Friday, February 18, 2022

Specifications Of Legitimate Laboratory Transport Carts

If you are an old or established company in the healthcare industry, chances are that you have to deal with transporting materials from one site to another. Laboratory transport carts are a great solution for this need. They are easy to move around and can hold a big amount of supplies. They also protect your materials from dust-laden air, which gives you the peace of mind that they are stored in a clean place.

Laboratory Transport Carts


Examples of what these carts can hold include:

  • Floor models that have buckets on wheels for picking up and carrying items, such as boxes, lab test kits, and other supplies that you need to move.  These Laboratory transport carts are usually available at Global Lab Supply in sizes as 60, 80, 100, or 120 gallons.
  • Trays with wells that slide along rails to give you extra shelving space for inventory. The wells are similar to the bottom of a 19-gallon trash can.  Ever glide tray carts, for example, have 6 wells that slide along rails.
  • Shelves that keep your supplies off the floor and handy so you can make them more accessible when needed. These shelves are a great way to store large volumes of items like small vials, microtubes, and test tubes.
  • In-floor models with rolling casters so they can be moved around your facility easily to wherever they are needed.
  • Heavy-duty over-the-shoulder models that you can lift with ease and maneuver around tight corners and upstairs or ramps in the facility.

Features to look for when purchasing a cart for the lab

  • Ships and tracks that provide adequate strength for the loads.
  • Size and weight capacity ratings when comparing different models so you can find one that can hold all your supplies.
  • Good maneuverability so you don't have to worry about it tipping over or getting stuck in a spot where you don't want it.
  • A strong base is important because these carts tend to be quite heavy.  If the base is too light, it will not be able to keep up with your load while rolling along.

The Final Words

These are just a few product tips that you can use to make sure that your company invests in the right transportation cart for your needs.

Tuesday, February 15, 2022

Importance of Laboratory Shelves That Make Everyone Use It

Do you need to buy laboratory shelves for your lab? You must know the importance of them. You can't manage things without one. However, you must make sure that the equipment is safe. These are a few reasons why people use laboratory shelves: 

Laboratory Shelving

 

  • To store chemicals, samples, and other supplies
  • To store materials that can be dangerous to humans or animals if they are not handled properly
  • To avoid spillage of hazardous materials
  • To help protect against fire hazards

If you think for Laboratory Shelving at your workplace then you need to keep several things user consideration. Below we have described some essentialities that will help you to buy a good product. You can check the Laboratory Shelving points described in your purchasing process.

How to Choose a Suitable Laboratory Shelf?

Check the Purpose

You need a laboratory shelf that can fulfill your purpose. With the help of a shelf, you can carry out your research work in a better way. You can easily do experiments within your lab.

Check Brand

The brand is another important thing you should consider before buying any product. It is suggested that you should buy good brand products because they are durable and good in quality. In addition, they will serve you better than the other products available at Global Lab Supply. You should buy an instrument from a reputed company/brand.

Check the Materials

The materials used in manufacturing products vary from one company to other. You can easily find the quality of different materials. Select good materials that are suitable for your purpose. You can also suggest an alternative material if you are not satisfied with the product or company.

Check for Reviews and Ratings

All major brands offer different products in the market and leave their reviews on them on various websites such as Good, Bad, Unsatisfactory, and more like this. It is suggested that you should read all the reviews of the products before buying them so you will know whether they are going to serve you well or not.

So if you look after the points illustrated above then you will end up getting the best Laboratory Shelving for you.

Importance Of Laboratory Drying Ovens

Laboratory drying ovens are an important piece of equipment in the laboratory environment. A lab is a setting with specialized equipment used for science experiments but also provides an orderly and controlled setting for performing planned procedures safely. Lab ovens come in all shapes and sizes, with different materials to heat or cool.

Laboratory Drying Ovens

 

Lab ovens provide a means for workers to complete experiments at their own pace without arbitrary time limits imposed by the lab's space constraints. The requirement of these systems has grown as laboratories have relied on genomics research, pharmaceutical research, histology studies, all requiring the use of delicate biological specimens that need to be dried before they can be preserved or analyzed further.

Benefits Of Drying Oven In Laboratories

The benefits of laboratory drying ovens can be categorized under two broad headings: the benefits to the researcher and the benefit to the science.

