Experimental Analysis of Air-Handling Unit Fans’ Failure on Particulate Matter Concentrations Due to Incense Burning in the South of Italy

Antonio Rosato; Mohammad El Youssef; Rita Mercuri; Cataldo De Blasio; Massimiliano Masullo; Luigi Maffei

doi:10.1007/978-981-99-8501-2_38

Experimental Analysis of Air-Handling Unit Fans’ Failure on Particulate Matter Concentrations Due to Incense Burning in the South of Italy

Antonio Rosato, Mohammad El Youssef, Rita Mercuri, Cataldo De Blasio, Massimiliano Masullo, Luigi Maffei

Energiteknik

Forskningsoutput: Kapitel i bok/konferenshandling › Kapitel › Vetenskaplig › Peer review

Sammanfattning

Air-handling units are frequently operated under faulty conditions that may significantly affect concentrations of indoor pollutants and cause significant detrimental health issues for occupants. In this study, the effects associated to the failure of the supply air fan (SAF) and the return air fan (RAF) in a typical AHU on concentrations of air-borne fine particulate matters (PMs) due to burning of incense sticks are investigated via laboratory tests in the south of Italy. In particular, concentration–time data measured during both the faulty and fault-free tests are compared in terms of concentration decay rate and particles removal efficiency. The analysis aimed at (i) experimentally characterizing the PM emissions of typical incense sticks, (ii) determining correlations representative of measured trends, and (iii) assessing the impacts of AHU fans’ failure on PM concentrations. The experimental data highlighted that the influence of the RAF failure is not really relevant, while the SAF failure significantly limits the AHU capability in reducing PM concentrations.

Originalspråk	Engelska
Titel på värdpublikation	Sustainability in Energy and Buildings 2023.
Redaktörer	John R. Littlewood, Lakhmi Jain, Robert J. Howlett
Förlag	Springer
Sidor	429-439
ISBN (elektroniskt)	978-981-99-8501-2
ISBN (tryckt)	978-981-99-8500-5
DOI	https://doi.org/10.1007/978-981-99-8501-2_38
Status	Publicerad - 2024
MoE-publikationstyp	A3 Del av bok eller annan forskningsbok

Publikationsserier

Namn	Smart Innovation, Systems and Technologies
Förlag	Springer
Volym	378
ISSN (tryckt)	2190-3018
ISSN (elektroniskt)	2190-3026

Åtkomst av dokument

10.1007/978-981-99-8501-2_38

Citera det här

Rosato, A., El Youssef, M., Mercuri, R., De Blasio, C., Masullo, M., & Maffei, L. (2024). Experimental Analysis of Air-Handling Unit Fans’ Failure on Particulate Matter Concentrations Due to Incense Burning in the South of Italy. I J. R. Littlewood, L. Jain, & R. J. Howlett (Red.), Sustainability in Energy and Buildings 2023. (s. 429-439). (Smart Innovation, Systems and Technologies; Vol. 378). Springer. https://doi.org/10.1007/978-981-99-8501-2_38

Rosato, Antonio ; El Youssef, Mohammad ; Mercuri, Rita et al. / Experimental Analysis of Air-Handling Unit Fans’ Failure on Particulate Matter Concentrations Due to Incense Burning in the South of Italy. Sustainability in Energy and Buildings 2023. . redaktör / John R. Littlewood ; Lakhmi Jain ; Robert J. Howlett. Springer, 2024. s. 429-439 (Smart Innovation, Systems and Technologies).

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title = "Experimental Analysis of Air-Handling Unit Fans{\textquoteright} Failure on Particulate Matter Concentrations Due to Incense Burning in the South of Italy",

abstract = "Air-handling units are frequently operated under faulty conditions that may significantly affect concentrations of indoor pollutants and cause significant detrimental health issues for occupants. In this study, the effects associated to the failure of the supply air fan (SAF) and the return air fan (RAF) in a typical AHU on concentrations of air-borne fine particulate matters (PMs) due to burning of incense sticks are investigated via laboratory tests in the south of Italy. In particular, concentration–time data measured during both the faulty and fault-free tests are compared in terms of concentration decay rate and particles removal efficiency. The analysis aimed at (i) experimentally characterizing the PM emissions of typical incense sticks, (ii) determining correlations representative of measured trends, and (iii) assessing the impacts of AHU fans{\textquoteright} failure on PM concentrations. The experimental data highlighted that the influence of the RAF failure is not really relevant, while the SAF failure significantly limits the AHU capability in reducing PM concentrations.",

