What is an 'autoclave,' and how does it work? We'll focus on the autoclave sterilization cycle process and walk you through the different autoclave cycle stages. After reading all the material in this series you’ll know how an autoclave works. Knowledge is power, and an autoclave user, technician, or operator is more effective and efficient if he or she understands the different stages of the sterilization process. Show
This series will cover all aspects of autoclaving, including:
Before reading further, you may also be interested in the learning series Autoclave Sterilization Basics which discusses topics about autoclave sterilizers and sterilization. What is an Autoclave?The invention of the autoclave sterilizer is attributed to Charles Chamberland, in 1879. Around that time, researchers started to understand the advantages of sterile surgery, and doctors needed a more reliable sterilization method than open flaming. The autoclave’s benefits were soon evident, and it became an essential part of every clinic and hospital. An autoclave is used to sterilize surgical equipment, laboratory instruments, pharmaceutical items, and other materials. It can sterilize solids, liquids, hollows, and instruments of various shapes and sizes. Autoclaves vary in size, shape and functionality. A very basic autoclave is similar to a pressure cooker; both use the power of steam to kill bacteria, spores and germs resistant to boiling water and powerful detergents. Generating Steam and Steam QualitySteam is the autoclave’s sterilization agent. In our Sterilization Methods series, we explained the physics of steam and why it’s ideal for destroying microorganisms such as bacteria and spores. Part 1 of this post will explain how steam is generated for autoclaving purposes. Part 2 in this series will discuss the various types of autoclave steam supply and generation and when each is used. Back to the SourceThe ANSI/AAMI sterilization standard states:
Tuttnauer provides autoclaves that connect to the building or hospital steam supply as well as models equipped with self-contained electric steam generators. Other Tuttnauer autoclaves are fitted with a double-steam option (capable of changing steam supply source according to building steam availability) fitted to user requirements. The autoclave steam generator is either built-in or stand-alone, depending on chamber size. Autoclave Steam QualityWhen it comes to transferring large quantities of energy to an object requiring sterilization, nothing’s more powerful than steam. After all, steam engines propel ships and trains. Even the Titanic was powered by steam. We discussed steam quality in a detailed post on sterilization methods, but let’s review the factors that determine this quality, because it’s crucial for proper autoclave functioning and the sterilization process as a whole. Two parameters are most important:
The optimal composition of steam within an autoclave is 3% liquid and 97% gas. Any change in the percentage of moisture increases or decreases sterilization time. In practice, sterilization time is calculated according to optimum steam conditions and steam’s ability to transfer energy to the non-sterile load prior to sterilization. After all, one of the most important benefits of steam autoclave sterilization is that it requires considerably less time and heat than a dry heat sterilizer, due to steam’s capacity to transfer energy. Dry Steam? Wet Steam? Not in the AutoclaveLess than 3% humidity produces what’s called dry or superheated steam. This steam increases sterilization time because it reduces energy transferability. Superheated steam lowers humidity to roughly 0%, transforming the autoclave to a dry-heat oven. The energy transfer is reduced, and what takes three minutes in an autoclave at 134°C takes two hours at 160°C and thirty minutes at 180°C!! However, greater than 3% humidity generates saturated or wet steam, which requires higher sterilization pressure and temperature. Wet steam also extends the drying time at the end of the sterilization process. A dry load is required at the end of the process when the load is wrapped and not intended for immediate use. Autoclave sterilization standards and directives permit some flexibility in steam humidity levels, since it’s almost impossible to supply perfect steam at a steady flow. Even if conditions are nearly optimal, many variables affect steam as it’s transferred to an autoclave. Chief among them: weather conditions and temperature; piping quality, length, and structure; drainage stations; and availability of high-quality steam traps. Pick Up SteamNow that we understand how steam works, we can examine how it’s generated and fed into the autoclave. Our next post will “pick up steam,” discussing the autoclave steam generator and explaining its different types and purposes. Stay tuned. More about Tuttnauer autoclave sterilizers:
What are the major components for a typical autoclave system?Critical Components of an Autoclave. Vessel. The vessel is the main body of the autoclave and consists of an inner chamber and an outer jacket. ... . Control System. ... . Thermostatic Trap. ... . Safety Valve. ... . Waste-Water Cooling Mechanism. ... . Vacuum System (if applicable) ... . Steam Generator (if applicable). What is the best way to ensure your autoclave is working properly?Check temperature for 250°F (121°C) every load. Do not attempt to open the door while autoclave is operating. Ensure cycle has completed and both temperature and pressure have returned to a safe range. Wear PPE described above, plus an apron and face shield if removing liquids.
What are the 3 things the autoclave uses to sterilize something?The autoclave combines four factors—heat, steam, pressure, and time—to sterilize what's placed inside it. It's the ideal solution for lots of media and is usually far more practical than options such as incineration. Laboratories live by autoclaves.
Which of the following parameter is used to ensure a successful sterilization process in an autoclave?To be effective, the autoclave must reach and maintain a temperature of 121° C for at least 30 minutes by using saturated steam under at least 15 psi of pressure.
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