Publication detail

Aeration Supported Process Intensification of Waste Water for Degradation of Benzene in an Orifice Type Hydrodynamic Cavitation System

Bokhari, A., Klemeš, J.J., Asif, S.

Original Title

Aeration Supported Process Intensification of Waste Water for Degradation of Benzene in an Orifice Type Hydrodynamic Cavitation System

Type

journal article in Scopus

Language

English

Original Abstract

Isolated and aerated benzene degradation in the wastewater using orifice plates as the caviting devices for the hydrodynamic cavitation (HC) reactor was investigated. Initially, calorimetric tests were used to measure the energy efficiency of the HC reactor run at various inlet pressures. At an inlet pressure of 3.0 bar, the maximum energy efficiency of 55.8 % was achieved. In both isothermal and adiabatic treatment conditions, the treatment procedures were compared, and the degree of deterioration in comparison with the isothermal condition was observed in the adiabatic condition. The study related to understanding the impact of inlet pressure has revealed that the maximum degradation of 99.7 % was obtained at 3 bar pressure using the HC's individual activity under adiabatic conditions in 90 min of treatment. The combination of HC and air at different airflow rates were investigated with the best results for maximum benzene depletion at an airflow rate of 65 mL/s. A novel approach to cavitation was also illustrated in terms of the level of degradation, energy demand and operating costs for a small fraction of the overall processing time. The resonant radius from cavitation bubbles aggregates was also calculated based on the strength of the cavitation in both distilled water and aqueous benzene. Overall, important advantages for degradation of benzene along with an understanding of cavitation effects have been shown by HC in combination with air. Copyright © 2021, AIDIC Servizi S.r.l.

Keywords

aeration; supported; process; intensification; waste; water; degradation; benzene; orifice; type; hydrodynamic; cavitation; system

Authors

Bokhari, A., Klemeš, J.J., Asif, S.

Released

15. 11. 2021

Publisher

Italian Association of Chemical Engineering - AIDIC

ISBN

2283-9216

Periodical

Chemical Engineering Transactions

Number

88

State

Republic of Italy

Pages from

949

Pages to

954

Pages count

6

URL

BibTex

@article{BUT176048,
  author="Syed Awais Ali Shah {Bokhari} and Jiří {Klemeš} and Saira {Asif}",
  title="Aeration Supported Process Intensification of Waste Water for Degradation of Benzene in an Orifice Type Hydrodynamic Cavitation System",
  journal="Chemical Engineering Transactions",
  year="2021",
  number="88",
  pages="949--954",
  doi="10.3303/CET2188158",
  issn="2283-9216",
  url="http://www.cetjournal.it/cet/21/88/158.pdf"
}