R. Álvarez scite author profile

Two industrial coal blends used in cokemaking were subjected to tests in order to assess the influence of waste sawdust (SC2 from chestnut and SP1 from pine) on the quality of the coke produced. The biomass was added in quantities of up to 5 wt.%. It was observed that biomass produced a substantial decrease in the plastic properties of the industrial coal blend, with reductions in Gieseler maximum fluidity of around 50 % for 3 wt.% additions of the two different sawdusts. Carbonizations with sawdust additions ranging from 0.75 to 5 wt.% were carried out in a movable wall oven of 17 kg capacity. The bulk density of the charge was observed to decrease with increasing amounts of sawdust with negative consequences on the quality of the cokes produced. Mechanical strength was determined by means of the JIS test. Coke reactivity and post-reaction strength (CRI/CSR indices) were also assessed. The amount of sawdust added was low to prevent any deterioration in coke quality. The advantage of using biomass in coking blends should be seen as a possible way to reduce costs and CO 2 emissions and to incorporate alternative raw materials in coke production.

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Effects of plastic wastes on coal pyrolysis behaviour and the structure of semicokes

Vivero

Barriocanal

Álvarez

et al. 2005

Journal of Analytical and Applied Pyrolysis

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Pyrolysis of a waste from the grinding of scrap tyres

Fernández

Barriocanal

Álvarez

2012

Journal of Hazardous Materials

137

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Gas chromatographic study of the volatile products from co-pyrolysis of coal and polyethylene wastes

Domı́nguez

Blanco

Barriocanal

et al. 2001

Journal of Chromatography A

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R. Álvarez

Coal for metallurgical coke production: predictions of coke quality and future requirements for cokemaking

Influence of biomass on metallurgical coke quality

Effects of plastic wastes on coal pyrolysis behaviour and the structure of semicokes

Pyrolysis of a waste from the grinding of scrap tyres

Gas chromatographic study of the volatile products from co-pyrolysis of coal and polyethylene wastes

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