TY - JOUR
T1 - Development of a simple biogas analyzer module (BAM) for real-time biogas production monitoring
AU - de Melo, Luciano
AU - Cruz, Ianny Andrade
AU - Fuess, Lucas Tadeu
AU - Maynard Santana, Carlos Eduardo
AU - Bharagava, Ram Naresh
AU - Mulla, Sikandar I.
AU - Bilal, Muhammad
AU - Saratale, Ganesh Dattatraya
AU - Figueiredo, Renan Tavares
AU - Ferreira, Luiz Fernando Romanholo
N1 - Publisher Copyright:
© 2023 Informa UK Limited, trading as Taylor & Francis Group.
PY - 2024
Y1 - 2024
N2 - Anaerobic digestion (AD) relies on the cooperation of specific microbial communities, making it susceptible to process disruptions that could impact biogas production. In this regard, this study presents a technological solution based on the Arduino platform, in the form of a simple online monitoring system that can track the produced biogas profile, named as biogas analyzer module (BAM). The applicability of the BAM focused on monitoring the biogas produced from sugarcane vinasse inoculated with sewage sludge biodigestion processed in mesophilic conditions (38 oC), in a pH range of 6.5–7.5, and following a three-stage operational model: (i) an adaptation (168 h), (ii) complete mixing (168 h), and (iii) bio-stimulation with glycerol (192 h). Then, the lab-made BAM was used to trace the produced biogas profile, which registered a total biogas volume of 8,719.86 cm3 and biomethane concentration of 95.79% (vol.), removing 90.8% (vol) of carbon dioxide (CO2) and 65.2% (vol) of hydrogen sulfide (H2S). In conclusion, the results ensured good accuracy and efficiency to the device created by comparisons with established standards (chromatographic and colorimetric methods), as well as the cost reduction. The developed device would likely be six times cheaper than what is available in the market.
AB - Anaerobic digestion (AD) relies on the cooperation of specific microbial communities, making it susceptible to process disruptions that could impact biogas production. In this regard, this study presents a technological solution based on the Arduino platform, in the form of a simple online monitoring system that can track the produced biogas profile, named as biogas analyzer module (BAM). The applicability of the BAM focused on monitoring the biogas produced from sugarcane vinasse inoculated with sewage sludge biodigestion processed in mesophilic conditions (38 oC), in a pH range of 6.5–7.5, and following a three-stage operational model: (i) an adaptation (168 h), (ii) complete mixing (168 h), and (iii) bio-stimulation with glycerol (192 h). Then, the lab-made BAM was used to trace the produced biogas profile, which registered a total biogas volume of 8,719.86 cm3 and biomethane concentration of 95.79% (vol.), removing 90.8% (vol) of carbon dioxide (CO2) and 65.2% (vol) of hydrogen sulfide (H2S). In conclusion, the results ensured good accuracy and efficiency to the device created by comparisons with established standards (chromatographic and colorimetric methods), as well as the cost reduction. The developed device would likely be six times cheaper than what is available in the market.
KW - Anaerobic digestion
KW - Arduino
KW - online monitoring
KW - simple biogas analyzer
KW - sugarcane vinasse
UR - http://www.scopus.com/inward/record.url?scp=85165453971&partnerID=8YFLogxK
U2 - 10.1080/09593330.2023.2235457
DO - 10.1080/09593330.2023.2235457
M3 - Article
C2 - 37440597
AN - SCOPUS:85165453971
SN - 0959-3330
VL - 45
SP - 3877
EP - 3887
JO - Environmental Technology (United Kingdom)
JF - Environmental Technology (United Kingdom)
IS - 19
ER -