author = "Antonio Rosato and {El Youssef}, Mohammad and Rita Mercuri and {De Blasio}, Cataldo and Massimiliano Masullo and Luigi Maffei",

note = "Mailat om parallellpubl 22.3.24/EH",

year = "2024",

doi = "10.1007/978-981-99-8501-2_38",

language = "English",

isbn = "978-981-99-8500-5",

series = "Smart Innovation, Systems and Technologies",

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Rosato, A, El Youssef, M, Mercuri, R, De Blasio, C, Masullo, M & Maffei, L 2024, Experimental Analysis of Air-Handling Unit Fans’ Failure on Particulate Matter Concentrations Due to Incense Burning in the South of Italy. i JR Littlewood, L Jain & RJ Howlett (red), Sustainability in Energy and Buildings 2023. . Smart Innovation, Systems and Technologies, vol. 378, Springer, s. 429-439. https://doi.org/10.1007/978-981-99-8501-2_38

Experimental Analysis of Air-Handling Unit Fans’ Failure on Particulate Matter Concentrations Due to Incense Burning in the South of Italy. / Rosato, Antonio; El Youssef, Mohammad; Mercuri, Rita et al.
Sustainability in Energy and Buildings 2023. . red. / John R. Littlewood; Lakhmi Jain; Robert J. Howlett. Springer, 2024. s. 429-439 (Smart Innovation, Systems and Technologies; Vol. 378).

Forskningsoutput: Kapitel i bok/konferenshandling › Kapitel › Vetenskaplig › Peer review

TY - CHAP

T1 - Experimental Analysis of Air-Handling Unit Fans’ Failure on Particulate Matter Concentrations Due to Incense Burning in the South of Italy

AU - Rosato, Antonio

AU - El Youssef, Mohammad

AU - Mercuri, Rita

AU - De Blasio, Cataldo

AU - Masullo, Massimiliano

AU - Maffei, Luigi

N1 - Mailat om parallellpubl 22.3.24/EH

PY - 2024

Y1 - 2024

N2 - Air-handling units are frequently operated under faulty conditions that may significantly affect concentrations of indoor pollutants and cause significant detrimental health issues for occupants. In this study, the effects associated to the failure of the supply air fan (SAF) and the return air fan (RAF) in a typical AHU on concentrations of air-borne fine particulate matters (PMs) due to burning of incense sticks are investigated via laboratory tests in the south of Italy. In particular, concentration–time data measured during both the faulty and fault-free tests are compared in terms of concentration decay rate and particles removal efficiency. The analysis aimed at (i) experimentally characterizing the PM emissions of typical incense sticks, (ii) determining correlations representative of measured trends, and (iii) assessing the impacts of AHU fans’ failure on PM concentrations. The experimental data highlighted that the influence of the RAF failure is not really relevant, while the SAF failure significantly limits the AHU capability in reducing PM concentrations.

AB - Air-handling units are frequently operated under faulty conditions that may significantly affect concentrations of indoor pollutants and cause significant detrimental health issues for occupants. In this study, the effects associated to the failure of the supply air fan (SAF) and the return air fan (RAF) in a typical AHU on concentrations of air-borne fine particulate matters (PMs) due to burning of incense sticks are investigated via laboratory tests in the south of Italy. In particular, concentration–time data measured during both the faulty and fault-free tests are compared in terms of concentration decay rate and particles removal efficiency. The analysis aimed at (i) experimentally characterizing the PM emissions of typical incense sticks, (ii) determining correlations representative of measured trends, and (iii) assessing the impacts of AHU fans’ failure on PM concentrations. The experimental data highlighted that the influence of the RAF failure is not really relevant, while the SAF failure significantly limits the AHU capability in reducing PM concentrations.

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T3 - Smart Innovation, Systems and Technologies

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BT - Sustainability in Energy and Buildings 2023.

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A2 - Jain, Lakhmi

A2 - Howlett, Robert J.

PB - Springer

ER -

Rosato A, El Youssef M, Mercuri R, De Blasio C, Masullo M, Maffei L. Experimental Analysis of Air-Handling Unit Fans’ Failure on Particulate Matter Concentrations Due to Incense Burning in the South of Italy. I Littlewood JR, Jain L, Howlett RJ, redaktörer, Sustainability in Energy and Buildings 2023. . Springer. 2024. s. 429-439. (Smart Innovation, Systems and Technologies). doi: 10.1007/978-981-99-8501-2_38

Experimental Analysis of Air-Handling Unit Fans’ Failure on Particulate Matter Concentrations Due to Incense Burning in the South of Italy

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