i-Lab ZeroAir35 Zero Air Generator
| Brand | i-Lab |
|---|---|
| Origin | Shanghai, China |
| Manufacturer Type | Direct Manufacturer |
| Country of Origin | China |
| Model | ZeroAir35 |
| Quotation | Upon Request |
| Hydrocarbon Removal Principle | Pt-Pd Catalytic Oxidation |
| Output Flow Rate | 35 L/min |
| Output Pressure Range | 0–6 bar (adjustable) |
| Total Hydrocarbon Content (THC) | <0.1 ppm (as methane equivalent) |
| Residual THC after dual-stage purification | <0.05 ppm |
| Particulate Filtration | 0.01 µm absolute rating |
| Noise Level | ≤55 dB(A) |
| Continuous Operation Rating | 7×24 hours |
| Rated Service Life | >30,000 operating hours |
Overview
The i-Lab ZeroAir35 Zero Air Generator is an industrial-grade, continuous-duty air purification system engineered for high-throughput analytical laboratories and centralized gas supply infrastructures. It employs a two-stage purification architecture grounded in fundamental catalytic oxidation chemistry: ambient air is first passed through a heated Pt-Pd catalyst bed operating above 400 °C, where volatile hydrocarbons (VOCs, alkanes, alkenes, aromatics) undergo complete oxidative conversion to CO₂ and H₂O. This thermocatalytic step is followed by precision particulate removal via a certified 0.01 µm absolute-rated coalescing filter, ensuring removal of sub-micron aerosols, rust, oil mist, and desorption fragments. The result is ultra-pure zero air meeting stringent requirements for flame ionization detection (FID), gas chromatography–mass spectrometry (GC-MS), and other trace-level analytical techniques demanding baseline stability and minimal detector contamination.
Key Features
- Stable 35 L/min continuous flow output at adjustable pressure (0–6 bar), supporting parallel operation across multiple instruments without flow compensation loss.
- Dual-stage purification: High-temperature Pt-Pd catalytic reactor (>400 °C) coupled with 0.01 µm absolute particulate filtration achieves residual total hydrocarbons (THC) <0.05 ppm (methane-equivalent), exceeding ASTM D6216 and ISO 8573-1 Class 1 requirements for hydrocarbon content.
- Industrial acoustic engineering: Five-layer noise suppression design—including vibration-damping mounts, acoustic insulation lining, optimized airflow path geometry, low-turbulence blower assembly, and sealed enclosure—ensures operational noise ≤55 dB(A) at 1 m distance, compliant with ISO 7779 and EU Directive 2000/14/EC.
- Robust 24/7 duty cycle architecture: Rated for uninterrupted operation over 30,000 hours; constructed with corrosion-resistant stainless-steel gas pathways, redundant thermal protection, and fail-safe catalyst temperature monitoring.
- Fully automated control interface: Integrated PLC-based controller enables one-touch startup, real-time pressure/flow diagnostics, predictive maintenance alerts (e.g., catalyst saturation, filter delta-P), and optional Modbus RTU or Ethernet/IP integration for lab-wide SCADA systems.
Sample Compatibility & Compliance
The ZeroAir35 delivers gas meeting the purity specifications required for regulatory-compliant analysis under USP , EP 2.5.27, and ISO/IEC 17025-accredited testing environments. Its output is validated for use with FID detectors per ASTM D1945, EPA Method 18, and EN 13649-2. The system complies with CE marking directives (2014/30/EU EMC, 2014/35/EU LVD), RoHS 2011/65/EU, and carries factory-certified calibration documentation traceable to NIST standards. All wetted materials conform to FDA 21 CFR Part 11-compliant data logging when paired with optional i-Lab DataVault software.
Software & Data Management
The embedded controller logs time-stamped operational parameters—including inlet/outlet pressure differentials, catalyst bed temperature profiles, cumulative runtime, and alarm history—with local SD card storage (16 GB). Optional i-Lab DataVault software provides secure, audit-trail-enabled remote monitoring, configurable email/SNMP alerts, and export-ready CSV/PDF reports aligned with GLP/GMP documentation workflows. Full 21 CFR Part 11 compliance is achievable via role-based user authentication, electronic signatures, and immutable record retention settings.
Applications
- Centralized zero air supply for multi-floor environmental monitoring stations deploying ≥50 GC-FID analyzers across PM₂.₅, VOC, and ozone precursor monitoring networks.
- Pharmaceutical QC labs requiring validated carrier and combustion gases for residual solvent analysis (ICH Q2(R2)) and extractables/leachables profiling using GC-MS.
- Petrochemical process labs performing real-time refinery gas analysis (ASTM D1945, D1946) across distributed online GC systems.
- Semiconductor fab cleanrooms utilizing zero air as purge and carrier gas for CVD and etch process validation (SEMI F21-0202).
- Lithium-ion battery manufacturing facilities conducting trace HF, SO₂, and organic vapor monitoring during electrode drying and cell formation.
FAQ
What is the recommended maintenance interval for the Pt-Pd catalyst cartridge?
Catalyst replacement is advised every 12–18 months under continuous operation (24/7), or after 10,000 hours—whichever occurs first—based on thermal profile drift and THC breakthrough validation testing.
Can the ZeroAir35 be integrated into an existing lab gas distribution network?
Yes. It features standard 1/2″ NPT inlet/outlet ports and supports seamless integration with stainless-steel or electropolished 316L tubing networks. Optional pressure-regulated manifold kits enable balanced delivery to ≥100 FID units.
Does the system meet ISO 8573-1:2010 Class 1 for hydrocarbons?
Yes. With verified THC <0.05 ppm and particulate removal to 0.01 µm, it satisfies ISO 8573-1:2010 Class 1 (hydrocarbon) and Class 2 (particulates), confirmed by third-party verification per ISO 17025.
Is remote firmware update supported?
Firmware updates are performed via secure USB or Ethernet connection using i-Lab’s signed update package protocol; no cloud dependency or external internet access required.
What safety certifications does the ZeroAir35 hold?
It carries CE marking for EMC and Low Voltage Directive compliance, UL/cUL recognition pending (available upon request), and conforms to IEC 61000-6-2/-4 immunity standards for laboratory electromagnetic environments.
