Development of a small-scale geotechnical centrifuge

IF 1.2 4区工程技术 Q4 ENGINEERING, GEOLOGICAL

International Journal of Physical Modelling in Geotechnics Pub Date : 2024-01-17 DOI:10.1680/jphmg.22.00015

A. Sorta, Neville Dubash, Benny Moyls, Scott E. Webster, O. Omotoso

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Abstract

Oil sands fluid fine tailings in Northern Alberta have very poor water release characteristics and require many decades to fully consolidate under their own weight. Generally, physical and/or chemical treatments are necessary to improve the consolidation behaviour and manage the tailings in an economical and environmentally acceptable manner. The effect of each treatment method is commonly evaluated, in part, by measuring the short- and long-term consolidation behaviour of treated samples. Geotechnical beam centrifuges, large strain consolidation apparatus, and geocolumns are typically used to measure the consolidation properties. However, these methods require many months to complete or are expensive and difficult to deploy in the field. We developed a small-scale geotechnical centrifuge suitable for use in both research environments and laboratories at industrial sites to study and/or monitor various treatment and disposal options in a short time. This paper presents the motivation for developing a small-scale centrifuge, the components and features of the centrifuge, and the assortment of tests completed to validate the apparatus and testing methods. The validation tests proved that the small-scale centrifuge produces comparable results to existing methods while reducing the cost and time required to evaluate the consolidation performance of different tailings treatment options.

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开发小型土工离心机

阿尔伯塔省北部的油砂流体细尾矿具有极差的释水特性，需要几十年的时间才能在自重作用下完全固结。一般来说，有必要进行物理和/或化学处理，以改善固结性能，并以经济和环境可接受的方式管理尾矿。每种处理方法的效果通常都要通过测量处理后样本的短期和长期固结情况来进行部分评估。土工束离心机、大应变固结仪和土工柱通常用于测量固结特性。然而，这些方法需要数月才能完成，或者成本高昂，难以在现场部署。我们开发了一种小型土工离心机，既适用于研究环境，也适用于工业场地的实验室，可在短时间内研究和/或监测各种处理和处置方案。本文介绍了开发小型离心机的动机、离心机的组件和特点，以及为验证设备和测试方法而完成的各种测试。验证测试证明，小型离心机产生的结果与现有方法相当，同时降低了评估不同尾矿处理方案固结性能所需的成本和时间。

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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来源期刊

International Journal of Physical Modelling in Geotechnics ENGINEERING, GEOLOGICAL-

CiteScore

3.60

自引率

15.80%

发文量

期刊介绍： International Journal of Physical Modelling in Geotechnics contains the latest research and analysis in all areas of physical modelling at any scale, including modelling at single gravity and at multiple gravities on a centrifuge, shaking table and pressure chamber testing and geoenvironmental experiments.