Biological Air Sampler KAS/B/10

 Features:

  • It is designed according to the principle of multi jet holes’ particle impact and isokinetic sampling. And it gets the consistence of animalcule more accurately. It is an ideal air biological sampler for medicine plant, hospital, biological products, food machining, public place, etc.
Specification
Kiparma Model KAS/B/10
Sampling Volume : 100L/min
Flow Velocity of Sampling Holes (m/Sec) : 0.4 , Basically the same as the clean room (Isokinetic sampling
Material : Aviation aluminum
Structure : Microprocessor control, low noise pump sampling
Rechargeable Battery : DC7.4V/6800mAh
Power Supply : AC110/220V±10%,50/60HZ
External Size (W×D×H) (mm) : 120×195×300

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    Features & Compatibility

    Biological Air Sampler: A Crucial Tool for Monitoring Airborne Contaminants

    Biological Air Sampler KAS/B/10 is an indispensable piece of laboratory equipment used to capture and monitor airborne microorganisms and particulate matter in the environment. Whether you’re testing indoor air quality in hospitals, pharmaceutical facilities, food production areas, or conducting research in environmental science, biological air samplers provide critical data on microbial contamination levels. This data is essential for ensuring safety, regulatory compliance, and a healthy working environment.

    In this guide, we’ll cover the basics of biological air sampling, its key features, various applications, and how to select the right biological air sampler for your specific needs.

    What is a Biological Air Sampler?

    A Biological Air Sampler is a device designed to capture airborne microorganisms like bacteria, viruses, mold spores, and other particles from the air. These samples are then analyzed to assess the level and type of contaminants present. The main goal of biological air sampling is to evaluate air quality in controlled environments where the presence of pathogens or allergens can pose risks to human health, product quality, or environmental safety.

    Air samplers work by drawing in air and forcing it onto a collection medium, such as agar plates, filters, or liquid impingers. The collected particles are then cultured, analyzed microscopically, or identified using advanced molecular techniques such as PCR.

    Key Features of a Biological Air Sampler KAS/B/10

    1. High Sampling Efficiency
      Advanced air samplers are designed with precision airflow control to ensure that a representative sample of the air is collected. This allows for the accurate detection of even low levels of biological contaminants.
    2. Multiple Sampling Methods
      Biological air samplers offer various methods for sample collection, including:

      • Impact Sampling: Airborne particles are impacted onto a solid surface such as an agar plate, which can then be incubated to detect microbial growth.
      • Filter Sampling: Air is drawn through a filter, which captures microorganisms for later analysis.
      • Liquid Impingement: Air is bubbled through a liquid medium that traps microbes for further study.
    3. Adjustable Airflow Rates
      The ability to control airflow rates allows the operator to collect samples over different time frames, from short-term monitoring to extended sampling sessions. This is essential for understanding the variability of airborne contaminants over time.
    4. Portable and Durable Design
      Many air samplers are designed to be lightweight and portable, making them easy to use in various settings, from field environments to indoor laboratory spaces. Durability is important for ensuring reliable performance in both rugged outdoor conditions and cleanroom environments.
    5. Real-Time Monitoring and Data Logging
      Modern biological air samplers often come equipped with integrated sensors and digital interfaces that allow for real-time monitoring of air quality. Data logging features enable the storage and export of results for further analysis, facilitating compliance with regulatory standards and providing documentation for audits.
    6. Compliance with Industry Standards
      Many air samplers are designed to meet ISO, FDA, and other regulatory standards for air quality testing, making them suitable for use in industries with strict environmental and safety requirements.

    Applications of Biological Air Samplers

    Biological air samplers are used in a wide range of industries where monitoring air quality is critical for health, safety, and product integrity. Some key application areas include:

    1. Pharmaceutical and Biotechnology Industry

    In pharmaceutical manufacturing, cleanrooms and other controlled environments must maintain strict air quality standards to prevent contamination of products such as sterile drugs, vaccines, and biologics. Biological air samplers are used to monitor for microbial contamination in these environments, ensuring that air handling systems are functioning properly and that the risk of contamination is minimized.

    2. Hospital and Healthcare Settings

    Hospitals, particularly surgical suites, ICUs, and other sensitive areas, must be free from harmful airborne microorganisms to protect patients and staff from infections. Biological air samplers are used to monitor for bacteria, fungi, and viruses in the air, helping to prevent the spread of hospital-acquired infections (HAIs) and ensuring compliance with infection control protocols.

