BOXUN BXH-65G Precision Forced-Air Hot Air Sterilization Oven
| Brand | BOXUN |
|---|---|
| Origin | Shanghai, China |
| Manufacturer Type | Direct Manufacturer |
| Product Category | Domestic |
| Model | BXH-65G |
| Instrument Type | Precision Drying Oven |
| Temperature Range | RT+5°C to 300°C |
| Temperature Uniformity | ±2°C (at 150°C) |
| Temperature Fluctuation | ±0.3°C (at 150°C) |
| Resolution | 0.1°C |
| Chamber Volume | 64 L |
| Interior Dimensions | 410 × 350 × 450 mm |
| Exterior Dimensions | 555 × 566 × 722 mm |
| Interior Material | Stainless Steel (SUS304) |
| Heating Method | Forced-air Circulation with Preheated Air Inlet |
| Power Rating | 1550 W |
| Ramp Time | ≤17 min (to 150°C) |
| Timer Range | 0–9999 min/h |
| Programmable Stages | 10 segments × 100 cycles |
| Fan Speed Control | 6-step Adjustable |
| Motorized Air Damper | Yes |
| Dual Over-Temperature Protection | Independent Sensor + Mechanical Thermal Cut-off |
| Standard Interfaces | RS-485 |
| Standard Shelves | 2 (max. 5), Load Capacity per Shelf: 25 kg |
| Optional Accessories | Additional Shelves, Thermal Printer (Domestic/Imported), FDA/GMP-Compliant Monitoring Software, GPRS SMS Alarm Module |
Overview
The BOXUN BXH-65G is a precision forced-air hot air sterilization oven engineered for laboratory-grade thermal processing tasks requiring high repeatability, uniform heat distribution, and operational safety under unattended conditions. It operates on the principle of convection-based thermal transfer—where preheated air is actively circulated via a multi-stage adjustable fan system through a thermally insulated chamber featuring a preheating cavity and optimized airflow geometry. This architecture ensures rapid temperature ramping (≤17 minutes to 150°C), minimal thermal gradient across the working volume (±2°C at 150°C), and stable setpoint maintenance (±0.3°C fluctuation). Designed in accordance with ISO 14644-1 cleanroom-compatible construction standards and aligned with core thermal validation requirements for pharmaceutical equipment (e.g., USP , EU Annex 1), the BXH-65G supports critical applications including depyrogenation of glassware and stainless-steel instruments, moisture content determination by loss-on-drying (LOD), and controlled thermal conditioning of polymeric or ceramic samples.
Key Features
- Intelligent BRIGHT I control system with real-time environmental compensation—dynamically adjusts PID parameters to maintain accuracy across ambient temperature and load variations.
- Backlit capacitive touch interface with LCD display showing setpoint, actual chamber temperature, fan speed stage, timer status, and alarm history.
- Programmable 10-segment × 100-cycle profile capability, enabling complex thermal protocols such as hold-ramp-hold sequences for material aging or residual solvent removal.
- Motorized air damper and 6-step variable-speed fan allow precise regulation of air exchange rate—critical for minimizing particle dispersion during drying of powders or lyophilized formulations.
- Dual independent over-temperature protection: primary electronic control via PT100 sensor + secondary mechanical thermal cutoff switch—compliant with IEC 61010-1 safety requirements for Class II laboratory equipment.
- Drawer-style reinforced shelves (2 standard, up to 5 optional) with 25 kg per-shelf load rating; smooth slide mechanism and tool-free removal support efficient loading/unloading and routine cleaning.
- Chamber with radius-rounded corners, SUS304 stainless steel interior, and high-efficiency mineral wool insulation ensure structural integrity, corrosion resistance, and low thermal leakage.
Sample Compatibility & Compliance
The BXH-65G accommodates a broad range of sample types—including Petri dishes, volumetric flasks, syringes, vials, metal trays, and porous substrates—without compromising thermal homogeneity or cross-contamination risk. Its sealed door employs a dual-stage rotary locking mechanism and high-compression silicone gasket to achieve >95% sealing efficiency at elevated temperatures. The unit meets essential regulatory prerequisites for use in GLP and GMP environments: it supports optional FDA 21 CFR Part 11-compliant audit trail logging via RS-485-connected monitoring software, includes configurable alarm escalation (SMS via GPRS module), and permits IQ/OQ documentation packages. All electrical components conform to CE marking directives (EMC & LVD), and thermal performance data are traceable to NIST-traceable reference thermometers.
Software & Data Management
Standard RS-485 communication enables integration into centralized lab infrastructure via Modbus RTU protocol. Optional monitoring software—available in FDA Edition (with electronic signatures, role-based access, and immutable audit trails) and GMP Edition (supporting qualification templates and deviation reporting)—facilitates automated data capture, trend analysis, and compliance-ready reporting. Printer interfaces support both domestic thermal printers (with localized firmware) and Epson-compatible units for hard-copy record generation. All time-stamped event logs—including temperature deviations, door openings, program completions, and alarm triggers—are timestamped with millisecond resolution and exportable in CSV or PDF format.
Applications
- Pharmaceutical depyrogenation: validated thermal cycles (e.g., 250°C for 45 min) for removal of bacterial endotoxins from glass and stainless-steel components.
- Moisture analysis per ASTM E1868 and ISO 554: standardized gravimetric drying for polymers, foodstuffs, soils, and pharmaceutical excipients.
- Pre-sterilization conditioning of filtration assemblies and single-use bioprocessing hardware.
- Thermal stress testing of electronic encapsulants, adhesives, and composite laminates.
- Post-curing of coatings and resins where controlled convective heating prevents surface blistering or delamination.
- Residual solvent evaporation in R&D synthesis workflows prior to HPLC or GC analysis.
FAQ
What is the maximum validated operating temperature for depyrogenation cycles?
The BXH-65G is rated for continuous operation up to 300°C; typical depyrogenation validation uses 250°C for ≥45 minutes per USP , and thermal mapping confirms uniformity within ±2°C across the entire 64 L chamber.
Does the oven support calibration traceability to national standards?
Yes—RS-485 output allows connection to external calibrated data loggers; factory calibration certificates include uncertainty budgets referenced to NIST-traceable standards.
Can the unit be integrated into a LabVantage or STARLIMS LIMS environment?
Via optional OPC UA gateway or custom Modbus-to-REST API bridge, raw temperature/time series and event logs can be ingested directly into enterprise LIMS platforms.
Is the stainless steel interior electropolished or passivated?
The SUS304 chamber undergoes acid passivation post-fabrication to enhance corrosion resistance and minimize metallic ion leaching—critical for high-purity applications.
What is the mean time between failures (MTBF) for the fan motor assembly?
Based on accelerated life testing under continuous 200°C operation, the EC brushless fan motor demonstrates an MTBF exceeding 25,000 hours with no scheduled maintenance required.
