RSJ Spring Series Benchtop Ultrapure Water System

Overview

The RSJ Spring Series Benchtop Ultrapure Water System is an engineered solution for laboratories requiring reliable, space-efficient production of Type I ultrapure water per ASTM D1193-20 and ISO 3696 Class 1 specifications. Designed around a compact, modular architecture—occupying only 0.053 m³ footprint—the system integrates either single-stage (Spring-S) or dual-stage reverse osmosis (Spring-R) pretreatment with post-RO polishing modules including ion exchange, activated carbon, and optional 185/254 nm UV oxidation. The core purification mechanism relies on size-exclusion membrane filtration (RO), electrochemical deionization (EDI or mixed-bed resin), and photochemical organic decomposition (UV), delivering consistent resistivity ≥18.2 MΩ·cm at 25°C and TOC <15 ppb (down to <5 ppb with integrated UV). Its DC24V low-voltage control architecture, full electrical/water isolation, and NSF-certified wetted materials ensure compliance with IEC 61000-6-2/4 electromagnetic compatibility and UL 61010-1 safety standards.

Key Features

• Compact benchtop form factor (423 × 445 × 280 mm) with wall-mount capability—ideal for constrained lab spaces without compromising output capacity.
• Dual-stage RO configuration (Spring-R) achieves >98% salt rejection and stable feed-to-permeate recovery rates of 20–30%, minimizing wastewater generation and operational cost over time.
• Intelligent monitoring suite: real-time resistivity/conductivity tracking, predictive filter life algorithm, early-stage fouling detection, and automated cartridge replacement alerts.
• Precision dispensing module with programmable timer (1–60 min) and volumetric delivery (0.1–25 L), calibrated to ±2% accuracy per ISO 8655-7, enabling unattended bulk water preparation.
• NSF/ANSI 58 and 61 certified contact materials—including polypropylene housings, EPDM seals, and food-grade stainless steel fittings—ensuring chemical inertness and regulatory traceability.
• Energy-optimized operation: nominal power draw of 50–100 W supports continuous 24/7 duty cycles while maintaining thermal stability within ambient lab conditions (5–40°C).

Sample Compatibility & Compliance

The Spring Series produces water meeting or exceeding the purity requirements for analytical, cell culture, and diagnostic instrumentation feed applications. It complies with GB/T 6682-2008 (China National Standard) Grade I specifications and aligns with key international benchmarks: ASTM D1193-20 Type I, ISO 3696:1987 Class 1, and CLSI EP22-A2 guidelines for clinical laboratory water. All wetted components are validated for extractables and leachables per USP , and the system supports GLP/GMP documentation workflows through audit-trail-capable event logging. Optional UV integration satisfies USP TOC validation criteria for pharmaceutical water systems.

Software & Data Management

The embedded microcontroller provides local LCD interface for real-time parameter visualization (resistivity, TOC, flow rate, filter status). No proprietary software installation is required; data export is supported via USB-C dump (CSV format) for integration into LIMS or ELN platforms. Event logs—including cartridge replacement timestamps, alarm history, and daily production volume—are timestamped and non-erasable, fulfilling FDA 21 CFR Part 11 requirements for electronic records when paired with institutional access controls. Remote diagnostics via optional RS485 Modbus RTU interface enable centralized fleet monitoring in multi-unit lab environments.

Applications

• Primary Purified Water Applications: Feed water for ultrapure polishing systems, buffer and media preparation, glassware rinsing, microbial assay diluents, spectrophotometric blanking, and HPLC mobile phase formulation.
• Advanced Ultrapure Applications: Flame atomic absorption spectroscopy (FAAS), primary cell culture maintenance, immunocytochemistry staining, electrophysiology recording solutions, electrochemical sensor calibration, and reagent-grade water for ELISA and PCR setup.
• Instrumental Support: Continuous supply to autoclaves, washer-disinfectors, clinical analyzers (e.g., Cobas, Vitros), environmental chambers, and humidification systems where conductivity-sensitive processes demand strict ion control.

FAQ

What is the difference between Spring-S and Spring-R configurations?
The Spring-S employs single-stage RO for high-recovery operation (30–60%) and is optimized for municipal feed water with low TDS (<500 ppm). The Spring-R uses dual-stage RO to achieve higher deionization efficiency and lower TOC carryover—recommended for feed sources with elevated hardness, silica, or organic load.
Does the system support IQ/OQ validation protocols?
Yes. Factory-provided qualification documents include Installation Qualification (IQ) checklists, Operational Qualification (OQ) test scripts for resistivity, TOC, and flow verification, and template reports compatible with ISO/IEC 17025-accredited labs.
Can the Spring Series be integrated with existing lab water networks?
It operates as a standalone point-of-use system but includes 1/4″ push-to-connect fittings and pressure-regulated output ports compatible with standard lab plumbing. Optional booster pump kits are available for low-pressure municipal supply scenarios.
Is UV treatment mandatory for TOC reduction?
No—standard models meet <15 ppb TOC via advanced carbon polishing. UV modules (185/254 nm) are optional upgrades required for applications demanding <5 ppb TOC, such as LC-MS solvent preparation or semiconductor rinse validation.
How often do consumables require replacement?
Pre-filters: every 6 months (or 3,000 L); RO membranes: 2–3 years depending on feed quality; polishing cartridges: 6–12 months based on usage volume and resistivity decay trends—automatically tracked and reported by the onboard system.