  • Establishing a clean environment is a key objective when setting up a laboratory, as contamination is often lethal for research subjects. Any piece of equipment that facilitates this objective can be classified under this category.
  • Drying ovens significantly reduce the surface moisture content of specimens in a controlled manner, preventing them from degrading or being destroyed by microorganisms that would otherwise lead to loss of information.
  • Laboratory drying ovens have another important benefit on scientific research: they help maintain stable conditions for experiments. For instance, studies in plant biology have seen greater accuracy in research results due to the use of laboratory drying ovens.
  • Laboratory drying ovens allow for more efficient and effective use of a researcher's time. Instead of constantly monitoring a specimen as it dries in an open environment, researchers can set up their specimens, program the drying process, and do other work while they wait.
  • This can also benefit as it leaves more free time for experiments that need constant attention during the drying process. Laboratory drying ovens are essential equipment for experiments involving specimens that require energy input during their drying process.

Laboratory drying ovens are important pieces of equipment as they provide researchers with a means of performing their experiments in a controlled, predictable environment. Ensuring that all research is performed in a clean and stable setting can greatly reduce the risk of contamination and thus allow for more accurate results.

Monday, February 14, 2022

How does an Industrial Oxygen Sensor Work?

An industrial oxygen sensor is designed to measure oxygen concentration in an environment. It works by measuring the infrared light emitted from a heated sample. As the light passes through a photodiode, it can be measured and analyzed to determine how much-infrared energy is absorbed. This information can be converted to a percentage reading on an LED digital display for easy readability.

Industrial Oxygen Monitor

 

Industrial oxygen sensors are typically used in hazardous production areas, where they measure the concentration of oxidizing gases such as nitrogen dioxide and nitric oxide and oxygen levels to provide an early warning that could prevent potentially disastrous events such as explosions or fires from occurring.

Benefits of using an industrial oxygen sensor

Industrial oxygen sensors not only help to prevent fires and explosions from occurring, but they are also a very useful tool for industry professionals, such as safety engineers and maintenance crews. The sensors can quickly determine the number of harmful gases in a particular area by measuring the amount of light being absorbed. They are also useful for determining moisture levels in an environment or building.

Advantages of industrial oxygen sensor

The industrial oxygen sensor can provide critical information to people throughout many different industries. This includes monitoring environmental conditions within an industrial facility where air quality and hazardous gases are warning systems that could potentially save lives while avoiding personal injury. It can monitor the moisture levels of buildings and other structures.

Industrial oxygen sensors are also useful for several different applications, including ensuring that materials are being stored in the appropriate temperatures and conditions and providing information.

Working of industrial oxygen sensor

How an industrial oxygen sensor works is relatively complicated, but it essentially involves measuring the amount of infrared light emitted from a heated sample. Inside the sensor is a small thermopile that has been submerged into a solution of water, alcohol, and other chemicals. Beneath the thermopile is two contacts made from platinum to measure the number of hot spots in the sample. The entire air chamber is sealed with an inert gas such as argon or nitrogen and placed into a heating chamber.

Automated Moisture Analyzer: Uses and Working Procedure

An automated moisture analyzer is a piece of equipment that analyses the percentage of water in any sample. This is the most robust type of moisture analyzer available, and it can be used for a variety of applications. It can also be used for a diverse range of materials, making it a valuable piece of equipment to have in any lab.

Lab Moisture Analyzer

 

How does Lab Moisture Analyzer work?

Moisture analyzers are generally built around the principle of evaporation. A certain amount of water is dripped onto the sample from a vial. The amount of water on the sample will affect its weight of it. This means that as more water drips onto the sample, the weight increases and vice versa.

A controller will measure this weight change, and you can know what percentage of water is present in your sample. These are elemental moisture analyzers suitable for testing smaller amounts of liquid or powdered materials. Advanced Lab Moisture Analyzer can be used for testing liquids automatically without any human interference. This is done by connecting them to many different instruments like flow meters, weighing scales, or even pH meters.

Applications of Moisture Analyzers

These moisture analyzers are used in many different types of industries. For instance, they are commonly used in the pharmaceutical industry.

