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Dr Dia Adhikari Smith
Dr

Dia Adhikari Smith

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Overview

Background

Dr Dia Adhikari Smith is the Tritium E-Mobility Research Fellow at The University of Queensland’s Dow Centre for Sustainable Engineering Innovation (School of Chemical Engineering) and the Transport Engineering Group (School of Civil Engineering). Her current research focusses on advancing the performance, economics, and uptake of E-Mobility globally, with a particular focus on the decarbonisation of both on-road and non-road heavy vehicles used in transport, construction, and mining sectors in Australia. Dia’s research expertise in low and zero emission heavy vehicles, powered by electric, hydrogen and advanced biofuels, has been demonstrated through several industry and government engagements to deliver decarbonisation feasibility studies, emissions modelling, cost benefit analyses, total cost of ownership scenarios and developing strategic roadmaps and recommended policy packages to achieve net zero emissions. Dia has a PhD in Power and Energy Systems Engineering from Glasgow Caledonian University, UK and worked as a Postdoctoral Fellow at the Centre for Integrated Renewable Energy Generation and Supply, Cardiff University, UK and as a Lecturer at the Grand Canyon University, Phoenix, USA.

Dia's postdoctoral research experience, at Cardiff University, involved in-depth research to investigate Smart Grid network assessment and planning methodologies that would consider type, extent, and pathway of various smart, innovative, and sustainable technology interventions (renewable energy sources, distributed generation, battery storage, electric vehicles, and hydrogen). Dia has worked on different quantitative and qualitative research methods to analyse the factors affecting the diffusion of low and zero emission technologies in the UK and conducted feasibility studies to evaluate the inhibiting factors for Smart Grid transition within the building industry (smart sustainable houses) and the mining sector (electric heavy vehicles, renewable energy sources, and energy storage) in the perspective of users, energy experts, energy providers, respective industries, policymakers, regulators, and the government. Dia's research projects involved close collaboration with Academia, Government and Industry to propose strategic guidelines, evaluate policies, and publish joint work-stream reports, for the successful diffusion of zero-emission technologies and renewable energy systems.

Availability

Dr Dia Adhikari Smith is:
Available for supervision
Media expert

Qualifications

  • Masters (Coursework) of Science, University of Sussex
  • Doctor of Philosophy, Glasgow Caledonian University

Research interests

  • low and zero emission road-freight transport

    low and zero emission road-freight vehicles, powered by electric, hydrogen, and advanced biofuels

  • construction site decarbonisation

    low and zero-emission technologies that could drive the transition to fossil-fuel free and ultimately zero emission construction sites

  • decarbonisation of heavy vehicles

    decarbonisation of both on-road and non-road heavy vehicles used in transport, construction, and mining sectors

Works

Search Professor Dia Adhikari Smith’s works on UQ eSpace

13 works between 2010 and 2024

1 - 13 of 13 works

2024

Other Outputs

The electric edge: energy, emissions and cost benefits of electric concrete pumping

Heywood, Abigail, Wensley, Nicholas, Thow, Nick, Austin, Ann, D’Angola, Donato and Adhikari Smith, Dia (2024). The electric edge: energy, emissions and cost benefits of electric concrete pumping. c Barangaroo, NSW, Australia: Lendlease.

The electric edge: energy, emissions and cost benefits of electric concrete pumping

2023

Other Outputs

Opportunities to Decarbonise Queensland’s Road Freight Task: developing a strategic roadmap to a smooth transition to low and zero emission technologies

Adhikari Smith, Dia and Hickman, Mark (2023). Opportunities to Decarbonise Queensland’s Road Freight Task: developing a strategic roadmap to a smooth transition to low and zero emission technologies. Transport Academic Partnership (TAP) Project: Opportunities to decarbonise Queensland’s road freight task Brisbane, QLD Australia: The University of Queensland.

Opportunities to Decarbonise Queensland’s Road Freight Task: developing a strategic roadmap to a smooth transition to low and zero emission technologies

2022

Other Outputs

Planning a Transition to Low and Zero Emission Construction Machinery

Adhikari Smith, Dia, Whitehead, Jake and Hickman, Mark (2022). Planning a Transition to Low and Zero Emission Construction Machinery. Brisbane, QLD Australia: The University of Queensland. doi: 10.14264/93110de

Planning a Transition to Low and Zero Emission Construction Machinery

2021

Other Outputs

A feasibility assessment of transitioning to low or zero emission truck technologies in Queensland

Adhikari Smith, Dia, Whitehead, Jake and Hickman, Mark (2021). A feasibility assessment of transitioning to low or zero emission truck technologies in Queensland. Transport Academic Partnership (TAP) Project: Opportunities to decarbonise Queensland’s road freight task Brisbane, QLD, Australia: The University of Queensland.

