BIO Safety Cabinet (BSC A2)
The Purifier Logic+ Class II, Type A2 Biosafety Cabinets are advanced laboratory equipment designed to provide comprehensive protection for personnel, products, and the environment when working with hazardous materials. These cabinets are specifically engineered to meet the demanding safety requirements of laboratories dealing with hazardous biological agents that require Biosafety Levels 1, 2, or 3 containment. They offer a high level of protection against airborne contaminants, ensuring that harmful particulates such as pathogens, antineoplastic drugs, genetic material, and even substances like asbestos are safely contained.
One of the standout features of laboratory equipment – Purifier Logic+ Class II, Type A2 Biosafety Cabinets is their ability to deliver triple protection. The cabinet protects the laboratory personnel by maintaining a controlled airflow system that prevents hazardous particulates from being inhaled. Additionally, it safeguards the products being handled by ensuring that any airborne contaminants do not come into contact with sensitive materials or samples. Finally, it protects the environment by containing harmful agents and filtering the air before it is released back into the laboratory or the external environment.
These biosafety cabinets are particularly important when working with materials that generate hazardous airborne particulates. For instance, they are essential when handling antineoplastic drugs, which are used in cancer treatment but can be toxic, or when working with genetic material that could have significant biohazard implications if contaminated. Moreover, asbestos and other toxic substances that can be harmful if inhaled are safely managed within the confines of a Purifier Logic+ Class II, Type A2 cabinet.
The Purifier Logic+ Class II, Type A2 Biosafety Cabinets are designed to meet the rigorous standards set by the National Sanitation Foundation (NSF), making them NSF-listed for quality and safety. This certification assures laboratory personnel that the cabinet adheres to strict performance and safety standards, ensuring optimal protection and reliability in sensitive research settings.
In addition to safety, the Purifier Logic+ cabinets are known for their efficiency and user-friendly design. The laboratory equipment airflow system is designed to maintain optimal sterile conditions with minimal energy consumption, contributing to both safety and operational cost-efficiency. The ergonomic features and intuitive control systems also make the cabinets easy to use, allowing researchers to focus on their work while ensuring that the environment remains contamination-free.
Bio Safety Cabinet (BSC B2)
All Purifier Logic+ Class II, Type B2 Biosafety Cabinets are NSF-Listed, ensuring they meet the highest safety and performance standards. This laboratory equipment is essential in labs that require strict containment protocols, offering both safety and efficiency for researchers handling dangerous substances.
The Purifier Logic+ Class II, Type B2 Biosafety Cabinets (BSC B2) are critical laboratory equipment designed to provide personnel, product, and environmental protection when working with hazardous biological agents. Ideal for use with Biosafety Levels 1, 2, or 3 containment, these cabinets are perfect for handling substances like antineoplastic drugs, genetic material, and asbestos.
A key feature of the BSC B2 is its hard-ducted exhaust system, which directs contaminated air outside the laboratory, ensuring additional safety by preventing harmful particulates from recirculating. This makes it highly effective in containing airborne hazards, providing triple protection: for the personnel, the product, and the environment.
Laminar Flow Cabinet
The Purifier Vertical Clean Benches (Laminar Flow Cabinets) are essential laboratory equipment designed to provide a clean, sterile environment by directing HEPA-filtered air downward over the work area. These cabinets maintain ISO Class 5 conditions, ensuring that your work is protected from particulate contamination, which is critical in various sensitive applications.
Common uses for laminar flow cabinets include pharmacy compounding, plant tissue culture, media plate preparation, electronics inspection, and medical device assembly, among others. By filtering the air and preventing contaminants from entering the workspace, these clean benches ensure a controlled environment, supporting accurate and reliable results in research and production.
Overall, Purifier Vertical Clean Benches offer a reliable solution for applications that require a contamination-free work environment, making them an indispensable piece of laboratory equipment in industries and research settings.
