The YR53 and YR53-1 Ultrapure Water Systems are at the forefront of water purification technology, offering exceptional purity for laboratory applications. Designed with advanced features, these models ensure that users receive water of the utmost quality, suitable for sensitive scientific experiments and processes. This article will explore the rich technical specifications, market insights, user queries, and practical applications of these state-of-the-art systems.
Description of the Product
The YR53 and YR53-1 models are meticulously engineered to convert urban tap water into ultrapure water, suitable for laboratory use. These systems take advantage of the most recent advancements in reverse osmosis (RO) technology and other purification techniques to achieve outstanding results.
Both models offer a consistent water flow speed of 1.5-2L/min, with a water-making speed of 15 L/H. This ensures a steady supply of purified water, eliminating disruptions in laboratory work. They feature dual water outlets for RO and ultrapure (UP) water, optimizing their versatility for different research needs.
The quality of RO water is prominent, achieving a desalination rate between 95% to 99% with the new RO membrane. Furthermore, UP water quality showcases a resistivity of 18.25 MΩ.cm @ 25°C, categorizing it as ASTM type I water. Additional parameters such as Total Organic Carbon (TOC) under 3ppb, particles (>0.22um)<1/ml, and microorganism counts less than 1cfu/ml highlight the impeccable standards maintained by these devices.
| Model | YR53 | YR53-1 |
| Inlet water source | Urban tap water, inlet water pressure: 0.15-0.5MPa, water temperature 5-40°C | |
| Water flow speed | 1.5-2L/min | |
| Water making speed | 15 L/H | |
| 2 water outlets | RO water and UP water | |
| RO water quality | Desalination rate as high as 95-99% (with new RO membrane) | |
| UP water quality | Resistivity 18.25MΩ.cm@25°C(ASTM type I water), TOC: <3ppb, particles (>0.22um)<1/ml, microorganism<1cfu/ml | Resistivity 18.25MΩ.cm@25°C, TOC: <3ppb, particles (>0.22um)<1/ml, microorganism<1cfu/ml,pyrogen<0.001EU/ml, RNases≤0.01ng/ml, DNases≤3Pg/ul |
| Power Source | 220V/50Hz; 48-72W | |
| Dimensions(mm) | L x W x H:31.2 x 47.5 x 47.5cm | |
| Standard configuration: | Main unit (including 1 set of consumable filters) +12L pressure tank + accessory package | |
Price in the Market
When it comes to acquiring cutting-edge laboratory equipment like the YR53 and YR53-1 models, understanding the market pricing is crucial. While the exact price is not disclosed here, potential buyers can expect a price range starting at approximately $3,500 and can extend up to $4,600, depending on various factors such as configuration, distributor, and location. This range provides a ballpark figure for budgeting and planning purposes.
Frequently Asked Questions
What makes the YR53 and YR53-1 models stand out in water purification?
The standout features include high desalination rates, dual water outlets for flexibility, and stringent adherence to ASTM type I water standards, making them ideal for precise laboratory needs.
How easy is it to maintain these water systems?
Both models are designed with simplicity in mind, featuring user-friendly interfaces and straightforward maintenance procedures that include accessible filter replacements.
Can these systems handle high workload lab environments?
Yes, with a water making speed of 15L/H and consistent flow rates, these systems are well-suited for labs with high demands, ensuring uninterrupted research activities.
Advantages and Disadvantages
The YR53 and YR53-1 systems bring several advantages to the fore. Their high purification efficiency means that the water output is exceptionally clean, suitable for critical labwork. The dual water outlets provide flexibility, allowing for both RO and UP water usage as needed. Additionally, the compact design and easy integration into existing lab setups are significant benefits.
However, some potential disadvantages could include the initial investment cost and the need for regular maintenance to ensure peak performance. Despite these, the overall value provided by these systems typically outweighs these considerations.
Use of the Product in the Field
In practical laboratory settings, the YR53 and YR53-1 models serve as vital resources for applications requiring water free from contaminants. From analytical chemistry to molecular biology, these systems ensure that experiments are not compromised by water impurities. This reliability is essential for yielding accurate and reproducible results.
The systems are particularly beneficial in environments where high volumes of pure water are indispensable. Their robust output capacity makes them suitable for large-scale operations, supporting uninterrupted scientific workflows.
Recommendations
To maximize the longevity and efficiency of these ultrapure water systems, it is recommended to follow routine maintenance schedules rigorously. This includes timely filter replacements and regular checks of all system components. Understanding and adhering to the operational guidelines will prevent downtime and maintain the high-quality output expected of these devices.
For institutions considering these models, initiating discussions with Kalstein’s sales team can provide additional insights into customization options, ensuring that the final setup meets specific laboratory needs.
If you’re seeking a blend of innovation and quality, you’ve come to the right place. At Kalstein, we offer you the luxury of exploring our exclusive catalog of laboratory equipment. We craft each piece with a level of excellence. Our intuitive and agile online purchasing channels are designed for your convenience, ensuring the most user-friendly prices. Don’t hesitate any longer, we bring science to life, it’s time to become a part of our community. https://kalstein.net/en/product/ultrapure-water-system-yr53-yr53-1/.
