An experimental investigation of the composting process in an innovative home composting System: The influence of additives

Markos Margaritis , Vassilis Dimos , Dimitris Malamis , Maria Loizidou
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Abstract

Food-waste out of household consumption ends up in landfills resulting into huge waste of materials and energy enhancing greenhouse effect and threatening water supplies. Composting is common solution for solid organic waste management and can safely and effectively be employed in each household to produce quality compost materials. This study palpates the average composition of the Mediterranean dietary pattern food-wastes and investigates the efficiency of a novel home-composter in managing organic wastes from dish to composter to quality compost. Four different additives, low cost and easily found in the market, are addressed, (1) woodchip, (2) woodchips & zeolite, (3) woodchips & vermiculite and (4) perlite. C/N≈20 substrate’s composition is investigated.

Results indicate that the composting process effectively converts food-wastes to compost within 21 days. The monitored parameters show good aeration and humidity levels of the substrate and an aerobic process. The product exhibits minor alkalinity and requires further maturing. Mineral additives help reducing TOC with vermiculite and perlite be the most promising. Zeolite and vermiculite result in higher TKN values of the product with zeolite exhibiting better performance. All minerals enchance C/N reduction when woodchips is proven inadequate as an additive if employed alone. The product can safely be used in domestic applications.

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创新家庭堆肥系统中堆肥过程的实验研究:添加剂的影响
家庭消费产生的食物垃圾最终被填埋,导致材料和能源的巨大浪费,加剧了温室效应,威胁了供水。堆肥是固体有机废物管理的常见解决方案,可以在每个家庭中安全有效地使用,以生产高质量的堆肥材料。这项研究触及了地中海饮食模式食物垃圾的平均成分,并调查了一种新型家庭堆肥机在管理有机垃圾方面的效率,从餐具到堆肥机再到优质堆肥。四种不同的添加剂,低成本和易于在市场上找到,被解决,(1)木屑,(2)木屑&;沸石,(3)木屑&;蛭石和(4)珍珠岩。研究了C/N≈20衬底的组成。结果表明,堆肥过程能在21天内有效地将食物垃圾转化为堆肥。监测的参数显示出良好的曝气和基质湿度水平以及好氧过程。该产品表现出轻微的碱度,需要进一步熟化。矿物添加剂有助于降低TOC,蛭石和珍珠岩是最有前途的。沸石和蛭石导致产物的TKN值更高,沸石表现出更好的性能。当木屑被证明单独使用不足以作为添加剂时,所有矿物都能促进C/N的减少。该产品可以安全地用于国内应用。
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