A feasibility assessment of transitioning to low or zero emission truck technologies in Queensland

2015

Conference Publication

Real time closed-loop test rig for decentralized control of smart distribution networks

Adhikari, D., Wu, J. and O'Malley, G. (2015). Real time closed-loop test rig for decentralized control of smart distribution networks. 6th International Conference on Applied Energy (ICAE), Taipei, Taiwan, 30 May - 2 June, 2014. Amsterdam, Netherlands: Elsevier BV. doi: 10.1016/j.egypro.2014.11.948

Real time closed-loop test rig for decentralized control of smart distribution networks

2013

Journal Article

PD characteristics and degradation in PET insulation with vented and unvented internal voids

Adhikari, D., Hepburn, D. M. and Stewart, B. G. (2013). PD characteristics and degradation in PET insulation with vented and unvented internal voids. Electric Power Systems Research, 100, 65-72. doi: 10.1016/j.epsr.2013.02.012

PD characteristics and degradation in PET insulation with vented and unvented internal voids

2012

Conference Publication

Characterisation of PD occurring in injected air bubbles in block polymeric insulation

Adhikari, D., Hepburn, D. M. and Stewart, B. G. (2012). Characterisation of PD occurring in injected air bubbles in block polymeric insulation. IEEE Conference on Electrical Insulation and Dielectric Phenomena, CEIDP 2012, Montreal, QC, Canada, 14 - 17 October 2012. Piscataway, NJ, United States: Institute of Electrical and Electronics Engineers. doi: 10.1109/ceidp.2012.6378719

Characterisation of PD occurring in injected air bubbles in block polymeric insulation

2012

Conference Publication

PD degradation analysis of PET with enclosed voids and voids connected to closed and vented channels

Adhikari, D., Hepburn, D. M. and Stewart, B. G. (2012). PD degradation analysis of PET with enclosed voids and voids connected to closed and vented channels. 47th International Universities Power Engineering Conference (UPEC), Uxbridge, United Kingdom, 4-7 September 2012. doi: 10.1109/upec.2012.6398692

PD degradation analysis of PET with enclosed voids and voids connected to closed and vented channels

2012

Conference Publication

Comparative study of PD characteristics and degradation of PET insulation with a self-contained void, void with closed channel and void with vented channel

Adhikari, D., Hepburn, D. M. and Stewart, B. G. (2012). Comparative study of PD characteristics and degradation of PET insulation with a self-contained void, void with closed channel and void with vented channel. 19th IEEE International Symposium on Electrical Insulation, San Juan, PR, United States, 10 -13 June 2012. Piscataway, NJ, United States: Institute of Electrical and Electronics Engineers. doi: 10.1109/elinsl.2012.6251519

Comparative study of PD characteristics and degradation of PET insulation with a self-contained void, void with closed channel and void with vented channel

2012

Journal Article

Comparison of partial discharge characteristics and degradation in several polymeric insulators

Adhikari, D., Hepburn, D.M. and Stewart, B.G. (2012). Comparison of partial discharge characteristics and degradation in several polymeric insulators. IET Science, Measurement & Technology, 6 (6), 474-484. doi: 10.1049/iet-smt.2011.0226

Comparison of partial discharge characteristics and degradation in several polymeric insulators

2011

Conference Publication

Comparison of PD characteristics and degradation in PET insulation with vented and unvented voids

Adhikari, D., Hepburn, D. M. and Stewart, B. G. (2011). Comparison of PD characteristics and degradation in PET insulation with vented and unvented voids. Annual Report Conference on Electrical Insulation and Dielectric Phenomena, CEIDP 2011, Cancun, Mexico, 16-19 October, 2011. Piscataway, NJ, United States: IEEE. doi: 10.1109/ceidp.2011.6232690

Comparison of PD characteristics and degradation in PET insulation with vented and unvented voids

2011

Conference Publication

Analysis of deterioration of PET insulation with multiple voids due to electrical stressing

Adhikari, D., Hepburn, D. M. and Stewart, B. G. (2011). Analysis of deterioration of PET insulation with multiple voids due to electrical stressing. 30th Electrical Insulation Conference, EIC 2011, Annapolis, MD, United States, 5 - 8 June 2011. NEW YORK: IEEE. doi: 10.1109/eic.2011.5996135

Analysis of deterioration of PET insulation with multiple voids due to electrical stressing

2010

Conference Publication

Analysis of partial discharge characteristics in artificially created voids

Adhikari, D., Hepburn, D. M. and Stewart, B. G. (2010). Analysis of partial discharge characteristics in artificially created voids. 45th International Universities Power Engineering Conference UPEC2010, Cardiff, United Kingdom, 31 August - 3 September 2010.

Analysis of partial discharge characteristics in artificially created voids

Funding

Past funding

  • 2023
    Transition Towards Zero Emissions Heavy Vehicles: Analysis, Planning and Policy (iMOVE CRC project administered by Swinburne University of Technology)
    Swinburne University of Technology
    Open grant
  • 2022 - 2023
    Emissions and economic modelling of road and rail freight in NSW
    iMove Cooperative Research Centre
    Open grant

Supervision

Availability

Dr Dia Adhikari Smith is:
Available for supervision

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Media

Enquiries

Contact Dr Dia Adhikari Smith directly for media enquiries about:

  • construction site decarbonisation
  • decarbonisation of heavy vehicles
  • fossil-fuel free construction sites
  • low and zero emission freight transport

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