Your search keyword '"Peter Dowd"' showing total 15 results

1. A hybrid framework for modelling domains using quantitative covariates

Author

Yerniyaz Abildin, Chaoshui Xu, Peter Dowd, and Amir Adeli

Subjects

Domain modelling for resource estimation, Geological uncertainty, Geostatistical simulation, Machine learning, Classification, Noise filtering, Geography. Anthropology. Recreation, Geology, QE1-996.5, Electronic computers. Computer science, QA75.5-76.95

Abstract

Domains define the boundaries of mineralisation zones, within which the grade distribution of the target minerals can be quantified via an established mineral resource estimation procedure. Available domain modelling techniques include manual interpretation, implicit modelling and advanced geostatistical approaches. In mining applications, the most commonly used method is manual domaining, which is labour-intensive and prone to subjective judgement errors. In addition, the output is largely deterministic and ignores the significant uncertainty associated with the domain interpretation and boundary definitions. There is, therefore, a need for a more objective framework that can automatically define mineral domains and quantify the associated uncertainty. This paper describes such a framework, which consists of a hybrid approach based on simulated grade distributions and a machine learning (ML) classification technique, XGBoost, trained on lithological properties. Data from an Iron Oxide Copper Gold (IOCG) deposit are used as a case study to demonstrate the application of the proposed method. The study shows that the approach can handle complex multi-class problems with imbalanced features, and it can quantify the uncertainty of domain boundaries. A noise filtering method is used as a pre-processing step to improve the performance of the ML classification, especially in the case of problematic classes where domain boundaries are difficult to predict due to the similarity in geological characteristics.

Published

2022

2. Modelling of Coupled Hydro-Thermo-Chemical Fluid Flow through Rock Fracture Networks and Its Applications

Author

Chaoshui Xu, Shaoqun Dong, Hang Wang, Zhihe Wang, Feng Xiong, Qinghui Jiang, Lianbo Zeng, Leon Faulkner, Zhao Feng Tian, and Peter Dowd

Subjects

discrete fracture network, modelling of coupled hydro-thermo-chemical fluid flow, geothermal application, in-situ recovery of minerals, Geology, QE1-996.5

Abstract

Most rock masses contain natural fractures. In many engineering applications, a detailed understanding of the characteristics of fluid flow through a fractured rock mass is critically important for design, performance analysis, and uncertainty/risk assessment. In this context, rock fractures and fracture networks play a decisive role in conducting fluid through the rock mass as the permeability of fractures is in general orders of magnitudes greater than that of intact rock matrices, particularly in hard rock settings. This paper reviews the modelling methods developed over the past four decades for the generation of representative fracture networks in rock masses. It then reviews some of the authors’ recent developments in numerical modelling and experimental studies of linear and non-linear fluid flow through fractures and fracture networks, including challenging issues such as fracture wall roughness, aperture variations, flow tortuosity, fracture intersection geometry, fracture connectivity, and inertia effects at high Reynolds numbers. Finally, it provides a brief review of two applications of methods developed by the authors: the Habanero coupled hydro-thermal heat extraction model for fractured reservoirs and the Kapunda in-situ recovery of copper minerals from fractures, which is based on a coupled hydro-chemical model.

Published

2021

3. Carbon sequestration potential of the Habanero reservoir when carbon dioxide is used as the heat exchange fluid

Author

Chaoshui Xu, Peter Dowd, and Qi Li

Subjects

Carbon sequestration, Carbon dioxide (CO2) geological storage capacity, Enhanced geothermal system (EGS), CO2-EGS, Habanero project, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

The use of sequestered carbon dioxide (CO2) as the heat exchange fluid in enhanced geothermal system (EGS) has significant potential to increase their productivity, contribute further to reducing carbon emissions and increase the economic viability of geothermal power generation. Coupled CO2 sequestration and geothermal energy production from hot dry rock (HDR) EGS were first proposed 15 years ago but have yet to be practically implemented. This paper reviews some of the issues in assessing these systems with particular focus on the power generation and CO2 sequestration capacity. The Habanero geothermal field in the Cooper Basin of South Australia is assessed for its potential CO2 storage capacity if supercritical CO2 is used as the working fluid for heat extraction. The analysis suggests that the major CO2 sequestration mechanisms are the storage in the fracture-stimulation damaged zone followed by diffusion into the pores within the rock matrix. The assessment indicates that 5% of working fluid loss commonly suggested as the storage capacity might be an over-estimate of the long-term CO2 sequestration capacity of EGS in which supercritical CO2 is used as the circulation fluid.

