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Best Benchtop Centrifuges: A Comprehensive Guide

INTRODUCTION AND BRIEF HISTORY

One of the most important pieces of equipment in the laboratory is the centrifuge, which facilitates the separation of samples of different densities. Centrifuge exists in different forms for different utility: gas centrifuge for isotope separation, human and non-human centrifuges for aeronautics and astronautics, industrial centrifuge separator as a coolant filtration system, geotechnical centrifuge for testing Geotechnical Engineering systems, and various centrifuges for commercial applications such as washing machines and sugar centrifugal machines.

The use of centrifuge systems started as early as mid-15th century when hand-driven centrifuge was used as a milk separator, and in 1864, Antonin Prandtl developed the first dairy centrifuge which separates the cream from milk. The potential of using the centrifuge system in the laboratory was exploited in 1869 by Friedrich Miescher. He was the first researcher to isolate nucleic acid from a cell with the use of a crude centrifuge system. The use of the centrifuge in the laboratory was then recognized and further developed which led to the development of a continuous centrifugal separator by Gustaf de Laval. The commercialization of centrifuge then surfaced as further improvements on the centrifuge system were made, such as Theodor Svedberg’s ultracentrifuge which enabled him to record sedimentation boundaries, Emile Henriot’s centrifuge which had very high rotational speeds, and many more.

 

CHOOSING THE BEST BENCHTOP CENTRIFUGE

Choosing the Best Benchtop Centrifuge

With a number of choices available in the market, it is necessary to know how to select the most appropriate and best type of centrifuge.  Remember three significant factors while choosing a centrifuge.

  • Your requirements
  • Specifications
  • Total cost

Your requirements

It is essential to know your requirements before purchasing a centrifuge since there is a suitable and appropriate type of centrifuge available for each application. The most widely recognized applications that use centrifuge devices are medical and research laboratory tasks. The most commonly utilized centrifuges in these fields are micro-centrifuges, benchtop centrifuges, high-speed centrifuges, ultracentrifuges, and hematocrit centrifuges. For instance, ultracentrifuges are generally utilized to extract cellular components, for example, DNA, in the fields of molecular biology, biochemistry, and microbiology.  Hematocrit centrifuge models, alternatively, are frequently utilized to divide blood components into the plasma and RBC layers.

Specifications

A few of the specifications that you ought to consider are:

  • Speed and performance (cycles/minute and relative centrifugal force)
  • Capacity of the device
  • Easy to operate
  • Reliability

The rate of centrifugation, generally known as revolutions per minute (RPM), is a term utilized by the developers to tell how quickly the centrifuge will rotate despite the size of the rotor. In contrast, the relative centrifugal force (RCF) is the force produced by the revolutions of the rotor and applied to the contents of the rotor which results in the separation of fluids in the centrifuge.  The RPM and RCF forces are among the most important specifications to consider while selecting centrifuges because the requirement for the centrifugal force varies for the sedimentation of a different specimen. For instance, to accurately isolate specific bacterial cells from a specimen, high-speed or ultracentrifugation is required.

A few centrifuges have fixed speed, whereas other centrifuges have variable speed settings because of control panels or rotating frameworks that allow the user to choose a particular speed or power. This variable-speed option and rotary selection enable the users to utilize their device for a wide range of applications (multipurpose centrifuge).

The capacity of the device is determined by the maximum quantity or volume of samples that you can accommodate inside the rotor. Benchtop centrifuges, ultracentrifuges, or multipurpose centrifuges, can fit up to 1000 ml of sample per tube or bottle, based upon the model. The quantity of tubes or bottles these centrifuges can hold additionally varies depending on the model. The number and type of sample each centrifuge can hold relies upon the type of rotor, and in a few centrifuges, these rotors can be replaced with certain models that have up to 18 rotor options. In addition, a few centrifuges are assembled with refrigeration systems, which are helpful for temperature labile specimen.

To ensure that the centrifuge is easy to operate, try the various types of control panels and programs available on a centrifuge. It is important to opt for purchasing models with control panels that are user-friendly in case you are not familiar with controlling centrifuges so that you can accurately utilize the centrifuge. This will also enable the user to avoid making mistakes that could result in workplace accidents or disasters. A few centrifuges have additional features like alarms, safety locked covers, and automated rotor identification that could assist in the safety and comfort of carrying out centrifugation while performing multiple tasks with other laboratory tasks.