    3. Food and Beverage Industry

    In food production facilities, air quality control is essential for preventing microbial contamination that can lead to food spoilage, product recalls, or foodborne illnesses. Air samplers are used to test for the presence of pathogens such as mold spores, Salmonella, and E. coli in food processing areas, storage units, and packaging facilities.

    4. Environmental Monitoring

    Biological air samplers are widely used in environmental studies to monitor the spread of allergens, mold, and airborne pathogens in outdoor and indoor environments. This data helps assess the impact of air quality on public health, especially in areas affected by pollution, industrial activities, or natural disasters like wildfires.

    5. Indoor Air Quality (IAQ) in Public Buildings

    Public buildings, including schools, offices, and transportation hubs, are increasingly concerned with indoor air quality. Biological air samplers can detect pollutants and allergens, helping facility managers take steps to improve ventilation and reduce the concentration of airborne contaminants, leading to healthier indoor environments.

    6. Research and Development

    In laboratories and research settings, biological air samplers are used for scientific studies related to microbiology, aerobiology, and bioaerosols. These devices enable researchers to quantify airborne microorganisms and study their behavior, contributing to advances in public health, occupational safety, and environmental science.

    Benefits of Using a Biological Air Sampler

    1. Accurate Detection of Airborne Contaminants

    Biological air samplers provide precise and reliable data on the presence and concentration of airborne microbes and particles. This allows laboratories and industries to make informed decisions about cleaning protocols, equipment maintenance, and air quality improvements.

    2. Enhanced Safety and Compliance

    By regularly monitoring air quality, facilities can ensure compliance with regulatory standards and guidelines set by agencies such as the FDA, ISO, and OSHA. This helps prevent costly fines, product recalls, and health risks associated with poor air quality.

    3. Early Detection of Contamination

    Regular air sampling allows for the early detection of contaminants in critical environments. This enables proactive measures to be taken to mitigate contamination before it becomes a major issue, protecting both people and products.

    4. Improved Indoor Environmental Quality

    In spaces like hospitals, cleanrooms, and food production facilities, maintaining excellent air quality is crucial. Using biological air samplers ensures that airborne contaminants are minimized, contributing to better health outcomes and product integrity.

    5. Portable and Versatile

    Modern biological air samplers are compact and easy to transport, making them ideal for both stationary and field applications. This versatility allows for comprehensive air quality assessments across a variety of environments.

    How to Choose the Right Biological Air Sampler for Your Lab

    When selecting a biological air sampler for your laboratory or facility, it’s important to consider several key factors to ensure the equipment meets your specific needs:

    1. Sampling Method

    Different air samplers use various methods to collect samples (impact, filter, or liquid impingement). Choose a method that aligns with the type of analysis you intend to perform and the specific contaminants you’re targeting.

    2. Airflow Capacity

    The airflow rate of the sampler determines how much air is collected over a certain time period. For high-volume applications, such as large cleanrooms or outdoor sampling, opt for a sampler with a higher airflow capacity.

    3. Sensitivity and Detection Limits

    Consider the sensitivity of the air sampler, particularly if you are working in a cleanroom environment or areas that require ultra-low detection limits. High-sensitivity samplers are capable of detecting even trace levels of airborne contaminants.

    4. Portability and Power Source

    If you require flexibility in terms of where samples are taken, choose a lightweight, portable air sampler that can be easily transported to different locations. Battery-operated models are ideal for outdoor or field applications where power sources may be limited.

    5. Data Logging and Software Integration

    For facilities that require detailed reports and compliance tracking, choose a sampler with integrated data logging and software support. This will allow for seamless documentation and analysis of air quality data.

    6. Compliance and Certification

    Ensure that the air sampler you choose meets the regulatory standards relevant to your industry, such as ISO 14698 for cleanroom monitoring, or other industry-specific guidelines for air quality testing.

    Conclusion

    A Biological Air Sampler is an essential tool for any laboratory or industry where air quality monitoring is critical to safety, product integrity, and regulatory compliance. From pharmaceutical manufacturing and healthcare settings to food production and environmental monitoring, these devices provide invaluable insights into airborne contaminants.

    Choosing the right biological air sampler tailored to your specific needs will ensure accurate detection of airborne microorganisms, improve safety, and enhance the quality of indoor environments. Whether you’re monitoring a cleanroom or studying outdoor bioaerosols, investing in a high-quality biological air sampler is key to maintaining healthy, contaminant-free air.

    Additional information

    Brand

    Kiparma

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