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Thermal infrared imaging of geothermal environments and by an unmanned aerial vehicle (UAV): A case study of the Wairakei – Tauhara geothermal field, Taupo, New Zealand

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  • Nishar, Abdul
  • Richards, Steve
  • Breen, Dan
  • Robertson, John
  • Breen, Barbara

Abstract

Recent advances in unmanned aerial vehicles (UAVs) for civilian use make it possible to regularly monitor geothermal environments at spatial and temporal scales that would be difficult to achieve using conventional methods. Previous aerial monitoring of geothermal environments has been expensive and time consuming. This paper demonstrates the use of a small (<2 kg), cost effective quadcopter UAV to safely and accurately map physical and biological characteristics of these unique habitats. Thermal infrared imaging and photogrammetry are used to capture detailed information of geothermal surface features and surrounding vegetation within the Wairakei – Tauhara geothermal field near Taupo, New Zealand. The study highlights advanced techniques in sampling, processing and analysing UAV images and identifies some research challenges and limitations in the use of UAV platforms and sensors. The application of UAVs to describe and monitor geothermal features and other environments is a rapidly developing field in science and natural resource management. This project demonstrates the utility of UAV applications in geothermal science and the potential for their use in many other areas of research.

Suggested Citation

  • Nishar, Abdul & Richards, Steve & Breen, Dan & Robertson, John & Breen, Barbara, 2016. "Thermal infrared imaging of geothermal environments and by an unmanned aerial vehicle (UAV): A case study of the Wairakei – Tauhara geothermal field, Taupo, New Zealand," Renewable Energy, Elsevier, vol. 86(C), pages 1256-1264.
    • Handle: RePEc:eee:renene:v:86:y:2016:i:c:p:1256-1264
    DOI: 10.1016/j.renene.2015.09.042
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    References listed on IDEAS

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    1. Lanah Evers & Twan Dollevoet & Ana Barros & Herman Monsuur, 2014. "Robust UAV mission planning," Annals of Operations Research, Springer, vol. 222(1), pages 293-315, November.
    2. Maria Bargh, 2012. "Rethinking and re‐shaping indigenous economies: Māori geothermal energy enterprises," Journal of Enterprising Communities: People and Places in the Global Economy, Emerald Group Publishing Limited, vol. 6(3), pages 271-283, August.
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    2. Nadia Belmonte & Carlo Luetto & Stefano Staulo & Paola Rizzi & Marcello Baricco, 2017. "Case Studies of Energy Storage with Fuel Cells and Batteries for Stationary and Mobile Applications," Challenges, MDPI, vol. 8(1), pages 1-15, March.
    3. Carbajal-Martínez, Daniel & Peiffer, Loïc & Hinojosa-Corona, Alejandro & Trasviña-Castro, Armando & Arregui-Ojeda, Sergio M. & Carranza-Chávez, Francisco J. & Flores-Luna, Carlos & Méndez-Alonzo, Rodr, 2021. "UAV-based thermal imaging and heat output estimation of a coastal geothermal resource: La Jolla beach, Baja California, Mexico," Renewable Energy, Elsevier, vol. 168(C), pages 1364-1376.
    4. Abubakar Yusuf & Lim Hwee San & Ismail Ahmad Abir, 2021. "A Preliminary Geothermal Prospectivity Mapping Based on Integrated GIS, Remote-Sensing, and Geophysical Techniques around Northeastern Nigeria," Sustainability, MDPI, vol. 13(15), pages 1-22, July.
    5. Belmonte, N. & Staulo, S. & Fiorot, S. & Luetto, C. & Rizzi, P. & Baricco, M., 2018. "Fuel cell powered octocopter for inspection of mobile cranes: Design, cost analysis and environmental impacts," Applied Energy, Elsevier, vol. 215(C), pages 556-565.

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