Glassware Washer
Labconco’s laboratory glassware washers offer specialized features that cater to the unique demands of laboratory glassware cleaning, providing superior cleaning and convenience. The vibrant 5-inch touchscreen display of the CleanWorksTM Operating System provides intuitive controls to create and save up to 200 customizable wash programs, making our lab washers efficient for all users.Labconco’s Glassware Washers are advanced laboratory equipment designed to meet the specific needs of laboratory glassware cleaning.
These washers provide superior cleaning performance, ensuring that glassware is thoroughly cleaned and free from contaminants. One of the standout features is the vibrant 5-inch touchscreen display of the CleanWorks™ Operating System, which offers intuitive controls for users. This system allows for the creation and saving of up to 200 customizable wash programs, making the washers highly efficient and adaptable to various cleaning needs.
These washers are designed for convenience and efficiency, significantly reducing the time and effort required to clean laboratory glassware. The customizable wash programs allow users to tailor the cleaning process to specific needs, ensuring optimal results. Labconco’s glassware washers are essential laboratory equipment for maintaining cleanliness and preventing cross-contamination in sensitive scientific research.
Glove Box
Protector Combination Glove Boxes provide inlet and outlet HEPA or ULPA filtration and a leak-tight physical barrier to protect the operator from exposure to potentially hazardous materials and perform work with contamination-sensitive materials under vacuum or in an inert environment.Protector Combination Glove Boxes are specialized laboratory equipment designed to provide a safe, controlled environment for handling hazardous or contamination-sensitive materials. These glove boxes feature inlet and outlet HEPA or ULPA filtration, ensuring that air entering and leaving the box is thoroughly filtered to remove harmful particles. The system also includes a leak-tight physical barrier, offering an additional layer of protection for the operator from exposure to potentially dangerous substances.
These glove boxes are particularly useful for tasks that require working under vacuum or in an inert environment, making them ideal for applications in chemical handling, pharmaceutical research, and materials science. The ability to create a controlled atmosphere helps prevent contamination, ensuring the integrity of sensitive materials while providing a safe working space for researchers.
In summary, Protector Combination Glove Boxes are a crucial piece of laboratory equipment for safely conducting work with hazardous materials or contamination-sensitive substances, offering both physical protection and a controlled environment.
BIO Safety Cabinet (BSC A2)
The Purifier Logic+ Class II, Type A2 Biosafety Cabinets are advanced laboratory equipment designed to provide comprehensive protection for personnel, products, and the environment when working with hazardous materials. These cabinets are specifically engineered to meet the demanding safety requirements of laboratories dealing with hazardous biological agents that require Biosafety Levels 1, 2, or 3 containment. They offer a high level of protection against airborne contaminants, ensuring that harmful particulates, such as pathogens, antineoplastic drugs, genetic material, and even substances like asbestos, are safely contained.
Triple Protection: Personnel, Products, and Environment
One of the standout features of the Purifier Logic+ Class II, Type A2 Biosafety Cabinets is their ability to deliver triple protection. The cabinet protects the laboratory personnel by maintaining a controlled airflow system that prevents hazardous particulates from being inhaled. It also safeguards the products being handled by ensuring that airborne contaminants do not come into contact with sensitive materials or samples. Finally, the cabinet protects the environment by containing harmful agents and filtering the air before it is released back into the laboratory or the external environment.
These biosafety cabinets are particularly important when working with materials that generate hazardous airborne particulates. For instance, they are essential when handling antineoplastic drugs, which are used in cancer treatment but can be toxic, or when working with genetic material that could have significant biohazard implications if contaminated. Moreover, asbestos and other toxic substances that can be harmful if inhaled are safely managed within the confines of a Purifier Logic+ Class II, Type A2 cabinet.
The Purifier Logic+ Class II, Type A2 Biosafety Cabinets are designed to meet the rigorous standards set by the National Sanitation Foundation (NSF), making them NSF-listed for quality and safety. This certification assures laboratory personnel that the cabinet adheres to strict performance and safety standards, ensuring optimal protection and reliability in sensitive research settings.
In addition to safety, Purifier Logic+ cabinets are known for their efficiency and user-friendly design. The laboratory equipment’s airflow system is designed to maintain optimal sterile conditions with minimal energy consumption, contributing to both safety and operational cost-efficiency. The ergonomic features and intuitive control systems also make the cabinets easy to use, allowing researchers to focus on their work while ensuring that the environment remains contamination-free.
