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KJ-P06M-1

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Overview:	Plasma Air Purification and Disinfection Terminal
Air Volume:	2000 m³/h
CADR:	19980 m³/h
Wattage:	318 W
Applicable Area:	240 m²
Dimensions:	1,800 × 650 × 453 mm
Noise Level:	≤50 dB
Voltage:	100-250V~
Frequency:	50-60Hz
Running time:	≥ 30 minutes
Plasma density:	2.16×10¹⁶/m³
Air natural bacteria sterilization rate:	99%
Staphylococcus albus sterilization rate:	99.99%
Ozone residue:	≤0.002 mg/m³

KJ-P06M-1 Plasma Air Purifier: The Invisible Immune Barrier for Hospital ICU Wards

In the intensive care unit (ICU), where every beep of the monitor marks a battle for life, an unseen war against air pollution rages on. Here, where immune systems are most vulnerable, each cubic centimeter of air carrying pathogens, formaldehyde, or ozone can become a silent threat. The plasma air purifier, leveraging 6th-generation medical-grade purification technology, offers a "nanoscale air sterilization solution" tailored for ICUs, turning every breath into a foundation of critical care.

I. ICU Air Pollution: The Amplified Hazard to Medical Safety

Biological Contamination Matrix

ICU air carries an average of 1,800 colony-forming units (CFU) per cubic meter—three times that of ordinary wards—harboring multidrug-resistant bacteria like MRSA and Acinetobacter baumannii.
Pathogens from ventilator circuits and infusion stands spread via air, increasing the risk of ventilator-associated pneumonia (VAP) by 47% (WHO data).

Chemical Pollution Risks

Volatile organic compounds (VOCs) from disinfectants (e.g., chlorine-based agents) mix with formaldehyde from medical plastics, often pushing ICU formaldehyde levels 1.5 times above the 0.08mg/m³ safety threshold.
Ozone (O₃) generated by laser therapy devices or electrocautery exceeds 0.1ppm, irritating respiratory tracts and increasing occupational exposure risks for healthcare workers.

Oxygen Balance Criticality

With multiple ventilators operating, CO₂ concentrations in sealed ICUs can surge past 2,000ppm, decreasing blood oxygen saturation and exacerbating cardiopulmonary burden.
Traditional ventilation may introduce outdoor PM2.5, worsening lung infections in patients.

II. Plasma Technology: Rebuilding ICU’s "Medical-Grade Air Ecosystem"

1. Nanoscale Sterilization: The Ultimate "Drug-Resistant Bacteria Hunter"
6th-generation plasma technology generates positive and negative ion clusters via pulse ionization, actively penetrating bacterial biofilms and viral envelopes:

Achieves 99.99% inactivation rate against Acinetobacter baumannii (third-party test report). In a tertiary hospital ICU, VAP incidence dropped by 68% after implementation.
Ions diffuse into blind spots like wall crevices and instrument knobs, areas hard to disinfect traditionally.

2. Decompositional Purification: The Continuous "Chemical Pollutant Terminator"
Equipped with a dual "plasma catalysis + medical-grade adsorption" system:

Plasma decomposes formaldehyde into water and CO₂, maintaining a 96.5% decomposition rate even during winter heating when formaldehyde release accelerates.
Catalytic filters, combined with the plasma field, decompose disinfectant odors and anesthetic gases at the molecular level, avoiding adsorption saturation issues of traditional activated carbon.

3. Medical-Grade Oxygen Enrichment: The Invisible "Oxygen Therapy Assistant"
Built-in medical-grade fresh air module replaces indoor air 8 times per hour (double that of ordinary wards):

Uses HEPA-H14 filters (99.995% efficiency @ 0.3μm) to ensure incoming air meets operating room standards.
Real-time CO₂ monitoring coordinates with oxygen supply systems. In one ICU, patient blood oxygen saturation increased by an average of 2.3%, reducing oxygen therapy time by 17%.

4. Silent Operation: The Gentle "Care Support"
Operates at ≤20dB (quieter than monitor alarms) with zero ozone emission (O₃ < 0.01ppm):

"Sleep mode" automatically reduces power at night, eliminating light pollution to avoid disturbing patients.
Complies with GB15982-2021 Hospital Disinfection Standards, enabling 24/7 operation without disrupting care.

III. Scene-Specific Solutions: Full-Cycle Protection from Emergency to Recovery

Emergency Resuscitation Scenario
For trauma patients, activate "emergency sterilization mode." Plasma clusters inactivate Clostridium tetani in 3 minutes while filtering aerosol from wound irrigation, reducing healthcare worker infection risks.
Postoperative Monitoring Scenario
In transplant patient wards, the purifier decomposes organic gases from analgesic pumps and releases negative ions to promote alveolar oxygen exchange. In a liver transplant center, extubation time advanced by 4.2 hours on average.
Nosocomial Infection Prevention Scenario
For isolation wards of multidrug-resistant bacteria patients, use a "closed-loop purification system": plasma continuously disinfects air, and exhaust undergoes dual plasma treatment before discharge to prevent pathogen leakage.
Medical Equipment Disinfection Scenario
Plasma penetrates gaps in ECMO and dialysis machines to kill hidden bacteria, avoiding corrosion from traditional wiping. Equipment maintenance costs dropped by 35% in one hospital.

IV. ICU Purification Selection Guide: Why Plasma Technology Is a Clinical Imperative

Technology	UV Disinfection	Electrostatic Precipitator	Plasma Technology
Sterilization Mechanism	Surface irradiation	Electric field adsorption (ozone risk)	Active ion release for 360° disinfection
Drug-Resistant Bacteria Kill Rate	<60% (requires direct exposure)	75%-80%	99.99% (certified by third parties)
Human-Machine Coexistence	UV damages eyes/skin	Ozone risk	No radiation/ozone, suitable for 24-hour operation
Clinical Data Support	Lacks evidence	Limited large-sample studies	Multiple SCI papers confirm reduced nosocomial infection rates

"In the ICU, air is not just a medium for survival but a medium for treatment." As plasma air purifiers cleanse every breath with nanoscale technology, eliminating pathogen threats and ensuring healthcare workers breathe safely, we protect not only patients’ vital signs but also the precision and compassion of modern medicine. After all, in the critical care "last mile," clean air is every bit as essential as life support equipment—a silent guardian for those in the fight for life.