Critical state desiccation induced shrinkage of biomass treated compacted soil as pavement foundation

K. Onyelowe, M. Onyia, F. A. D. Onyelowe, D. B. Van, A. B. Salahudeen, A. Eberemu, K. Osinubi, A. Amadi, E. Onukwugha, A. Odumade, Ikechukwu C. Chigbo, Z. Saing, Chidozie Ikpa, Talal S. Amhadi, B. Ugorji, M. Maduabuchi, K. Ibe
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引用次数: 9

Abstract

Volumetric shrinkage critical state induced by desiccation of compacted earth treated and improved with Rice Husk Ash (RHA) and utilized as pavement foundation has been investigated in the laboratory. The critical state study was important to determine at what level of earth improvement with the biomass material can be considered safe in terms of shrinkage behavior of treated soft soil utilized in pavement construction. Rice Husk (RH) is an agricultural waste discharged during rice production and is disposed on landfills. It causes land pollution in places like Abakaliki and Ebonyi State, Nigeria as whole where rice farming is the predominant occupation. Ground and soil improvement with the use of rice husk ash has contributed in the management of solid waste in the developing countries where rice production is a common occupation with its attendant solid waste generation. However, the use of biomass-based binders like RHA has reduced the rate at which oxides of carbon are released into the atmosphere, which contribute to greenhouse emission effects. This exercise is an environmentally conscious procedure that keeps the environment safe from the hazards of carbon and its oxides. the preliminary investigation on the test soil showed that it is classified as an A-7-6 soil group according to AASHTO classification. The index properties showed that the soil was highly plastic with high clay content. The RHA was utilized at the rate of 2%, 4%, 6%, 8% and 10% by weight of treated solid to improve the soil volumetric shrinkage induced desiccation at molding moisture conditions of 2% dry, 0%, 2% wet, and 4% wet of optimum moisture. This was necessary to establish the behavior of hydraulically bound foundation materials subjected to dry and wet conditions during the rise and fall of water tables. Results of the laboratory investigation have shown that at 2% dry of optimum moisture, the volumetric shrinkage (VS) behavior performed best and reduced below the critical line of 4% at 8% by weight addition of RHA and maintained that consistent reduction at 10% addition of RHA. Generally, the critical point was achieved at 8% by weight addition of RHA at all the molding moisture conditions. This is an indication that at molding moisture conditions between -2% to 4%, 8% by weight addition of the admixture, RHA can be utilized as an environmentally conscious construction material to improve the VS of soils for use as hydraulically bound materials in pavement foundation construction.
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生物质处理压实土作为路面基础的临界状态干燥收缩
通过室内试验研究了稻壳灰处理和改良后的压实土作为路面地基的体积收缩临界状态。临界状态研究对于确定在何种程度上使用生物质材料进行土壤改良可以被认为是安全的,就路面施工中使用的处理过的软土的收缩行为而言是重要的。稻壳(RH)是水稻生产过程中排放的农业废弃物,被填埋在垃圾填埋场。它在尼日利亚的Abakaliki和Ebonyi州等以水稻种植为主要职业的地方造成土地污染。在发展中国家,利用稻壳灰改善土地和土壤有助于管理固体废物,因为在这些国家,稻米生产是一项普遍的职业,并随之产生固体废物。然而,像RHA这样的生物质粘合剂的使用降低了碳氧化物释放到大气中的速度,从而导致温室气体排放效应。这个练习是一个有环保意识的过程,可以保护环境免受碳及其氧化物的危害。对试验土的初步调查表明,根据AASHTO分类,试验土属A-7-6土群。指标性质表明,土壤具有高塑性,粘土含量高。在成型湿度为最佳湿度的2%、0%、2%和4%条件下,RHA分别以2%、4%、6%、8%和10%的重量比例使用,以改善土壤体积收缩引起的干燥。这对于确定在地下水位上升和下降过程中受干湿条件影响的水力约束基础材料的行为是必要的。实验室研究结果表明,在最佳湿度为2%时,体积收缩率(VS)表现最佳,当RHA添加量为8%时,体积收缩率降至4%以下,当RHA添加量为10%时,体积收缩率保持不变。一般来说,在所有成型湿度条件下,RHA的重量添加量为8%时达到临界点。这表明,在成型水分在-2%至4%之间的条件下,掺加8%重量的外加剂,RHA可以作为一种环保的建筑材料来使用,以改善土壤的VS,用作路面基础施工中的水力结合材料。
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