MicroMI: a portable microbiological mobile incubator that uses inexpensive lithium power banks for field microbiology
MicroMI: a portable microbiological mobile incubator that uses inexpensive lithium power banks for field microbiology
Incubation at controlled temperature is a key step in culture based microbiological tests. Access to culture-based microbiological testing requires access to conventional incubators in a laboratory. Portable incubators allow microbiological testing in the field and in resource-limited settings, and can eliminate the challenge of sample transportation, minimising the chance of sample degradation. Recent studies have reported low-cost portable incubator designs suitable for field or off-grid use, but these either need an external power supply (e.g. mains AC or 12V DC), or rely on passive heating without thermostatic control. Here we report that small inexpensive uninterruptable power supply (UPS) products manufactured for consumer electronics and powered by lithium-ion battery packs allowing thermostatic temperature control in small portable incubators that can maintain precise temperatures with or without external power. We present an open-source design for a Microbiological Mobile Incubator (MicroMI) in two sizes for field use. The MicroMI is built from simple and widely available components and is easy to set up. The open source design can be customised for different numbers of samples. The smallest and most efficient design uses a vacuum insulated food flask that allows longer operation with smaller, lower capacity UPS. The larger flight case design has space for more samples, but depletes the battery faster. The UPS maintains a typical microbiology incubation temperature for up to 24 hours without external power- ideal for typical incubation needed for culture methods. The battery capacity, incubator design, and external ambient temperature all affected duration of operation without requiring external power. We validated the MicroMI by conducting classical microbiological tests using agar petri dishes, slant cultures and dip slides, and biochemical tests. We conclude the MicroMI design allows inexpensive lithium battery products to be used to simplify field microbiology and increase access to vital analytical microbiology testing.
Bizley, Samuel
e2d03859-89ea-4a74-b8b0-b43c96e45d6f
Pande, Partha Pratim
4ec841ae-b714-4b31-beab-877d3dd2f383
Edwards, Alexander
bc3d9b93-a533-4144-937b-c673d0a28879
Diep, Tai The
1fe7b72c-db51-420a-8ee6-b890d23f2d5c
26 October 2021
Bizley, Samuel
e2d03859-89ea-4a74-b8b0-b43c96e45d6f
Pande, Partha Pratim
4ec841ae-b714-4b31-beab-877d3dd2f383
Edwards, Alexander
bc3d9b93-a533-4144-937b-c673d0a28879
Diep, Tai The
1fe7b72c-db51-420a-8ee6-b890d23f2d5c
Bizley, Samuel, Pande, Partha Pratim, Edwards, Alexander and Diep, Tai The
(2021)
MicroMI: a portable microbiological mobile incubator that uses inexpensive lithium power banks for field microbiology.
HardwareX, 10, [eoo242].
(doi:10.1016/j.ohx.2021.e00242).
Abstract
Incubation at controlled temperature is a key step in culture based microbiological tests. Access to culture-based microbiological testing requires access to conventional incubators in a laboratory. Portable incubators allow microbiological testing in the field and in resource-limited settings, and can eliminate the challenge of sample transportation, minimising the chance of sample degradation. Recent studies have reported low-cost portable incubator designs suitable for field or off-grid use, but these either need an external power supply (e.g. mains AC or 12V DC), or rely on passive heating without thermostatic control. Here we report that small inexpensive uninterruptable power supply (UPS) products manufactured for consumer electronics and powered by lithium-ion battery packs allowing thermostatic temperature control in small portable incubators that can maintain precise temperatures with or without external power. We present an open-source design for a Microbiological Mobile Incubator (MicroMI) in two sizes for field use. The MicroMI is built from simple and widely available components and is easy to set up. The open source design can be customised for different numbers of samples. The smallest and most efficient design uses a vacuum insulated food flask that allows longer operation with smaller, lower capacity UPS. The larger flight case design has space for more samples, but depletes the battery faster. The UPS maintains a typical microbiology incubation temperature for up to 24 hours without external power- ideal for typical incubation needed for culture methods. The battery capacity, incubator design, and external ambient temperature all affected duration of operation without requiring external power. We validated the MicroMI by conducting classical microbiological tests using agar petri dishes, slant cultures and dip slides, and biochemical tests. We conclude the MicroMI design allows inexpensive lithium battery products to be used to simplify field microbiology and increase access to vital analytical microbiology testing.
This record has no associated files available for download.
More information
Accepted/In Press date: 12 October 2021
Published date: 26 October 2021
Identifiers
Local EPrints ID: 501396
URI: http://eprints.soton.ac.uk/id/eprint/501396
ISSN: 2468-0672
PURE UUID: 07310a43-262d-4486-b15c-533642d83951
Catalogue record
Date deposited: 30 May 2025 16:44
Last modified: 31 May 2025 02:12
Export record
Altmetrics
Contributors
Author:
Samuel Bizley
Author:
Partha Pratim Pande
Author:
Alexander Edwards
Author:
Tai The Diep
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics