The fume hood is an essential piece of equipment to maintain efficient and safe operation in a science laboratory; this fume hood, also known as a laboratory hood, was developed to remove unwanted vapors, light, dust and volatile materials resulting from hazardous chemical and biological operations.

The full steel biological safety cabinet was designed for the protection of researchers within laboratories involved in the handling of infectious pathogens and other materials, providing an effective barrier to prevent the escape of potential microorganisms into the workroom.

Laboratory autoclaves are one of the most important food processing equipment in the food industry; they are designed so that an experienced operator can simultaneously do a variety of jobs to maintain high quality standards in food processing.

A laboratory recirculator offers a variety of benefits that cannot be achieved through traditional use of equipment; these recirculation systems are relatively new in the field of scientific laboratories, and are designed to improve the efficiency, safety and speed with which certain experiments can be performed.

In order to provide a safe and healthy environment, having a recirculator is key; these monitoring stations comprise an air control and recovery system and add complementary modules designed to optimize its operation.

Energy saving is an increasingly important issue in our society, as fossil fuels are depleted and climate change becomes more evident; furthermore, energy resources are limited and their use is sometimes not very efficient, for these reasons, more and more people are worrying about saving energy and reducing our planet's carbon footprint.

A recirculator is a tool used in many laboratories to provide continuous circulation to substances, such as liquids by applying pressure; the recirculator is connected to a network of pipes in which the flow of liquid follows a predefined pattern.

Home circulators and laboratory recirculators are devices that have different functions and characteristics; these elements facilitate the removal of particles, calories and smoke, in addition to air, other glasses and liquids.

The fundamental design criteria for a laboratory recirculator are essential for biological or chemical applications. These equipment can be air to air or air to liquid, depending on the use that will be given. For air-to-air models, a feedback air recirculation recirculator is required to map direction in laminar flow. Appropriate filter elements are essential to ensure accurate circulation.

Biosafety in laboratory recirculators is a relevant topic today. In order to ensure safety in such recirculators, certain aspects should be considered. The first aspect is, you should use a team with good quality certification to avoid any infection or contagion. Maintenance and monitoring of the recirculator should be done frequently, as once a year is not enough, this is because older recirculators are prone to detachment of particulate matter and pollutants. In addition, the recirculator should be cleaned as instructed and entry restricted to individuals outside the laboratory and essential protective equipment should be worn to avoid exposure to any pathogen.