Total costs

It is important to keep in mind that a centrifuge with higher power will require a higher amount of energy to operate. Consequently, it is less energy-efficient as compared to the low-speed centrifuges.  However, a few models are less expensive and could still deliver acceptable outcomes, although not as precise as expensive high-speed centrifuges. Another significant point to consider while choosing a centrifuge is that the device can be purchased with or without rotors; you need to purchase the rotors separately if the rotors are excluded from the model. In addition, the warranty of the device ought to be taken into consideration in case there is an unexpected turn of events that you did not anticipate.

 

List of Best Benchtop Microcentrifuges

These centrifuges, albeit having bigger dimensions than microcentrifuges, are still suitable to fit in your workspace for the compact design. The significant feature of these centrifuges is the significantly low operating noise level to avoid distractions when in use at your benchtop. Based on the parameters mentioned above, reviews of users, and nominations or awards won by the apparatus, here is our list that you can choose from:

 

Eppendorf Model 5804

Speed and performance – Variable speed; 200-4,000 RPM; maximum RCF of 20,913 x g

Instrument capacity –40 x 15 ml conical tubes; 56 x 13 mm/52 x 16 mm blood collection tubes; 4 x 250 ml buckets

Rotor options – 12 options

Ease of operation – Front panel with control knob and buttons

Extra feature/s – swing-out rotors; aerosol-tight; automatic stop

Power – 120V/60Hz

This centrifuge is best used for applications requiring large amounts or numbers of samples. It has a significantly high maximum RCF of 20,913 x g and a speed range of 200-4,000 RPM. This model can accommodate 250ml buckets, 15ml tubes, and 50ml tubes, with its four-place swing-out rotor and adapters. Hazardous samples can be used due to its aerosol-tight rotor and lid, and the centrifuge automatically stops when the lid is opened for safety. Its front panel has control buttons for quick and easy manipulation of settings or programs such as RPM, RCF and time.

 

Benchmark Hermle Z206A

Speed and performance – Variable speed; 200-6,000 RPM; maximum RCF of 4,180 x g

Instrument capacity – 0.2 ml to 50 ml tubes (depending on the rotor)

Rotor options – 4 options

Ease of operation – Front panel with control knob and buttons

Extra feature/s – can be operated with a swing-out rotor

Power – 120V/60Hz

This centrifuge can be used for both clinical and research applications. With four rotor options, it can accommodate various volumes of samples, from 0.2 ml up to 50 ml tubes. An example of its rotor options is the BS-Z206-0605 rotor, a swing-out rotor which is usually preferred by many clinical laboratories. Its maximum speed is 6,000 RPM, and the user can easily control its acceleration and deceleration with the control knob and buttons located at the front panel.

 

Waverly CL100

Speed and performance – Variable speed; 100-4,500 RPM; maximum RCF of 2,490 x g

Instrument capacity – 8 x 15 ml tubes; 12 x 3ml, 5ml, 7ml, or 10ml vacuum tubes with adapters

Rotor options – 1 option; angle rotor

Ease of operation – LCD panel, control knob, short-spin button, and timer

Extra feature/s – electrical lock and automatic release; advanced micro-computer

Power – 110V/60Hz

This clinical centrifuge is equipped with an angle rotor that can accommodate a range of volume of samples with the use of adapters. The advanced micro-computer of the model allows easy and complete control of RPM, RCF, and time, by displaying real-time parameters and symbols to show the centrifugation process. For safety purposes, it has an electrical lock with an automatic release when the rotor stops rotating.

 

Ample Scientific Champion F-33D

Speed and performance – Variable speed; 550-3300 RPM; maximum RCF of 1350 x g

Instrument capacity – Eight: 15 mL tubes or 7 mL tubes

Rotor options – 1; fixed angle 45-degree polycarbonate

Ease of operation – Digital tachometer and controller

Extra feature/s – Brushless motor; manual lock

Power – 120V/60Hz

In contrast to the Ample Scientific Champion E-33 which has fixed speed, this model has variable speed settings. This model can accommodate eight samples, with volumes 15 mL or 7mL tubes. However, for 7mL tubes, you will need small tube sleeve inserts for it to fit inside the rotor, which is already included in the package when you buy this model.

 

BEAR C2204

Speed and performance – Fixed speed: 1000, 1500, 2000, or 3000 RPM; maximum RCF of 1,350 x g

Instrument capacity – 12 x 12ml tubes or 9ml vacuum tubes

Rotor options – 1; swing-out rotor

Ease of operation – front panel: LED display, control buttons, on/off switch

Extra feature/s – vibration-resistant design; automatic launch lock and stop

This low-speed benchtop centrifuge can be used in both clinical laboratories and medical schools with a capacity of twelve 12ml tubes or 9ml vacuum tubes (with the use of adapters). This model has a maintenance-free brushless motor, soft start and run down, an automatic launch when the lid is locked, and an automatic stop if the lid is opened for safety. The vibration-resistant design of C2204, it will surely not disturb the user when placed in the workplace.

