Title of article
Application of an adsorptive-thermocatalytic process for BTX removal from polluted air flow
Author/Authors
Rostami، Roohollah نويسنده Department of Environmental Health Engineering, Semnan University of Medical Sciences, School of Health, Semnan, Iran , , Jonidi Jafari، Ahmad نويسنده Department of Occupational and Environment Health, Medical Sciences, Tarbiat Modares University, Tehran, Iran. ,
Issue Information
ماهنامه با شماره پیاپی 0 سال 2014
Pages
10
From page
1
To page
10
Abstract
Background: Zero valent iron and copper oxide nanoparticles (30-60 nm) were coated on a bed of natural zeolite
(Clinoptilolite) with 1-2 mm grains and arranged as a dual filter in a stainless steel cylindrical reactor (I.D 4.5 cm and
L = 30 cm) to investigating the coated bed removal efficiency for BTX. The experiments were conducted in three
steps. First, with an air flow of 1.5 L/min and temperature range of 38 (ambient temperature) to 600°C the BTX
removal and mineralization was surveyed. Then, in an optimized temperature the effect of flow rate and pollution
loading rate were surveyed on BTX removal.
Results: The BTX removal at 300 and 400°C were respectively up to 87.47% and 94.03%. Also in these temperatures
respectively 37.21% and 90.42% of BTX mineralization were achieved. In the retention times of 14.1 s and 7.05 s,
respectively 96.18% and 78.42% of BTX was removed.
Conclusions: According to the results, this adsorptive-thermocatalytic process with using Clinoptilolite as an
adsorbent bed and combined Fe0 and Cu2O nanoparticles as catalysts can be an efficient and competitive process
in the condition of high flow rate and high pollution loading rate with an adequate process temperature of 350°C.
Journal title
Iranian Journal of Environmental Health Science and Engineering (IJEHSE)
Serial Year
2014
Journal title
Iranian Journal of Environmental Health Science and Engineering (IJEHSE)
Record number
2065049
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