硫酸盐干湿循环作用下废水混凝土寿命预测模型

为解决中国西北高寒盐渍土地区混凝土的耐久性问题,采用不同掺量搅拌站废水拌制混凝土,以研究其在抗硫酸盐-干湿循环双重作用下的影响。以0%,25%,50%,75%,100%比例混凝土搅拌站废水取代等质量饮用水混合拌制C40混凝土,以20%比例粉煤灰等质量取代水泥。混凝土试件为40 mm×40 mm×160 mm,采用5%浓度的硫酸镁溶液进行全浸泡干湿循环试验,测试混凝土的抗压强度、抗折强度、相对动弹性模量、质量及吸水率。以相对动弹性模量为评价指标,利用灰色预测GM(1,1)模型及损伤二次函数衰减模型进行寿命预测。结果表明:随着废水替代率的增加,混凝土抗压强度损失率先减小后增大,干湿循环下的混凝土质量损失率由高到低依次为C40-75,C40-100,C40-50,C40-25;搅拌站废水的主要氧化物与水泥类似,微观形貌多为多孔状不规则颗粒,可以延缓C40混凝土在硫酸盐干湿循环环境中的劣化速度,使混凝土提高抵抗SO_(4)^(2-)侵入的能力,其中废水替代率为50%时混凝土抗SO_(4)^(2-)侵蚀能力最好;GM(1,1)寿命预测显示废水替代率为50%时混凝土耐久性年限最长,其耐久年限提高了2.3倍,可抵抗74次硫酸盐-干湿循环,且衰减模型相关系数R^(2)大于0.94,具有较高精度。

旭龙水电站混凝土骨料冲洗废水絮凝剂筛选及絮凝条件研究

建设中的旭龙水电站因其砂石加工系统毗邻Ⅱ类水质河道,生产废水无法直接排放,需要处理后进行回用,以实现废水“零排放”的要求。以旭龙水电站混凝土生产现场所使用的花岗岩、角闪岩作为絮凝研究对象,比较了聚合氯化铝(PAC)与4种不同类型的聚丙烯酰胺(PAM)絮凝剂对含固体悬浮物(SS)废水的絮凝处理效果,通过单因素条件试验确定了PAC和PAM投加量、快速搅拌时间、快速搅拌转速对悬浮物处理效果的影响,并通过响应面试验确定花岗岩、角闪岩模拟SS废水的最佳絮凝条件。结果表明:花岗岩、角闪岩模拟SS废水的Zeta电位均为负电荷,使用PAC与阳离子型PAM的组合对模拟SS废水的处理效果最好;基于单因子条件参数的最优范围设计的响应面试验确定,角闪岩模拟SS废水在最佳絮凝条件为PAM投加量6.03 mg/L、PAC投加量27.15 mg/L、快速搅拌转速90 r/min、快速搅拌时间60 s时,处理后透光率可达到97.5%,花岗岩模拟SS废水在最佳絮凝条件为PAM投加量3.75 mg/L、PAC投加量154.33 mg/L、快速搅拌转速90 r/min、搅拌时间95 s时,处理后透光率达到96.2%。

预拌混凝土生产废水零排放应用试验研究

为实现预拌混凝土搅拌站生产废水零排放的资源化利用,结合压汞法、SEM、XRD微观结构分析方法,探究了废水掺量及其存放时间对混凝土力学性能与微观结构的作用与影响规律。结果表明:废水掺量100%的砂浆7 d抗压强度相比于普通砂浆提高了33%,28 d抗压强度提高了16%,而其它废水掺量的试件抗压强度均有一定程度的提高;废水提供的碱性环境有利于促进水泥的水化;预拌混凝土生产废水中含有的微颗粒对混凝土微观结构起着填充和粘结作用,提高了混凝土的密实度。

混凝土管桩综合废水处理工程实例

本文采用"隔油调节+厌氧酸化+生物接触氧化+混凝沉淀+超滤"组合工艺处理混凝土管桩综合废水,介绍了处理工艺流程、工艺参数以及最终处理效果。实际运行结果表明,出水COD、BOD5分别为50、9.0 mg/L、SS、氨氮、动植物油以及石油类的平均质量浓度分别为25、3.0、0.5、0.3 mg/L,出水水质优于广东省水污染物排放限值(DB44/26-2001)第二时段一级排放标准要求,项目总投资80.7万元,总运行费用为4.08元/m3,该工程可对同类废水的治理提供借鉴。