 

Premiere XC-2000

Speed and performance – variable speed; 1000-4000 RPM (adjustable in 500 RPM increments); 1790 g RCF

Instrument capacity – Six tubes: 10 mL to 15mL

Rotor options – 1; fixed-angle rotor

Ease of operation – front panel: LED display, timer selection buttons, on/off button

Extra feature/s – continuous hold-spin function; last-spin memory; auto-snap; rubber suction feet

This model offers variable speed selection with the use of the front panel to set the settings. It has a timer that can be set up to 60 minutes, and a last-spin memory feature to help you minimize the time you spend on reconfiguring your settings. With the compact design, suctioned feet to keep it in place, and minimal noise during operation, this centrifuge is perfect for your workplace. Also, the auto-snap feature ensures safety which is enabled when the lid is opened before the cycle of the rotor is complete. The manufacturer offers a 1-year warranty.

 

Premiere XC-2415 Centrifuge

Speed and performance – Variable speed; 1000-4000 RPM (adjustable in 100 RPM increments); 120 x  g to 1933 x g RFC

Instrument capacity – twelve; 10 mL to 15 mL test tubes

Rotor options – 1; fixed-angle aluminum rotor

Ease of operation – front panel: LED display, timer selection buttons, on/off button

Extra feature/s – continuous hold-spin function; last-spin memory; electronic lock and safety release latch; rubber suction feet

This model offers higher RFC than the previous Premiere model and also provides low operating noise level of under 60 dB. It has a maximum instrument capacity of twelve samples of 10ml to 15ml test tubes. With the front panel, you can set your desired settings and not worry about having to set it again for another batch of samples (if the same settings should be applied) with its last-spin memory feature. Its electronic lock and safety release latch feature ensures your safety; the lock is triggered when the centrifuge starts spinning, and the latch allows you to open the unit if there’s an emergency. This machine also comes with a 1-year warranty.

 

TAKING CARE OF CENTRIFUGES

Instruction Manual

Every centrifuge comes with a manual, and it includes information on cleaning, maintenance, and possibly lists of disinfectants that are safe to use. Manuals should be read beforehand and should be kept for future reference.

Cleaning

The materials used in the manufacturing of centrifuges vary; plastic, ceramic, aluminum, and stainless steel are most commonly employed. Refer to the manual for recommendations from the manufacturers on chemicals and equipment to use. Make sure to clean the centrifuge daily, or at least weekly, to ensure the longevity and durability of the item. Remove the rotor, container holders, and samples, before cleaning the interior of the centrifuge. Clean the interior bucket, specimen holder, rotary motors, and other parts of the centrifuge. Do not use caustic detergents or anything with chlorine as a disinfectant or sterilizer, nor should you use steel wool, wire brushes, and other abrasives, when cleaning the centrifuge. Use a sponge and water with mild detergent instead.

Remember to clean the exterior too. Never pour water directly, or flood the interior of the centrifuge with water. This will damage the sensors, wirings, and other parts of the centrifuge that are sensitive. After cleaning, make sure to dry each part and cavity of the centrifuge properly.

Samples and Spills

Do not centrifuge uncommon solvents or solutions without referring to the manual first. Handle the human blood samples with utmost care and precaution to avoid contamination.

The spilled sample on the rotor will be dispersed as a mist if the centrifuge is running. However, many rotors have sealed compartments that provide aerosol containment to detain the mist. Decontamination of the containers must be done immediately. If the model does not offer a sealed compartment, then the whole chamber must be disinfected.

Rotors

The forces exerted by the centrifugal field take a toll on the rotor. Do not attempt to run the rotor at speeds higher than its maximum. Refer to the manual for specific instructions for handling rotors and make sure to replace damaged rotors (if applicable) before using a centrifuge.

Tubes

During centrifugation, containers of the samples like glass tubes can break due to the force exerted by the system. Any fragments of the glass or spillage from the sample should be removed from the buckets, adapters, rubber liners, and rotor chamber before using the centrifuge again. Remember to do several dry runs without samples to ensure that there is no further damage, and clean the dust that might have come from sandblasting of the rotor chamber due to glass fragments between each run.