Amer Amer scite author profile

ABSTRACT:Oil spills are a global concern due to the environmental and economical impact. Various commercial systems have been developed to control these spills, including the use of fibers as sorbents. However, most sorbents end up in landfills or in cineration after single use. These options either produce another source of pollution or increase the oil recovery cost. Plant biomass is renewable resource that can be converted into useful materials and energy. Barley straw, an agricultural waste, was used as sorbent material. The present study examines the absorption capacity of raw barley straw for different petroleum products and water pick up. The investigate revealed that the capacity of fibers to remove crude oil from sea water was related to the surface properties of the fibers, concentration of the oil, size of the fiber, amount of the fibers, as well as the temperature of the crude oil. Cyclic sorption / desorption studies indicated that a simple squeezing operation was enough to remove most of the oil sorbed and that recycling was feasible.

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Argobots: A Lightweight Low-Level Threading and Tasking Framework

Seo

Amer

Balaji

et al. 2018

IEEE Trans. Parallel Distrib. Syst.

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Study on the use of banana peels for oil spill removal

El-Din

Amer²,

Malsh

et al. 2018

Alexandria Engineering Journal

148

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Encapsulation of echinomycin in cyclodextrin inclusion complexes into liposomes: in vitro anti-proliferative and anti-invasive activity in glioblastoma

et al. 2019

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Enabling High Efficiency Direct Injection Engine with Naphtha Fuel through Partially Premixed Charge Compression Ignition Combustion

Chang¹,

Kalghatgi²,

Amer³

et al. 2012

115

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Oil spill sorption using carbonized pith bagasse: trial for practical application

Hussein

Amer

Sawsan

2008

Int. J. Environ. Sci. Technol.

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ABSTRACT:In the present work, an attempt was made to provide an efficient, easily deployable method of cleaning up oil spills and recovering of the oil. Carbonized pith bagasse, a relatively abundant and inexpensive material is currently being investigated as an adsorbent to remove contaminants "oil" from water. Fibers extracted from bagasse and carbonized at 300 °C were found to have a high performance for sorption and recovery of light, heavy oils and even the viscous ones. The physical properties of pith bagasse were investigated using scanning electronic microscope to show the inner and the outer surface and the cross section area of the pith bagasse and thermo gravimetric analyzer to investigate the degradation profile of the pith bagasse. The carbonized pith bagasse was packed into a polypropylene bag and its sorption behavior was studied. A comparison was made between the prepared pad and the commercial sorbents show that the pad containing carbonized pith bagasse has higher sorption capacity in comparison to the commercial sorbents. The pad exhibited high oil retention ability and a high selectivity for the oils over the water. The pad showed a possibility of reuse for eight times. The sorption capacity of the pads containing carbonized pith bagasse was found to increase with increasing the time of sorption till it reaches the maximum value at the time of sorption equal to 60 min.

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Fuel Effects on Knock in a Highly Boosted Direct Injection Spark Ignition Engine

Amer

Babiker

Chang

et al. 2012

SAE Int. J. Fuels Lubr.

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Fuel Economy Potential of Partially Premixed Compression Ignition (PPCI) Combustion with Naphtha Fuel

Chang¹,

Viollet²,

Amer³

et al. 2013

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Amer Amer

Availability of barley straw application on oil spill clean up

Argobots: A Lightweight Low-Level Threading and Tasking Framework

Study on the use of banana peels for oil spill removal

Encapsulation of echinomycin in cyclodextrin inclusion complexes into liposomes: in vitro anti-proliferative and anti-invasive activity in glioblastoma

Enabling High Efficiency Direct Injection Engine with Naphtha Fuel through Partially Premixed Charge Compression Ignition Combustion

Oil spill sorption using carbonized pith bagasse: trial for practical application

Fuel Effects on Knock in a Highly Boosted Direct Injection Spark Ignition Engine

Fuel Economy Potential of Partially Premixed Compression Ignition (PPCI) Combustion with Naphtha Fuel

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