6 Amazing Ways Industries are Using Cleanroom Equipment

Cleanrooms and controlled environments have long been connected with quality control in the pharmaceutical and medical sectors. Even in fields other than pharmaceuticals, hundreds of cleanroom professions have been developed where practitioners do some fantastic applications and investigations in a cleanroom-like setting.

Aerospace

The aerospace industry relies on the cleanroom environment and its cutting-edge innovations to perform testing and create things like space-flight lasers. No contaminants or pollutants are allowed to enter the manufacturing process or the product itself, which necessitates a controlled environment for aeronautical instruments like lasers.

Optics

For smartphones and professional cameras, lenses must be made in a cleanroom environment, which is why most people are thrilled when they capture a great picture with their phone.

Nanotechnology

Even while some people conceive of the nanotech cleanroom as only a boutique version of the cleanroom for electronics and semiconductor manufacture, the nanotech cleanroom is used in a wide range of industries, from food to fuel cells few.

University Research Centers and Laboratories

Because even the most painstakingly designed tests might fail due to the inclusion of an additional particle or two, it may be not easy to fathom how this can happen. All variables that might sway the results of an experiment must be removed to get a clear set of conclusions.

Safety from biological agents is critical

Because of the nature of their work, scientists and their employees are increasingly looking for a safe environment Cleanroom Equipment to conduct their research. Equipment designed for technicians, such as biological safety cabinets, keeps scientists safe as they do activities involving hazardous chemicals in a cleanroom environment.

Military Uses of the Technology

In addition to military and government agencies, cleanrooms are utilised for a wide range of projects and experiments. Many industries, as well as the creation of new products in the future, rely on cleanrooms. A few instances of how cleanroom conditions may be used are provided below. Several other possibilities may be conceived in the future.

5 Innovative Ways Industries are Using Isolation Glove Box

There must be a dependable barrier between lab staff and the products they are handling when it comes to lab safety. Glove boxes are a need in almost every field that conducts research or manufactures products.

Insulators made of meteorite Nitrogen Glove Boxes

Research on the stardust found on Antarctic meteorites is made possible thanks to a grant from the United States. Scientists may utilize this study to get insight into the creation of the solar system and their understanding of stars and their function. Scientists can also learn about evolution and age by studying these meteorites. This research relies on the use of glove box isolators. Low-particle and low-humidity conditions are maintained to provide a conducive learning environment.

Sealing via Radio Frequency

The preservation of antiquities is another area where glove box devices are often used. When studying evolution and the beginning of the Earth, artefacts such as texts or fossils are essential. Delicate specimens and priceless antiquities are protected using specialized RF Sealing Isolators.

Battery Electrode Packaging for Lithium Batteries

Lithium batteries may be used in various applications, from daily home products to military and scientific equipment. In the presence of oxygen, lithium battery electrodes may explode. The processing of lithium battery electrodes takes place in glove box isolators. Radio frequency (RF) sealing may be performed in a dry environment by adopting a humidity-control isolation glove box.

Investigations into Suspicious Mail

Mail delivery at the Postal Service is another fascinating use for the Glove Boxes. Initial storage in the mailroom glove boxes allows for thorough safety inspections. Once they've been tested and found to be safe, they're given out to businesses and people.

Research in Horticulture

A special Terrarium glove box was created to study the development phases of a plant and how environmental factors impact the growth of a plant. Vents at the top of the glove box are used to manage carbon dioxide levels. The level of oxygen in the chamber is monitored using an air meter.

Clear dividers are used to create four distinct areas inside a single glove box. Both include access doors, air vents and glove ports. It's ideal for inspecting plants in a separated glove box.

The Process of Cleaning a Table Top Laminar Flow Hood

If you run a laboratory, you must be aware of the importance of air filtration and cleanliness in the environment. The same case is applied in the case of tabletop laminar flow hood. However, cleaning such laminar flow hoods is not an easy nut to crack. Instead, this is a delicate process that requires attention and some effort. Here’s a step by step guide for cleaning a Table Top Laminar Flow Hood effectively.

Start With Cleaning the Wall of the Hood

Since the wall is the first surface that you notice when you look into the hood, the wall must be clean and germ-free. First, clean the walls with a microfiber cloth dipped in alcohol. If there are some stains or grease, use a strong cleaner to remove them.

To Ensure That Your Hood Is Clean

To ensure that your Table Top Laminar Flow Hood is free from bacteria and germs, use a dry cotton towel to wipe down every surface inside of your hood. Use a small amount of solvent cleaner to wipe down quartz glass surfaces that must have been contaminated during experiments.

Clean the Back Wall from Top to Bottom

The back of the hood can be easy to forget with it being hidden from sight. However, it is important to clean this area because you can get bacteria from this part of the hood. To ensure that any traces of bacteria on the back wall are gone, use a microfiber cloth dipped in alcohol and wiped down every surface from top to bottom.

Cleaning the Inside Walls

The inside walls are generally easier to clean than other surfaces on the laminar flow hood since they are not so visible and have been covered by other surfaces in between your experiments. However, it is still important to clean the inside walls to ensure no bacteria or germs are left behind and that your experiments are free from any type of contamination.

Using a proper cleaning method and keeping a regular maintenance schedule will ensure your laminar flow cabinet provides safe and accurate results. Dry cotton cloths dipped in alcohol can be used to wipe down your quartz glass surfaces regularly and ensure that they remain clean.

Lab Equipment: A Selection Guide To Right Laboratory Glove Box

A laboratory glove box is a device that makes it possible to work in the laboratory without isolating oneself from the world. The box is used to control spillage and contamination from substances being worked with, giving the operator access to an open environment without risking contamination of either themselves or the lab.

If you're looking for a new or refurbished glovebox, this guide will help you find one at an affordable price for your lab. Here are a few common types of glove boxes that are currently trending in the market:

Controlled Atmosphere Glove Box

A Controlled Atmosphere glove box is usually used in the research labs for doing experiments. These boxes are built, so that standard atmospheric air (21%) or Nitrogen gas is maintained inside the chamber to ensure safe working conditions. This method is used when one of the materials handled inside the glove box is highly flammable or dangerous for lab workers.

Positive Pressure Glove Box

A Positive Pressure Glove Box has an intake of clean air and an exhaust system that prevents any contamination from within the atmosphere to the outside atmosphere. In other words, it has positive pressure as opposed to exothermic/endothermic work, which involves negative pressure. Positive pressure means that the glove box is always filled with clean air and thus doesn't require frequent input of new clean air.

Negative Pressure Glove Box

A Negative pressure glove box has an exhaust system that constantly removes contaminated air from inside the chamber and replaces it with new incoming clean air. This method is generally used in exothermic/endothermic work, such as when one of the substances being worked on is highly flammable or reactive to the outside atmosphere.

Lab Bench Glove Box

A lab bench glove box is a device designed for experiments with liquids and solids that are not climatically sensitive or are not temperature or humidity sensitive. This type of glove box is mostly used in academic and research laboratories.

It is important to find a reliable company that provides glove boxes known for their quality. Also, consider if your budget allows you to purchase a new glove box or one that has already been refurbished. It may be cost-effective in the long run if you opt for a refurbished version, but make sure it will meet all of your needs.

What Are Lab Moisture Analyzers, And How Do They Work?

Lab moisture analyzers are machines designed to measure the relative humidity in a certain area. They work by measuring the amount of water vapor released from a sample. They can be used to monitor environmental conditions to study human physiology.

There are many types of these instruments, but this article will focus on one particular type, called an absolute humidity or temperature hygrometer, which is particularly useful when detecting leaks in your building's HVAC system.

Working on Lab Moisture Analyzers

Moisture analyzers work by measuring the amount of moisture in a sample. A moisture sensor probe is usually attached to a holding chamber that can be inserted into a sample (e.g., air, water, exhaust). The hygrometer then measures the rate at which water vapor leaves the holding chamber and uses this to compute humidity. This can make day-to-day indoor temperature and humidity readings easy to interpret.

The operation of a hygrometer depends on the fact that water molecules travel faster through colder air. This means that the rate at which the water molecules leave the holding chamber is related to the air temperature around it. This is relatively easy to accomplish and has been seen in devices ranging from inexpensive bathroom humidity readers to NASA-grade lab instruments.