Our partner
<a href=”http://www.celestialdirectory.com/”>Celestial Directory.com</a>
<a href=”http://www.celestialdirectory.com/”>Celestial Directory.com</a>
<a href=”https://ebay-dir.com/”>Ebay Dir .com</a>
<a href=”http://www.ecodir.net/”>Eco Dir.net</a>
<a href=”https://www.bluesparkledirectory.com/”>Blue Sparkle Directory.com</a>
What Is a Fume Hood?
A fume hood is a ventilated enclosure used in laboratories to safely handle hazardous or volatile substances. It works by drawing air away from the user and filtering it before releasing it outside or recirculating it, depending on the hood type. This helps protect lab personnel from inhaling toxic fumes, vapors, and dust.
What Is a Fume Hood Used For?
Fume hoods are essential in labs for:
Conducting chemical reactions that release toxic gases.
Handling volatile substances or flammable solvents.
Preventing the spread of contaminants during experiments.
Protecting users from chemical splashes and spills.
How Does a Fume Hood Work?
Fume hoods operate by pulling air from the lab through the front opening and across the work surface inside the hood. The air then passes through filters (HEPA or carbon, depending on the application) before being exhausted or recirculated. This airflow:
Contains and removes airborne contaminants.
Maintains negative pressure to prevent escape of fumes.
Shields the user with a sash window that can be raised or lowered.
How to Store Glassware in a Fume Hood?
While fume hoods are not storage cabinets, temporary storage of glassware is acceptable if:
Only essential items for the current experiment are kept inside.
Glassware does not block airflow or vents.
Containers are properly labeled and sealed.
The hood remains uncluttered to maintain effective air movement.
Permanent storage of chemicals or equipment is discouraged as it compromises airflow and safety.
What Certification for Fume Hood Is Required?
Fume hoods must meet regulatory and performance standards to ensure user safety. Certification should comply with:
ASHRAE 110 (performance testing)
ANSI/AIHA Z9.5 (ventilation design)
Local building, fire, and occupational safety codes.
Certified professionals should test and certify hoods annually or after significant maintenance or relocation.
What Is a Compliance Certificate for the Fume Hood?
A compliance certificate confirms that the fume hood meets safety and performance standards. It includes:
Test results (face velocity, containment, and airflow patterns)
Date of certification
Certifier’s credentials
Next due date for recertification
This document is essential for audits, inspections, and lab safety protocols.
What Is the Difference Between a Laminar Flow Hood and a Fume Hood?
| Feature | Fume Hood | Laminar Flow Hood |
|---|---|---|
| Purpose | Protects user from hazardous fumes | Protects product from contamination |
| Airflow | Exhausts air outside or through filters | Blows filtered air over the work surface |
| Direction | Inward airflow (into the hood) | Outward, laminar airflow (toward the user or side) |
| Applications | Chemical handling, toxic fumes | Sterile work, tissue culture, electronics |
Do not use laminar flow hoods for chemical fumes—they are not designed to protect users.
What Disposables Belong to a Fume Hood?
Common disposables used in fume hoods include:
Disposable gloves
Chemical-resistant wipes
Absorbent pads or liners
Disposable pipettes or syringes
Contaminated glassware wrappers or seals
Always dispose of contaminated items as per your lab’s hazardous waste protocol.
When Do We Use Fume Hood Safety?
Use fume hood safety practices whenever:
Working with toxic, flammable, or volatile chemicals
Conducting processes that emit fumes, aerosols, or dust
Opening containers of unknown substances
Transferring chemicals that require ventilation
Following safety protocols—like lowering the sash, using proper PPE, and avoiding rapid movements—is critical for protection.
Why Do We Transfer the Sample to the Fume Hood?
Samples are transferred to the fume hood to:
Prevent exposure to harmful fumes during transfer or analysis
Minimize contamination of the laboratory environment
Control volatile emissions in a confined, ventilated space
This ensures both personal and environmental safety during sensitive chemical procedures.