Published

2016

4. Geometallurgical Responses on Lithological Domains Modelled by a Hybrid Domaining Framework

Author

Adeli, Yerniyaz Abildin, Chaoshui Xu, Peter Dowd, and Amir

Subjects

domain modelling for resource estimation, geological uncertainty, geostatistical simulation, machine learning, classification, noise filtering, geometallurigical modelling

Abstract

Identifying mineralization zones is a critical component of quantifying the distribution of target minerals using well-established mineral resource estimation techniques. Domains are used to define these zones and can be modelled using techniques such as manual interpretation, implicit modelling, and advanced geostatistical methods. In practise, domaining is commonly a manual exercise that is labour-intensive and prone to subjective judgement errors, resulting in a largely deterministic output that ignores the significant uncertainty associated with manual domain interpretation and boundary definitions. Addressing these issues requires an objective framework that can automatically define mineral domains and quantify the associated uncertainty. This paper presents a comparative study of PluriGaussian Simulation (PGS) and a Hybrid Domaining Framework (HDF) based on simulated assay grades and XGBoost, a machine-learning classification technique trained on lithological properties. The two domaining approaches are assessed on the basis of the domain boundaries produced using data from an Iron Oxide Copper Gold deposit. The results show that the proposed HDF domaining framework can quantify the uncertainty of domain boundaries and accommodate complex multiclass problems with imbalanced features. Geometallurgical models of the Net Smelter Return and grinding time are used to demonstrate the effectiveness of HDF. In addition, a preprocessing step involving a noise filtering method is used to improve the performance of the ML classification, especially in cases where domain boundaries are difficult to predict due to the similarity in geological characteristics and the inherent noise in the data.

Published

2023

5. A Review of Sensor-Based Sorting in Mineral Processing: The Potential Benefits of Sensor Fusion

Author

C. Xu, Peter Dowd, and Dylan Peukert

Subjects

Geology, Geotechnical Engineering and Engineering Geology

Abstract

Sensor-based sorting techniques offer the potential to improve ore grades and reduce the amount of waste material processed. Previous studies show that sensor-based sorting can reduce energy, water and reagent consumption and fine waste production by discarding waste prior to further processing. In this literature review, recent investigations of sensor-based sorting and the fundamental mechanisms of the main sorting techniques are evaluated to inform optimal sensor selection. Additionally, the fusing of data from multiple sensing techniques to improve characterization of the sensed material and hence sorting capability is investigated. It was found that the key to effective implementation of sensor-based sorting is the selection of a sensing technique which can sense a characteristic capable of separating ore from waste with a sampling distribution sufficient for the considered sorting method. Classes of potential sensor fusion sorting applications in mineral processing are proposed and illustrated with example cases. It was also determined that the main holdup for implementing sensor fusion is a lack of correlatable data on the response of multiple sensing techniques for the same ore sample. A combined approach of experimental testing supplemented by simulations is proposed to provide data to enable the evaluation and development of sensor fusion techniques.

Published

2022

6. Foreword

Author

Peter Dowd

Published

2019

7. Discrete Fracture Network Engineering

Author

Peter Dowd

Subjects

General Engineering, General Earth and Planetary Sciences, Geology, Geotechnical Engineering and Engineering Geology, General Environmental Science

Published

2015

8. Editorial

Author

Peter Dowd

Subjects

General Engineering, General Earth and Planetary Sciences, Geology, Geotechnical Engineering and Engineering Geology, General Environmental Science

Published

2014

9. Data for crystallisation, dissolution and saturation temperatures of the ternary system: Hexadecane and octadecane representative in fuel solvents

Author

Xue Tang, Peter L. Kaskiewicz, Diana M. Camacho Corzo, Xiaojun Lai, Kevin J. Roberts, Peter Dowding, and Iain More

Subjects

Computer applications to medicine. Medical informatics, R858-859.7, Science (General), Q1-390

Abstract

The data presented in this article relates to the crystallisation of hexadecane (C16H34) and octadecane (C18H38), being the predominant alkanes present in hydrotreated vegetable oil (HVO), from solvents representative of fuel (dodecane, toluene and kerosene). Data was collected for eleven C16H34/C18H38 compositions for each solvent used. Raw crystallisation and dissolution data is provided over a range of solution concentrations and cooling rates used under a poly-thermal crystallisation methodology. Equilibrium saturation temperature data is also presented for each composition, concentration and solvent system, indicating the trend in solubility for each solution.

Published

2018

10. Identification and characterization of PiORP1, a Petunia oxysterol-binding-protein related protein involved in receptor-kinase mediated signaling in pollen, and analysis of the ORP gene family in Arabidopsis.

