SENOVA BIOTECH (SHANGHAI) CO., LTD.
Product Details
Place of Origin: China
Brand Name: Senova
Certification: CE
Model Number: TopPure15B-ET1
Payment & Shipping Terms
Minimum Order Quantity: 1 unit
Price: Available upon request
Packaging Details: plywood case
Delivery Time: 5-20 working days
Payment Terms: T/T
Supply Ability: 100 units
Type: |
Water Purification System With TOC Monitoring |
Applications: |
Molecular Biology, Cell Culture, Analytical Chemistry, Clinical Laboratories |
Feed Water: |
Tap Water(TDS<<2000us/cm) |
Production Capacity: |
30L/hour (Type 3),15 L/hour (Type 1) |
Dispense Volume: |
100-60000ml |
Water Tank: |
30L |
Control System: |
Touch Screen LCD |
Power Supply: |
AC240V-220V / 50-60Hz,110V/60Hz |
Type: |
Water Purification System With TOC Monitoring |
Applications: |
Molecular Biology, Cell Culture, Analytical Chemistry, Clinical Laboratories |
Feed Water: |
Tap Water(TDS<<2000us/cm) |
Production Capacity: |
30L/hour (Type 3),15 L/hour (Type 1) |
Dispense Volume: |
100-60000ml |
Water Tank: |
30L |
Control System: |
Touch Screen LCD |
Power Supply: |
AC240V-220V / 50-60Hz,110V/60Hz |
1. Engineered specifically for life science applications requiring endotoxin-free water.
2. The system's pretreatment safeguards against contaminants that can foul critical downstream filters.
3. Reliable chlorine removal protects the integrity of the RO membrane and subsequent purification media.
4. The Reverse Osmosis module provides a consistent, high-quality feed for the specialized polishing stages.
5. A dedicated Ultra-Filtration Filter is integral for effectively removing endotoxins, nucleases, and proteins.
6. This step is critical for cell culture, media preparation, and other sensitive biological applications.
7. The system allows easy switching to alternative microfilters (e.g., 10kDa, 50kDa) for specific molecular weight cut-offs.
8. The Purification Cartridge includes a polishing stage with resin grades selected for superior organics removal.
9. Active carbon control within the cartridge further ensures low total organic carbon (TOC) levels.
10. The dual-wavelength UV lamp, with its synthetic quartz sleeve, provides potent photo-oxidation of organics.
11. UV treatment occurs in the pure water stage, maximizing effectiveness against microorganisms and trace organics.
12. The final 0.22μm sterile filter at the point of use provides an absolute barrier for bacteria and particles.
13. Comprehensive Sanitization of the entire fluid pathway is essential to prevent biofilm formation.
14. Automated, regular sanitization cycles ensure the system remains biologically inert.
15. Module-designed consumables enable aseptic change-out practices to minimize contamination risk.
16. The high-precision resistivity meter continuously verifies the ionic purity of the produced water.
17. Consumable life indicators on the LCD help plan proactive changes before purity degrades.
18. Contamination-free PE water tanks are designed with low extractables to avoid leaching.
19. Tank level sensors and overflow protection automate storage management safely.
20. Microprocessor control with self-diagnostics ensures the system operates within specified biological purity parameters.
21. PIN-code access prevents accidental changes to sanitization or operational protocols.
22. Optional online TOC monitoring provides direct, real-time feedback on organic water quality.
23. Remote water dispensers can be placed in sterile hoods or clean benches for convenient access.
24. The RS232 port facilitates data export for quality assurance and compliance documentation.
25. The robust stainless steel UV housing withstands repeated sanitization cycles.
26. The easy-to-read display provides instant confirmation of system status and water quality.
27. All wetted materials are selected for biocompatibility and chemical resistance.
28. This system is a complete solution for labs where water quality directly impacts biological reproducibility.
| TopPure-Series | TopPure15B-ET1 |
|---|---|
| Pretreatment module | ○ |
| High pressure pump | ○ |
| Reverse osmosis | ○ |
| Dual wavelength UV-lamp | ○ |
| Ultra-purification cartridge | ○ |
| Ultrafiltration cartridge | ○ |
| EDI Module | ○ |
| Point-of-use filter | ○ |
| Storage tank 30L | ○ |
| Air filter net for tank | ○ |
| UV-lamp sterilizer for water tank | ○ |
| Remote water dispenser with color display | ○ |
| TOC monitoring module | ○ |
| Model | TopPure15B-ET1 |
| Feed Water Requirement | |
| Source | Tap water |
| Conductivity* | <2000us/cm |
| Hardness** | <450ppm as CaCO3 |
| Pressure | 0.05~0.5MPa(7-72psi) |
| Temperature | 5~40℃ |
| Purification Water(Class III) | |
| Ionic Rejection | >95% |
| Bacteria Rejection | >99% |
| Conductivity | 1~20us/cm |
| Productivity Rate | 30L/h |
| High Quality Purification Water(Class II) | |
| Resistivity At 25℃ | 10MΩ.cm |
| TOC | <30ppb |
| Dissolved Organic | <0.1ppm |
| Productivity Rate | 15L/h |
| Ultrapurification Water(Class I) | |
| Resistivity At 25℃ | 18.2MΩ.cm |
| Conductivity At 25℃ | 0.055us/cm |
| TOC Level** | 1~5ppb |
| Endotoxin(Pyrogens)**** | <0.001EU/ml |
| Particulate(≥0.02µm) | <1pc/ml |
| Bacteria* | <0.1 cfu/ml |
| Rnase / Dnase** | Free |
| Manual dispense flow rate | 1.5~2.0L/min |
| Automatic dispense volume | 100~60000ml |
| Electrical Requirements | |
| Electrical Voltage | 110V/220V±10% |
| Electrical Frequency | 50HZ/60HZ |
| Packing Information | |
| Net Weight | |
| Main units | 35kg |
| Water tank (30L) | 7kg |
| External Dimensions(WxDxH) | |
| Main units | 315x525x570mm |
| Water tank (30L) | 380x380x595mm |
| Shipping weight | |
| Main units | 37kg |
| Water tank (30L) | 15kg |
| Shipping Dimensions(WxDxH) | |
| Main units | 525x610x770mm |
| Water tank (30L) | 520x440x615mm |
Advanced laboratory water systems integrate continuous monitoring to guarantee purity. Resistivity or conductivity meters provide real-time measurement of ionic purity, while TOC sensors monitor organic contamination. Many systems feature data logging capabilities and can connect to laboratory networks for remote monitoring and alerts. This constant vigilance ensures that water meets its specified grade at all times. If purity drops below a set threshold, the system can halt dispensing or alert personnel, preventing the accidental use of sub-standard water in critical experiments.
