Evaluation of a sequential biotrickling–biofiltration unit for removal of VOCs from the headspace of crude oil storage tanks

Khoramfar, Shooka; Jones, Kim D.; Boswell, James; Ghobadi, Jalil; Páca, Jan

doi:10.1002/jctb.5556

Cited by 20 publications

(14 citation statements)

References 39 publications

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“…In recent years, toluene has attracted increasing research attention [4][5][6]. Several techniques have been applied in controlling VOC emissions, including adsorption [7], absorption [8], photocatalysis [9], thermocatalysis [10], plasma catalytic oxidation [11], and biofiltration [12]. Among these methods, adsorption is an effective way to remove VOCs with low concentration and high velocity, because of its high efficiency and low cost [13].…”

Section: Introductionmentioning

confidence: 99%

Removal of Toluene by Adsorption/Desorption Using Ultra-stable Y Zeolite

Zhu

et al. 2019

Trans. Tianjin Univ.

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The adsorption performance of toluene on ultra-stable Y zeolite (USY) was studied via dynamic adsorption. The effects of bed temperature, initial concentration, and feed flow rate on adsorption were investigated. The Yoon-Nelson model was used to fit the toluene breakthrough curves. The length of mass transfer zone was calculated based on breakthrough curves. The Langmuir-Freundlich model fit the adsorption isotherms of toluene on USY, which indicated that the surface of USY was heterogeneous. The adsorption isosteric heat calculated from adsorption isotherms ranged from 54.3 to 69.8 kJ/mol, indicating physical adsorption. The combined technique of temperature swing adsorption with vacuum swing adsorption (TVSA) exhibited excellent desorption performance, which was attributed to the low desorption activation energy. Under optimized TVSA conditions, the desorption rate of toluene reached 90.6% within 10 min. The long-term cyclic utilization results indicated that the adsorption capacity of USY was stable.

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Section: Introductionmentioning

confidence: 99%

Removal of Toluene by Adsorption/Desorption Using Ultra-stable Y Zeolite

Zhu

et al. 2019

Trans. Tianjin Univ.

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“…To maintain the activity of the microorganisms in BTFs, the packing material is trickled continuously or intermittently by nutrient solution [47]. The most commonly used circulating liquid is a mineral salt solution [48]. Liquid flow through the packing material of a BTF provides humid conditions needed to support the biofilm growth and maintain the microbial activity [3].…”

Section: Biotrickling Filter Irrigation Systemsmentioning

confidence: 99%

“…The nutrient solution is supplied to the unit by a circulation pump. Khoramfar et al [48] studied VOC removal by BTF-BF unit and observed that due to continuous nutrient solution spraying, biofilm growth and consequently VOC removal was relatively higher in the BTF unit than in the BF unit [48]. Trickling liquid also washes out excess biofilm as well as degradation products that can hinder biodegradation of VOC [3].…”

Section: Biotrickling Filter Irrigation Systemsmentioning

confidence: 99%

Effects of Water Content and Irrigation of Packing Materials on the Performance of Biofilters and Biotrickling Filters: A Review

Danila¹,

Zagorskis²,

Januševičius³

2022

Processes

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Biofilters (BFs) and biotrickling filters (BTFs) are two types of bioreactors used for treatment of volatile organic compounds (VOCs). Both BFs and BTFs use packing materials in which various microorganisms are immobilised. The water phase in BFs is stationary and used to maintain the humidity of packing materials, while BTFs have a mobile liquid phase. Optimisation of irrigation of packing materials is crucial for effective performance of BFs and BTFs. A literature review is presented on the influence of water content of packing materials on the biofiltration efficiency of various pollutants. Different configurations of BFs and BTFs and their influence on moisture distribution in packing materials were discussed. The review also presents various packing materials and their irrigation control strategies applied in recent biofiltration studies. The sources of this review included recent research articles from scientific journals and several review articles discussing BFs and BTFs.

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“…These figures demonstrate the magnitude and scope of the problem. After vehicle exhaust emissions, the oil and gas processing industry's production facilities were identified as the second most significant source of VOC 10 . For example, the inventory of anthropogenic emissions in Russia shows that the oil and gas industries have a significant impact on the environment 11 .…”

Section: Introductionmentioning

confidence: 99%

Regulation and impact of VOC and CO₂ emissions on low‐carbon energy systems resilient to climate change: A case study on an environmental issue in the oil and gas industry

Fetisov

Gonopolsky

Davardoost

et al. 2023

Energy Science & Engineering

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The impact of emissions from the fuel and energy sectors adversely affects the environment on the economies of countries. One of these pollutants is volatile organic compounds (VOCs), which contribute to the formation of tropospheric ozone. Emissions of hydrocarbon formation in the form of VOCs occur in four stages of the fuel and energy industry sector: (1) production, (2) processing, (3) transportation, and (4) storage. The oil and gas industry ranks among the top polluting industries in terms of VOC emissions. Research on the negative impact of VOCs, as well as CO2 emissions from the consequences of the extraction, processing, transport, and storage of oil and gas on the ecosystem of the planet and the population, has begun to be studied by science recently. Typically, these studies were conducted using laboratory and field analyses, as well as using data on anthropogenic emissions in the development of regulatory documents and requirements governing the control of VOC and CO2 emissions in the oil and gas industry. This paper presents a critical analysis of the literature on research on the negative effects of VOC emissions on the ecosystem and human health because of such factors as production, processing, transportation, and storage of hydrocarbons. This analysis shows the global magnitude of VOC emissions. Data from human‐made emissions from the oil and gas industry and direct emissions from transportation and energy processing were used to figure out how VOCs affect the environment around the world and how far they spread. In conclusion, this study found patterns of VOC emissions that show how important it is to control VOCs during the production, processing, transportation, and storage of oil and gas, as well as how important it is to create a single research base on emissions for each industry sector and on sources of greenhouse gas absorption.

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Evaluation of a sequential biotrickling–biofiltration unit for removal of VOCs from the headspace of crude oil storage tanks

Cited by 20 publications

References 39 publications

Removal of Toluene by Adsorption/Desorption Using Ultra-stable Y Zeolite

Removal of Toluene by Adsorption/Desorption Using Ultra-stable Y Zeolite

Effects of Water Content and Irrigation of Packing Materials on the Performance of Biofilters and Biotrickling Filters: A Review

Regulation and impact of VOC and CO₂ emissions on low‐carbon energy systems resilient to climate change: A case study on an environmental issue in the oil and gas industry

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Evaluation of a sequential biotrickling–biofiltration unit for removal of VOCs from the headspace of crude oil storage tanks

Cited by 20 publications

References 39 publications

Removal of Toluene by Adsorption/Desorption Using Ultra-stable Y Zeolite

Removal of Toluene by Adsorption/Desorption Using Ultra-stable Y Zeolite

Effects of Water Content and Irrigation of Packing Materials on the Performance of Biofilters and Biotrickling Filters: A Review

Regulation and impact of VOC and CO2 emissions on low‐carbon energy systems resilient to climate change: A case study on an environmental issue in the oil and gas industry

Contact Info

Product

Resources

About

Regulation and impact of VOC and CO₂ emissions on low‐carbon energy systems resilient to climate change: A case study on an environmental issue in the oil and gas industry