混凝土搅拌站废水在混凝土中的利用现状

搅拌站废水合理利用在搅拌站实现绿色生产和进行管理星级评价的重要指标之一,通过合理利用废水,可以有效地降低环境污染,降低混凝土生产成本。如何对废水进行有效合理利用,一直是困扰着搅拌站日常管理的重要问题,本文简要介绍了废水的性质及处理工艺,对混凝土性能与浓度掺量、离子浓度、缓凝成分之间的关系,发现废水浓度掺量是当前主要考虑因素,较高废水浓度掺量会导致混凝土的流动性、强度和凝结时间出现明显降低缩短,废水浓度掺量变化影响可以归结于废水中掺加的总固含量影响,需要对废水处理工艺进行设计升级,通过这些研究,希望能够推动搅拌站的废水利用水平进一步提升。

搅拌站废水对混凝土抗冻性能与力学性能的影响研究

研究了搅拌站废水掺量(25%、35%、45%)对混凝土冻融循环后的质量损失、外观形态、动弹性模量及抗压强度的影响规律,建立了掺废水混凝土的冻融损伤模型。结果表明:当废水掺量为25%时,试件的质量损失较大,但抗压强度及动弹性模量仍高于普通混凝土;当废水掺量为35%和45%时,混凝土的抗冻性能得到显著提高,但废水掺量为45%的混凝土动弹性模量下降较快,废水掺量为35%的混凝土抗冻性能最佳;建立的冻融损伤模型能够较好地反映掺废水混凝土的冻融损伤演化规律。

新疆阿尔塔什水利枢纽工程施工期废水回收再利用处理工艺应用汇总

水利工程在建设过程中势必会产生大量的生产废水,如拌和清洗废水、砂石料筛分废水、含油废水、隧洞废水等,若这些废水就地排放,将直接影响地表植物,流入河道水体严重时鱼类将无法存活,渗入地下水层严重时将造成不可挽回的损失。研究了在国内上述废水处理的进展情况,结合新疆阿尔塔什水电站工程,介绍了建设现场各个生产点不同废水若肆意排放对水源地生态的影响,提出各类废水的处理工艺,将产生的废水最大限度地回收再利用,最终达到缓解施工现场施工废水污染物处理难的问题。依此,为今后水利工程建设期生产废水回收利用提供借鉴。

Analysis of Waste in the Production of Concrete Blocks---A Case Study in the Goias Industry

An ever more demanding consumer market and the need for companies to be more competitive have led organizations to try to eliminate waste. This research is a case study which presents a proposal for intervention in order to improve performance of a pre-cast concrete block factory in outer Goihnia. As a first step, waste in the production process was identified through analysis of data on time involved in each step of the process. Then, applying the concepts of lean production, a list of activities was drawn up with a view to eliminating non-value-added work, identifying waste, decreasing cycle time, streamlining the production process and increasing the flexibility and transparency of the process. From the results, it was possible to identify the sources of waste and provide management with information for strategic decisions about production. Finally, various suggestions were made with a view to eliminating or mitigating bottlenecks in the production process.

Effect of Active Mineral on Load-Bearing Autoclaved Aerocrete

Influence of ultrafine active mineral (DK mineral) on mechanical property of fly ash based load bearing aerocrete was analyzed. The result shows that the addition of DK mineral in a suitable amount can enhance obviously the compressive strength of aerocrete. According to the SEM EDS and X ray diffraction analyses, the crystal shapes of hydration products are well developed and interlocked for samples containing DK mineral. Its microstructure is denser than that of the samples without DK mineral. Having a good activation, the DK mineral makes both the type and the quantity of hydrated products be obviously superior to that of the contrast sample.

Analysis of Harnessing Waste Fine Aggregate for Sustainable Production of Concrete Elements

This paper focuses on cement composites based on waste fine aggregate obtained from hydroclassification all-in-aggregate in the Central Pomerania region in northern Poland. In the world there are regions with poor supplies of coarse aggregate, which is one of the most essential raw materials used for production of ordinary concrete. In these regions, instead of coarse aggregate, there are often very large deposits of fine aggregate such as natural sand and fine all-in-aggregate. These raw materials may be used for concrete production of standard mechanical properties. Manufacturing concrete based on locally available fine aggregate is inexpensive which encourages the local production of fine aggregate cement composites instead of ordinary concrete, requiring gravel transported from distant places.