Başak Kılıç Taşeli scite author profile

Pulp and paper plants are amongst the most polluter industries in this country and elsewhere. Most of the organic halides (AOX) and colour from pulp bleaching units are discharged to the receiving basins without being fully treated. A fungus, which is able to affect over 50% AOX and colour removals from soft-wood bleachery effluents within two days contact time, have been isolated in this laboratory. Optimum condition for dechlorination by this fungus in batch tests was determined as pH 5.5 and 25 °C. The low agitation speeds required by the fungus indicated its tendency towards immobilisation on a solid substrate. Glass wool was chosen as a suitable immobilising matrix to be used in the continuous experiments. An up-flow column was packed with glass wool and operated successfully for over one and half years with AOX removals around 70% in 7-8 hours contact time. Fungal dehalogenation required very low supplemental carbon and no DO. The fungal reactor was also effective in dechlorinating polychlorinated aromatics, e.g. PCP, though dehalogenation ability decreased considerably with the chlorinated aliphatics. High PCP concentrations presumably toxified the fungus, even at short exposures, thereby irreversibly damaging the column reactor.

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Ecological sanitation, organic animal farm, and cogeneration: Closing the loop in achieving sustainable development—A concept study with on-site biogas fueled trigeneration retrofit in a 900-bed university hospital

Taşeli

Kılkış

2016

Energy and Buildings

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Biological treatment of paper pulping effluents by using a fungal reactor

Taşeli

Gokcay

1999

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Degradation of chlorinated compounds by Penicillium camemberti in batch and up-flow column reactors

Taşeli¹,

Gokcay

2005

Process Biochemistry

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