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Autori principali: Workie, Desalegn Tadesse, Chowdhary, Anupreet Kaur, Sekine, Mutsumi, Larry, Washburn, Woldie, Ayirkm Adugna, Kishi, Masatoshi, Toda, Tatsuki
Natura: Artículo científico
Lingua:en
Pubblicazione: Bioprocess and biosystems engineering 2026
Soggetti:
Accesso online:https://pubmed.ncbi.nlm.nih.gov/41077619/
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author Workie, Desalegn Tadesse
Chowdhary, Anupreet Kaur
Sekine, Mutsumi
Larry, Washburn
Woldie, Ayirkm Adugna
Kishi, Masatoshi
Toda, Tatsuki
author_facet Workie, Desalegn Tadesse
Chowdhary, Anupreet Kaur
Sekine, Mutsumi
Larry, Washburn
Woldie, Ayirkm Adugna
Kishi, Masatoshi
Toda, Tatsuki
Workie, Desalegn Tadesse
Chowdhary, Anupreet Kaur
Sekine, Mutsumi
Larry, Washburn
Woldie, Ayirkm Adugna
Kishi, Masatoshi
Toda, Tatsuki
collection PubMed - marine biology
contents Development of a low-cost real-time monitoring system for biomass concentration and environmental factors in microalgae Limnospira fusiformis cultivation. Workie, Desalegn Tadesse Chowdhary, Anupreet Kaur Sekine, Mutsumi Larry, Washburn Woldie, Ayirkm Adugna Kishi, Masatoshi Toda, Tatsuki Biomass Microalgae Spirulina Hydrogen-Ion Concentration Temperature The rising demand for spirulina (Limnospira spp.) highlights the need for affordable cultivation methods and practical biomass monitoring solutions. This study introduces a novel, low-cost, Raspberry Pi-based system for real-time monitoring and automated biomass recovery in microalgal cultivation. The system integrates turbidity, light, pH, and temperature sensors with an automated module for harvesting and medium replenishment. Cultures of the filamentous, spiral-shaped microalga Limnospira fusiformis were used to evaluate system performance. The turbidity sensor showed strong correlation with optical density (R = 0.943-0.986, p
format Artículo científico
id pubmed_41077619
institution PubMed
language en
publishDate 2026
publisher Bioprocess and biosystems engineering
record_format pubmed
spellingShingle Development of a low-cost real-time monitoring system for biomass concentration and environmental factors in microalgae Limnospira fusiformis cultivation.
Workie, Desalegn Tadesse
Chowdhary, Anupreet Kaur
Sekine, Mutsumi
Larry, Washburn
Woldie, Ayirkm Adugna
Kishi, Masatoshi
Toda, Tatsuki
Biomass
Microalgae
Spirulina
Hydrogen-Ion Concentration
Temperature
Development of a low-cost real-time monitoring system for biomass concentration and environmental factors in microalgae Limnospira fusiformis cultivation. Workie, Desalegn Tadesse Chowdhary, Anupreet Kaur Sekine, Mutsumi Larry, Washburn Woldie, Ayirkm Adugna Kishi, Masatoshi Toda, Tatsuki Biomass Microalgae Spirulina Hydrogen-Ion Concentration Temperature The rising demand for spirulina (Limnospira spp.) highlights the need for affordable cultivation methods and practical biomass monitoring solutions. This study introduces a novel, low-cost, Raspberry Pi-based system for real-time monitoring and automated biomass recovery in microalgal cultivation. The system integrates turbidity, light, pH, and temperature sensors with an automated module for harvesting and medium replenishment. Cultures of the filamentous, spiral-shaped microalga Limnospira fusiformis were used to evaluate system performance. The turbidity sensor showed strong correlation with optical density (R = 0.943-0.986, p
title Development of a low-cost real-time monitoring system for biomass concentration and environmental factors in microalgae Limnospira fusiformis cultivation.
topic Biomass
Microalgae
Spirulina
Hydrogen-Ion Concentration
Temperature
url https://pubmed.ncbi.nlm.nih.gov/41077619/