Some Common Uses Of Lab Moisture Analyzers

There are many potential applications for a lab moisture analyzer. People who work with water tend to find leaks in HVAC systems fascinating. There are many great uses for these moisture analyzers across different industries. Some of these include

• Food industries for controlling moisture in certain food items
• Maintain appropriate quantity of water in certain samples
• Used as quality controllers in laboratories

The device often has a large temperature range of operation and can be used to detect leaks in refrigerators, HVAC units, cars, and other places where the coolant is circulated. Moisture sensors can even spot condensation from humidifiers at various places such as construction sites, hospitals, and nursing homes.

Many industries are now actively using these lab moisture analyzers to stay ahead in the game and improve their production efficiency. As a result, there are many benefits of using these lab moisture analyzers across different industries.

Why Is It Important To Work A Ductless Chemical Fume Hood In Lab?

In the lab, mistakes are inevitable. This is why working with a ductless chemical fume hood in the lab is imperative. These fume hoods actively protect lab personnel from the hazards of exposure to toxic chemicals and disinfectants that may be emitted during experiments. But, first, you need to explore how they contribute to safe laboratory practices and prevent exposure to harmful chemicals first. Here are a few reasons why it is essential to use a ductless chemical fume hood in the lab:

 

Fume Hoods Offer Proper Ventilation

Opening the windows or doors to let the fumes out is not a great idea as it can lead to chemical exposure if you are working with reactive chemicals. In addition, there is no assurance that all of the hazardous fumes will be removed from your location. These fume hoods ensure that toxic fumes are captured and funneled into a glass collector through an exhaust system.

Contains Damage from Any Type of Lab Explosion

Chemical accidents are very common in labs, especially when experiments go wrong. Having a ductless chemical fume hoods on hand helps contain the damages of a lab explosion. These fume hoods are constructed from strong and durable materials. In case of any dangerous chemical explosion occurs at a close distance from where you work, the glass collector within this type of fume hood immediately contains dangerous fumes.

Fumes Are Captured From Any Reactive Chemical Reaction

In case experiments take longer than expected, you may inhale toxins and fumes produced by certain chemicals. While holding your breath is not the best practice, opening the windows or doors to let in fresh air may cause you to catch a whiff of these dangerous fumes. The intake vents within a ductless chemical fume hoods work to capture toxic fumes from any chemical reaction close to the lab.

The benefits of working with a ductless chemical fume hood in a lab can help keep you safe when working with harmful chemicals and toxic fumes. In addition, it will provide you with the assurance that the hazardous fumes are contained and monitored at all times.

10 Step Guide for Biological Safety Cabinet For lab

Your work in the lab requires careful handling and storage of all chemicals, biological, and other potentially hazardous materials. Therefore, one needs to be familiar with a few basic principles for safe handling of these items is to understand more about biological safety cabinets.

 

These are cabinets installed in laboratories or production facilities and contain receptacles for storing materials used in laboratories or offices/work areas that can cause irreversible injury when mishandled or inhaled. Take a look at these ten safety tips for ensuring better safety with your cabinets:

1. While using these cabinets, let the cabinet run for five minutes without using it for any work. This will purge all the airborne contaminants available in the environment of your working area.
2. Keep the door of your cabinet open with the lock disengaged. Do not keep the lid down, as this may trap dust and other contaminants on the surface.
3. Replace the lid with a new one before refitting it in its place so to avoid trapping dust and contaminants inside.
4. Plan for a backup and alternative system for handling hazardous materials if your cabinets malfunction, get damaged, or are not operating properly.
5. Install at least one biological safety cabinets for each area in your laboratory. You may use an existing office/work area or create a new one by building your safe room.
6. If you are using a chlorine-based disinfectant, after every contact, make sure to wipe the entire surface on the internal side with a 70 percent solution of alcohol.
7. Ensure that the standard operating procedures (SOPs) are followed while working with these cabinets. This will help keep the entire laboratory/office safe from any microbial contamination or leakages.
8. Keep one box of personal protective equipment (PPE) as it helps if a spill happens or your cabinet malfunctions and you need to exit the area.
9. Never leave any equipment or containers open inside the cabinet, especially around the exhaust, as this can cause hazardous material to emanate from your cabinet.
10. Setting up and using a biological safety cabinet is important in designing a safer and healthier laboratory.

Take these tips into consideration while working with this system to avoid any problems that may arise due to its use. Follow these tips and ensure healthy work environments for your employees as well!