an example, a 1,500 L/hr pharmaceutical water machine using multi-effect distillation uses approximately 561 kg/hr. of steam. An RO pharmaceutical water equipment on the other hand consumes approximately 2.25 kW of power to purify tap water.
Nonetheless, power consumption in pharmaceutical water systems is contingent upon a country’s voltage and frequency options. Similarly, the size and productivity rate of a pharmaceutical system influence the power consumption rate.
Back to the guide ⇪
To facilitate easy movement and varied application in different environments, pharmaceutical water systems are mounted on rails, skid-mounts, or containerized. Portable pharmaceutical water machines are often assembled at the production center and have uncomplicated user interfaces. You can order your portable pharmaceutical water system by simply getting in touch with NEWater’s engineers.
Back to the guide ⇪
To ensure the water produced by pharmaceutical water systems is up to the set standards, the relevant regulatory bodies certify quality systems and their respective manufacturers. NEWater holds a professional level 3 certification for being in compliance with environmental protection regulations.
NEWater’s purified water systems in pharmaceutical industry are lauded for being compliant with regulatory requirements set out by cGMP, Eur. Ph, USP, and JP. In addition, we are ISO : certified and our pharmaceutical water systems are holders of a high-tech production certification. Our high-quality systems make certain that your products are in line with the prevalent WHO guidelines.
Back to the guide ⇪
Skid-mounted pharmaceutical water systems are compact plants mounted on metal rails thereby easing the installation process. Typically, they have a small footprint and are easily portable. Similarly, containerized systems are built inside 20 or 40 feet containers endowed with adequate air conditioning.
NEWater offers varying standard options for skid-mounted and containerized pharmaceutical water systems. These systems include reverse osmosis systems, Multi-effect distillation systems, ultrafiltration systems, and ion exchange systems among others. Additionally, we customize the systems to maximally match the client’s specifications.
Back to the guide ⇪
Procuring spare components for your pharmaceutical water machine from NEWater is incredibly easy and convenient. From the comfort of your office/home, you can order your high-quality custom-built components by simply contacting NEWater. To uphold the unmatched quality of our accessories, much of the production is done independently.
Outsourcing of repair components is only considered when extremely needed and only the best parts are procured. In case you need a booster pump, RO membrane, media filter, filter cartridge, or ultrafiltration membrane, NEWater has your back. Our prices are conveniently affordable and we ship our accessories to your selected location.
Back to the guide ⇪
For the first 12 months post your purchase, your pharmaceutical water system is entitled to free repairs and/or replacements in case of a technical breakdown. In compliance with consumer protection acts, NEWater offers 1-year warranty protection on all our high-value products.
Our warranty period essentially grants you the liberty to scrutinize the quality, value, and productivity of your pharmaceutical water equipment. The warranty policy firmly details the grounds on which you can redeem your warranty protection. For instance, human-induced defects are not liable for warranty protection.
Back to the guide ⇪
NEWater provides physical on-site installation services to clients of conventionally large pharmaceutical water systems. The installation of our small-sized systems is pretty straightforward and does not necessitate professional aid. Our skid-mounted and containerized pharmaceutical water systems are plug and play thereby eliminating the need for professional installation.
For convenience, we also provide remote installation guidance using video tutorials, calls, and video calls. Additionally, our pharmaceutical water equipments have an attached user manual, which details the respective installation process. For installation aid, contact us via our address at .
Back to the guide ⇪
As a manufacturer that prioritizes customer satisfaction, we provide timely and satisfactory repair services at pocket-friendly rates. Though it rarely happens, pharmaceutical water systems are susceptible to unprecedented malfunctions.
For the first 12 consecutive months after purchasing NEWater’s pharmaceutical water systems, any defects resulting from technical mishaps prompt free repairs from the company. Upon the expiry of the warrant, we offer subsidized repair services.
Back to the guide ⇪
The use of high-grade material enables pharmaceutical water systems to operate under high and low temperatures without deteriorating productivity. Pharmaceutical water machines impressively have the capacity to continually purify, store and distribute pharmaceutical water for years.
The apparent average lifespan of most pharmaceutical water equipment is roughly 20 years. The lifespan is however subject to change based on the quality and frequency of service. For continued high performance, certain accessories such as the RO membranes and filters require timely substitutions.
Our pharmaceutical solutions include a variety of water systems that can be used in pharmaceutical plants.
We have years of experience in product development, project management and service offerings for the pharmaceuticals and cosmetics industries for water for pharmaceutical purposes. We can support you in meeting all regulatory requirements, from water system design, installation, commissioning, validation and ongoing performance qualification, throughout the life of your system.
By listening to our customers we have developed a range of utility water, compendial process water, purified water and wastewater treatment solutions for pharmaceutical/cosmetic purposes. These are critical for compliance with regulations and environmental targets, and to improve your manufacturing efficiency.
Which WFI option is right for your pharmaceutical business?
The trade-off between cost and risk can make it difficult to decide whether Hot or Cold WFI is best for your business. So we’ve put together some free resources to help you find out more about your choices.
Hubgrade can offer pharmaceutical manufacturers the ability to monitor vital systems such as water treatment, purified water, and wastewater treatment machinery with regards to chemical composition and equipment mechanical health. This can allow manufacturers to reduce downtime, waste from spoiled batches of product as well as optimising maintenance costs and operator time. With Hubgrade Assist, operators can be further reassured by the real-time online support provided by Veolia’s team of process experts.
We are here to support companies restarting water production post lockdown. SDI Service is a low capital cost water purifying system that can be set up in no time at all. Read more here.