环保混凝土:废水处理与再生骨料相结合

Maria Eduarda Pereira Almeida, A. L. Tonetti
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摘要

混凝土行业是饮用水和砂石等天然骨料的主要消耗者。然而,水和骨料资源的稀缺以及与建筑和拆除废物处理相关的挑战促使人们探索替代材料。本研究调查了将来自 UASB 反应器的二级处理废水、滴滤器和混合再生骨料作为潜在替代材料的可行性。为了评估这些替代品的可行性,研究考虑了用处理过的废水替代 100% 的饮用水,以及不同比例的再生砾石(20、40、60、80 和 100% )和再生砂(10、20、30、40 和 100% )。物理和机械性能受到了负面影响,但几乎所有混合料的抗压强度都超过了 40 兆帕,劈裂拉伸强度超过了 4 兆帕。在物理特性方面,使用替代材料会导致密度、吸水率和空隙率降低。这些不利影响的程度有限,这表明在制造混凝土时添加经处理的废水和再生骨料是一种可行的策略,同时还能加强再利用实践。
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Eco-friendly concrete: combining treated wastewater and recycled aggregates
The concrete industry is a significant consumer of drinking water and natural aggregates, such as sand and gravel. However, the scarcity of water and aggregate resources and the challenges associated with the disposal of construction and demolition waste prompted the exploration of alternative materials. This study investigates the feasibility of incorporating secondary treated wastewater from UASB reactors followed by trickling filters and mixed recycled aggregates as potential alternatives. To assess the viability of these alternatives, the study considered the replacement of 100% potable water with treated wastewater, as well as varying proportions of recycled gravel (20, 40, 60, 80, and 100%) and recycled sand (10, 20, 30, 40, and 100%). Physical and mechanical properties were negatively affected, but it was possible to reach compressive results over 40 MPa and splitting tensile strength over 4 MPa for almost all mixes. Regarding physical properties, the use of alternative materials caused poorer outcomes for density, water absorption, and air-void ratio. The limited magnitude of these detrimental effects indicates the potential of manufacturing concrete with the addition of combined treated wastewater and recycled aggregate as a viable strategy while enhancing reuse practices.
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