  • In pharmaceutical, it is used to ensure that medicines have the exact level of moisture present recommended by the manufacturer or standards set by regulatory authorities.
  • Moisture analyzers can also be used in laboratories to detect impurities and contaminants in materials. This helps them to prevent contamination errors and maintain a high-quality standard.
  • Another common application is to check the quality of food and drinks. Here, it is used to ensure that all of the ingredients put into the product remain at a certain percentage of moisture.
  • It can also be used in other industries like research or manufacturing, where specific requirements are set for the moisture level.

If you are looking for something that can be used for a wide range of applications, you should look at an automatic moisture analyzer. These are the most accurate variety available at Global Lab Supply, reducing human error and ensuring that you will always get an accurate reading from your sample.

Microbiological Incubators in Laboratory: Working, Uses and Basic Structure

Although there are many types and models of incubators, none of them come close to the sheer power that the microbiological incubator can offer. They are used in laboratories, hospitals, and medical stores to help sustain life, such as keeping cultures alive. This machine can sustain a culture until they grow into a certain amount.

Microbiological Incubators

 

What Are Its Components?

The main component is the air that gets circulated through water, which can keep microorganisms at an optimal growing temperature without killing them off. The lower part of Incubators will contain water kept at 4 degrees Celsius or lower and an agitating device that rotates or stirs up the liquid so it doesn't get stagnant or dead spots where organisms die off.

Basic Structure of Microbiological Incubators

Microbiological incubators can be divided into four parts: Reservoir (Warming Plate), Tank, Tubing, and Housings. The Reservoir is a small water tank that you can quickly put your tubing into or keep under another reservoir.

Many also use it to control the temperature just by regulating the amount of water they feed it with. The heating plate is at the bottom of the incubator, where you'll place your tubes or chambers of culture so it can be kept warm throughout the entire process.

The tubing connects all of the tubes and chambers and connects to water so it can be fed and circulated throughout the incubator. The housing is a large container where the entire incubator is kept as a unit on its own, and once it's made, you'll place your tubes in.

Use of Microbiological Incubators in Lab

Microbiology is a science that's dedicated to studying living things. These living things could be plants or animals, but we're talking about microorganisms in this case. It's essential to understand those tiny organisms to be used in advancing medicine, biology, and many other fields. But how do you study them without killing them off? So the very first thing you need to do is keep the samples alive using a microbiological incubator. This incubator machine will help keep the sample alive and keep it at an optimal growing temperature that won't kill anything off like too cold or too hot.

Sunday, February 13, 2022

Getting Along the Working and Application of Forced Air Ovens

The laboratory oven is an indispensable instrument for extracting and drying many substances. Consequently, it is significantly used in all branches of the chemical industry and laboratories.

The importance of the oven for industrial processes such as roasting or baking has been recognized so long ago that its construction has become an art that will be difficult to supplant with any other process. One such oven used in the laboratory is forced-air laboratory ovens known to provide better temperature distribution, low energy consumption, and heat losses via radiation at high temperatures.

Forced Air Ovens

 

Working Of Forced Air Ovens for Laboratory

These Forced Air Ovens generate heat inside their compartment by applying hot air and steam. Hot air is continuously supplied to the oven, whereas a portion of the hot air is changed into steam. The steam from the oven is then used to supply heat or other processes by extraction, distillation, and cooling process.

The hot air and steam are supplied from a heating or cooling unit through windows and openings on the oven chamber's side, roof, or bottom. These openings can be as simple as round holes in the chamber's surface for supplying exhaust and doors that can be closed for providing a vacuum and open during internal heat exchange.

Applications of Forced Air Ovens in A Laboratory

These ovens are widely used laboratories for heating chemicals or substances at high temperatures. Other uses of forced air ovens include

  • The forced-air oven is used for drying solids, liquids, or gases. For example, it can be used to prepare dry materials necessary to manufacture paints, dyes, and other pigments.
  • In analytical chemistry, organic chemicals are dried at high temperatures to remove specific components such as water and other volatile components before the analysis.
  • The control of evaporation depends on the type of material being dried. To eliminate any uncertainty, a precise knowledge of drying characteristics is required by determining moisture content at various temperatures and times under specified conditions.

Thus, some oils and fats will only slowly evaporate at 100 °C, whereas others will rapidly evaporate at room temperature or below; this characteristic is volatility. Steam is used to reduce volatility in several oils, fats and greases.