Water treatment by cavitation

understanding it at a single bubble - bacterial cell level

Žiga Pandur (Avtor), Jure Zevnik (Avtor), Darjan Podbevšek (Avtor), Biljana Stojković (Avtor), David Stopar (Avtor), Matevž Dular (Avtor)

Povzetek

Cavitation is a potentially useful phenomenon accompanied by extreme conditions, which is one of the reasons for its increased use in a variety of applications, such as surface cleaning, enhanced chemistry, and water treatment. Yet, we are still not able to answer many fundamental questions related to efficacy and effectiveness of cavitation treatment, such as: “Can single bubbles destroy contaminants?” and “What precisely is the mechanism behind bubble's cleaning power?”. For these reasons, the present paper addresses cavitation as a tool for eradication and removal of wall-bound bacteria at a fundamental level of a single microbubble and a bacterial cell. We present a method to study bubble-bacteria interaction on a nano- to microscale resolution in both space and time. The method allows for accurate and fast positioning of a single microbubble above the individual wall-bound bacterial cell with optical tweezers and triggering of a violent microscale cavitation event, which either results in mechanical removal or destruction of the bacterial cell. Results on E. coli bacteria show that only cells in the immediate vicinity of the microbubble are affected, and that a very high likelihood of cell detachment and cell death exists for cells located directly under the center of a bubble. Further details behind near-wall microbubble dynamics are revealed by numerical simulations, which demonstrate that a water jet resulting from a near-wall bubble implosion is the primary mechanism of wall-bound cell damage. The results suggest that peak hydrodynamic forces as high as 0.8 μN and 1.2 μN are required to achieve consistent E. coli bacterial cell detachment or death with high frequency mechanical perturbations on a nano- to microsecond time scale. Understanding of the cavitation phenomenon at a fundamental level of a single bubble will enable further optimization of novel water treatment and surface cleaning technologies to provide more efficient and chemical-free processes.

Ključne besede

cavitation;microbubbles;bacteria;surface cleaning;water treatment;disinfection;

Podatki

Jezik:	Angleški jezik
Leto izida:	2023
Tipologija:	1.01 - Izvirni znanstveni članek
Organizacija:	UL FS - Fakulteta za strojništvo
UDK:	532.528:542.67
COBISS:	151526915
ISSN:	0043-1354
Št. ogledov:	162
Št. prenosov:	21
Ocena:	0 (0 glasov)
Metapodatki:

Ostali podatki

Sekundarni jezik:	Slovenski jezik
Sekundarne ključne besede:	kavitacija;mikromehurčki;bakterije;čiščenje površin;čiščenje odpadne vode;dezinfekcija;
Vrsta dela (COBISS):	Članek v reviji
Strani:	str. 1-16
Zvezek:	ǂVol. ǂ236
Čas izdaje:	Jun. 2023
DOI:	10.1016/j.watres.2023.119956
ID:	18863276