Author

Andrea Skirpan, Peter Dowd, Paja Sijacic, Cynthia Jaworski, Simon Gilroy, and Teh-hui Kao

Abstract

Abstract  Oxysterol-binding proteins (OSBPs) and oxysterol-binding-protein related proteins (ORPs) are encoded by most eukaryotic genomes examined to date; however, they have not yet been characterized in plants. Here we report the identification and characterization of PiORP1, an ORP of Petunia inflata that interacts with the cytoplasmic kinase domain of a receptor-like kinase, named PRK1, of P. inflata. PiORP1 is phosphorylated by PRK1 in vitro and therefore may be involved in PRK1 signaling during pollen development and growth. RNA gel blot analysis showed that PiORP1 and PRK1 had very similar expression patterns in developing pollen, mature pollen and pollen tubes. GFP fusion proteins of PiORP1 localized in the plasma membrane of pollen tubes at distinct foci and its PH domain alone was sufficient to mediate this localization. The sequence for the oxysterol-binding domain of PiORP1 was used to search the genome of Arabidopsis; 12 ORPs were identified and phylogenetic analysis revealed that they fell into two distinct clades, consistent with the ORPs of other eukaryotes. RT-PCR analysis showed that all 12 Arabidopsis ORPs were expressed; 10 were expressed in most of the tissues examined under normal growth conditions, but only three were expressed in pollen. [ABSTRACT FROM AUTHOR]

Published

2006

11. Improving health outcomes for young people with long term conditions: The role of digital communication in current and future patient–clinician communication for NHS providers of specialist clinical services for young people – LYNC study protocol

Author

Frances E Griffiths, Helen Atherton, Jack R Barker, Jonathan AK Cave, Kathryn Dennick, Peter Dowdall, Joe Fraser, Caroline Huxley, Sung-Wook Kim, Jason J Madan, Harjit Matharu, Luhanga Musumadi, Tom M Palmer, Moli Paul, Sailesh Sankaranarayanan, Anne-Marie Slowther, Mark A Sujan, Paul A Sutcliffe, and Jackie Sturt

Subjects

Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Background Young people living with long term conditions are vulnerable to health service disengagement. This endangers their long term health. Studies report requests for digital forms of communication – email, text, social media – with their health care team. Digital clinical communication is troublesome for the UK NHS. Aim In this article we aim to present the research protocol for evaluating the impacts and outcomes of digital clinical communications for young people living with long term conditions and provide critical analysis of their use, monitoring and evaluation by NHS providers (LYNC study: Long term conditions, Young people, Networked Communications). Methods The research involves: (a) patient and public involvement activities with 16–24 year olds with and without long term health conditions; (b) six literature reviews; (c) case studies – the main empirical part of the study – and (d) synthesis and a consensus meeting. Case studies use a mixed methods design. Interviews and non-participant observation of practitioners and patients communicating in up to 20 specialist clinical settings will be combined with data, aggregated at the case level (non-identifiable patient data) on a range of clinical outcomes meaningful within the case and across cases. We will describe the use of digital clinical communication from the perspective of patients, clinical staff, support staff and managers, interviewing up to 15 young people and 15 staff per case study. Outcome data includes emergency admissions, A&E attendance and DNA (did not attend) rates. Case studies will be analysed to understand impacts of digital clinical communication on patient health outcomes, health care costs and consumption, ethics and patient safety.

Published

2015

12. A windows program for incorporating slope design in open pit optimisation

Author

Peter Dowd, Khalokakaie, R., and Fowell, R. J.

13. A nonlinear model for flow in two-dimensional rock fractures

Author

Wang, Z., Xu, C., and Peter Dowd

14. A simplified equivalent pipe network approach to model flow in poro-fractured rock masses

Author

Xu, C., Fidelibus, C., Wang, Z., Peter Dowd, Xu, C., Fidelibus, C., Wang, Z., and Dowd, P. A.

Abstract

Assessment of flow through fractured porous rock masses is a common problem in many engineering applications including hydrogeology, in-situ mineral recovery, hydro-geothermal resources, mining and oil and gas extraction. In all these applications, flow through the fracture network within the rock mass is, in general, dominant but the contribution to the overall flow from the flow through the intact rock will increase as the permeability of the intact rock increases. Therefore, in general, flow through both the fracture network and the porous rock must be considered simultaneously in order to derive a realistic flow model. The most common numerical approach to solving this problem is to use the dual permeability model in which the fracture network and porous rock are treated as two separate permeable media interacting by means of an exchange term between them. In this approach, the fracture network is usually grossly over-simplified, and the connectivity of the fractures is not directly considered in establishing the dual permeability model. In this work, we present a simple equivalent pipe network approach which solves the problem by considering the connectivity of the fracture network whilst, at the same time, taking into account the permeable nature of the intact rock. The proposed method has the additional benefit of reducing computing costs. A simple example is used to demonstrate the application of the proposed approach.

15. Young people with long term conditions: the role of digital clinical communication in improving health care engagement and health outcome

Author

Frances Griffiths, Jackie Sturt, Caroline Huxley, Kathryn Dennick, Paul Sutcliffe, Tom Palmer, Jason Madan, Jonathan Cave, Mark Sujan, Anne-Marie Slowther, Moli Paul, Harjit Matharu, Sailesh Sankaranarayanan, Jack Barker, Peter Dowdall, Helen Atherton, Luhanga Musamadi, and Joe Fraser

Subjects

clinical communication, long term conditions, young people, digital communication, Medicine (General), R5-920

Published

2014