Novel Laboratory Test Method and Field Applications for Silica/Silicate and Other Problematic Scale Control

Haiping Lu, Johnathon Brooks, R. Legan, Steven F. Fritz
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引用次数: 6

Abstract

The formation of silica and silicate scales caused troublesome issues in various water-handling systems, including steam generators, geothermal wells, and waste-water disposal systems. Recently, a produced water with over 300 ppm of silica, and a spent brine off the strong acid cation (SAC) softeners containing high levels of calcium (Ca), barium (Ba), and magnesium (Mg) were commingled in the production wells. The mixing of these two waters induced silicate as well as other scales, including calcite, barite, etc. In order to provide effective scale inhibition when these waters are mixed, effective scale inhibitors for both silicate and other scales were requested for evaluation. In this paper, scale inhibitor chemistries for preventing both silica/silicate and other scales were reviewed and the possible synergistic effects were assessed by Design of Experiment (DOE) software. DOE is a systematic method to determine the relationship between several factors, i.e. various chemistries and the performance of formulations under designed application conditions. Selected chemicals were formulated for control of both silica/silicates and other scales, and their performances were evaluated by a Kinetic Turbidity Test (KTT). The KTT is a novel laboratory test method using an Ultraviolet-Visible (UV-Vis) spectrophotometer to monitor the formation of scales at various dosages of tested products. Bottle tests were also conducted for the comparison of inhibition performance. Based on the lab testing results from the KTT and the bottle tests, the combined products exhibited good scale inhibition performance for both silicate and other scales. The product was recommended for field applications. Subsequent field applications of this product have provided the desired scale control. This paper presents the laboratory testing data for scale inhibitor selection for the combination products on both silica/silicate control and other scale control by using the efficient performance evaluation method. It also provides an effective product formulation approach for finding synergetic effects of different products. Successful scale inhibitor implementations in the field applications are also presented in this paper. Both laboratory and field testing results show a good case history for the optimization of the silica/silicate and other scale treatment.
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二氧化硅/硅酸盐及其他有问题的结垢控制的新型实验室测试方法和现场应用
二氧化硅和硅酸盐鳞片的形成在各种水处理系统中引起了麻烦,包括蒸汽发生器、地热井和废水处理系统。最近,在生产井中混合了二氧化硅含量超过300ppm的采出水和含有高浓度钙(Ca)、钡(Ba)和镁(Mg)的强酸阳离子(SAC)软化剂的废盐水。这两种水的混合产生了硅酸盐以及其他水垢,包括方解石、重晶石等。为了在这些水混合时提供有效的阻垢剂,需要对硅酸盐和其他水垢的有效阻垢剂进行评估。本文综述了各种阻垢剂的化学性质,并利用实验设计(Design of Experiment, DOE)软件对其可能的协同效应进行了评价。DOE是在设计的应用条件下确定若干因素,即各种化学成分与配方性能之间关系的系统方法。选定的化学制剂用于控制二氧化硅/硅酸盐和其他水垢,并通过动态浊度测试(KTT)评估其性能。KTT是一种新型的实验室测试方法,使用紫外-可见(UV-Vis)分光光度计来监测不同剂量测试产品的鳞片形成。还进行了瓶试验,比较了其抑菌性能。KTT和瓶子试验的实验室测试结果表明,复合产物对硅酸盐和其他水垢均有良好的阻垢性能。该产品推荐用于现场应用。该产品的后续现场应用提供了所需的规模控制。本文介绍了采用高效性能评价方法对硅/硅酸盐防垢和其他防垢组合产品进行阻垢剂选择的实验室测试数据。为寻找不同产品的协同效应提供了有效的产品配方方法。本文还介绍了成功的阻垢剂在现场的应用。实验室和现场测试结果都显示了二氧化硅/硅酸盐和其他结垢处理优化的良好案例历史。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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