Browsing by Author "Kanhukamwe, Quinton"

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    Continuous flow-through vermireactor for medium scale vermicomposting
    (Asian Journal of Engineering and Technology, 2013-04-01) Manyuchi, Musaida Mercy; Chitambwe, Trymore; Chigumo, Michelle T. C.; Phiri, Anthony; Muredzi, Perkins; Kanhukamwe, Quinton
    Vermicomposting is increasingly becoming popular as an organic waste management technology whereby earthworms feed on the organic waste to produce vermicasts and vermiwash. Several vermireactors have been used for this process as batch systems. However, there is need to design a continuous flow-through vermireactor which allows the simultaneous addition of the organic waste at the same time harvesting the vermicasts. A 5m X 2m X 1.5m vermireactor was proposed to process an initial feed of 7 500kg. A 10cm thick bedding comprising of office paper, card board paper and Eisenia fetida earthworms stocked at 1kg/m2 of the vermireactor was used as an initial bedding. The feed bed was 20cm thick and comprised of paper, cow dung, corn pulp and vegetables. The pH, temperature and moisture content in the vermireactor ranged between 5.5-7.5, 19-25°C and 28-52% respectively. 7kg/day of vermicasts were produced given the earthworms produced 75% of their bodyweight as vermicasts per day. The caked vermicasts were expelled by the aid of a breaker bar. The vermireactor was constructed from polyvinyl chloride. Vermicasts containing nitrogen (4.19%), phosphorous(1.15%) and potassium (6.18%) were obtained. The continuous flow-through vermireactor design allowed the production of stable vermicasts and can be used in medium scale vermicomposting.
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    Effect of Vermicompost, Vermiwash and Application Time on Soil Physicochemical Properties
    (International Journal of Chemical and Environmental Engineering, 2013-08-01) Manyuchi, Musaida Mercy; Chitambwe, Trymore; Phiri, Anthony; Muredzi, Perkins; Kanhukamwe, Quinton
    Vermicomposting results in the production of two bio-fertilizers, vermicompost and vermiwash. The bio-fertilizers were applied to 4kg of loam-clay soil over a period of 40 days. The effect of the vermicompost, vermiwash, application time and their combined effect on soil pH, electrical conductivity and nitrogen, phosphorous and potassium content were analyzed. Increasing the vermicompost quantity decreased the soil pH, electrical conductivity and nitrogen content, however, this resulted in a slight increase in the phosphorous content but the potassium content remained unaltered. Increasing the vermiwash quantity increased the soil pH, electrical conductivity and potassium content but resulted in reduced nitrogen and phosphorous content. In addition, increasing the application period of either the vermicompost or the vermiwash resulted in increased soil pH, electrical conductivity, phosphorous and potassium content but resulted in reduced phosphorous content. The reduction of the soil nitrogen content is attributed to de-nitrification, whilst the increase in phosphorous content is attributed to increase in soluble phosphates and release of nutrients into the soil due to microbial activity in the bio-fertilizers. Furthermore, loam-clay soils have good absorbing properties for potassium. The soil properties and micro-organisms present in the bio-fertilizers play a critical role on the modification of the soil physicochemical properties