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Energy and Environmental Informatics

Publications

Response of winter climate and extreme weather to projected Arctic sea-ice loss in very large-ensemble climate model simulations 

Ye K, Woollings T, Sparrow S, Watson P & Screen J (2024)

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@misc{responseofwinte-2024/3,
  title={Response of winter climate and extreme weather to projected Arctic sea-ice loss in very large-ensemble climate model simulations },
  author={Ye K, Woollings T, Sparrow S, Watson P & Screen J},
  year = "2024"
}

Forecast-based attribution for midlatitude cyclones

Ermis S, Leach N, Sparrow S, Lott F & Weisheimer A (2024)

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@misc{forecastbasedat-2024/3,
  title={Forecast-based attribution for midlatitude cyclones},
  author={Ermis S, Leach N, Sparrow S, Lott F & Weisheimer A},
  year = "2024"
}

Towards an operational forecast-based attribution system - beyond isolated events

Leach N, Ermis S, Vashti Ayim O, Sparrow S, Lott F et al. (2024)

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@misc{towardsanoperat-2024/3,
  title={Towards an operational forecast-based attribution system - beyond isolated events},
  author={Leach N, Ermis S, Vashti Ayim O, Sparrow S, Lott F et al.},
  year = "2024"
}

Response of winter climate and extreme weather to projected Arctic sea-ice loss in very large-ensemble climate model simulations

Ye K, Woollings T, Sparrow SN, Watson PAG & Screen JA (2024), npj Climate and Atmospheric Science, 7(1)

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BibTeX View PDF 
@article{responseofwinte-2024/1,
  title={Response of winter climate and extreme weather to projected Arctic sea-ice loss in very large-ensemble climate model simulations},
  author={Ye K, Woollings T, Sparrow SN, Watson PAG & Screen JA},
  journal={npj Climate and Atmospheric Science},
  volume={7},
  number={20},
  publisher={Springer Nature},
  year = "2024"
}

Assessing the impact of climate change on the cost of production of green ammonia from offshore wind

Hatton L, Bañares-Alcántara R, Sparrow S, Lott F & Salmon N (2024), International Journal of Hydrogen Energy, 49, 635-643

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@article{assessingtheimp-2024/1,
  title={Assessing the impact of climate change on the cost of production of green ammonia from offshore wind},
  author={Hatton L, Bañares-Alcántara R, Sparrow S, Lott F & Salmon N},
  journal={International Journal of Hydrogen Energy},
  volume={49},
  pages={635-643},
  publisher={Elsevier},
  year = "2024"
}

Assessing long-term future climate change impacts on extreme low wind events for offshore wind turbines in the UK exclusive economic zone

Abdelaziz S, Sparrow S, Hua W & Wallom D (2023), Applied Energy, 354(B)

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@article{assessinglongte-2023/11,
  title={Assessing long-term future climate change impacts on extreme low wind events for offshore wind turbines in the UK exclusive economic zone},
  author={Abdelaziz S, Sparrow S, Hua W & Wallom D},
  journal={Applied Energy},
  volume={354},
  number={122218},
  publisher={Elsevier},
  year = "2023"
}

Optimising multi-factor assistance in a deep learning-based electricity forecasting model with climate resilience: an Australian case study

Yang W, Sparrow SN & Wallom DCH (2023), 00, 1-5

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@inproceedings{optimisingmulti-2023/10,
  title={Optimising multi-factor assistance in a deep learning-based electricity forecasting model with climate resilience: an Australian case study},
  author={Yang W, Sparrow SN & Wallom DCH},
  booktitle={2023 IEEE PES Innovative Smart Grid Technologies Europe (ISGT EUROPE)},
  pages={1-5},
  year = "2023"
}

Physically based equation representing the forcing-driven precipitation in climate models

Lee D, Sparrow SN, Min S-K, Yeh S-W & Allen M (2023), Environmental Research Letters

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@article{physicallybased-2023/8,
  title={Physically based equation representing the forcing-driven precipitation in climate models},
  author={Lee D, Sparrow SN, Min S-K, Yeh S-W & Allen M},
  journal={Environmental Research Letters},
  publisher={IOP Publishing},
  year = "2023"
}

Using Deep Learning for an Analysis of Atmospheric Rivers in a High‐Resolution Large Ensemble Climate Data Set

Higgins TB, Subramanian AC, Graubner A, Kapp‐Schwoerer L, Watson PAG et al. (2023), Journal of Advances in Modeling Earth Systems, 15(4)

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@article{usingdeeplearni-2023/4,
  title={Using Deep Learning for an Analysis of Atmospheric Rivers in a High‐Resolution Large Ensemble Climate Data Set},
  author={Higgins TB, Subramanian AC, Graubner A, Kapp‐Schwoerer L, Watson PAG et al.},
  journal={Journal of Advances in Modeling Earth Systems},
  volume={15},
  publisher={American Geophysical Union (AGU)},
  year = "2023"
}

A generalised multi-factor deep learning electricity load forecasting model for wildfire-prone areas

Yang W, Sparrow SN & Wallom DCH (2023)

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@misc{ageneralisedmul-2023/4,
  title={A generalised multi-factor deep learning electricity load forecasting model for wildfire-prone areas},
  author={Yang W, Sparrow SN & Wallom DCH},
  year = "2023"
}

Large-ensemble forecast-based extreme event attribution

Aengenheyster M, Leach N, Sparrow S & Allen M (2023)

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@misc{largeensemblefo-2023/2,
  title={Large-ensemble forecast-based extreme event attribution},
  author={Aengenheyster M, Leach N, Sparrow S & Allen M},
  year = "2023"
}

Quantifying the different forcing contributions to the climate under the adaptive emission scenarios. 

Lee D, Allen M & Sparrow S (2023)

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@misc{quantifyingthed-2023/2,
  title={Quantifying the different forcing contributions to the climate under the adaptive emission scenarios. },
  author={Lee D, Allen M & Sparrow S},
  year = "2023"
}

From 1.5ºC to 2.0ºC: the global increase in cooling degree days

Miranda N, Lizana J, Sparrow S, Zachau-Walker M, Wallom D et al. (2023)

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@misc{fromctoctheglob-2023/1,
  title={From 1.5ºC to 2.0ºC: the global increase in cooling degree days},
  author={Miranda N, Lizana J, Sparrow S, Zachau-Walker M, Wallom D et al.},
  year = "2023"
}

Changes in Cooling Degree Days (CDD) between the 1.5ºC and 2.0ºC global warming scenarios

Miranda ND, Lizana J, Sparrow SN, Wallom DCH, Zachau-Walker M et al. (2023)

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@misc{changesincoolin-2023/1,
  title={Changes in Cooling Degree Days (CDD) between the 1.5ºC and 2.0ºC global warming scenarios},
  author={Miranda ND, Lizana J, Sparrow SN, Wallom DCH, Zachau-Walker M et al.},
  year = "2023"
}

Using Deep Learning for an Analysis of Atmospheric Rivers in a High-Resolution Large Ensemble Climate Data Set

Higgins TB, Subramanian AC, Graubner A, Kapp-Schwoerer L, Watson PAG et al. (2023), JOURNAL OF ADVANCES IN MODELING EARTH SYSTEMS, 15(4)

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BibTeX View PDF 
@article{usingdeeplearni-2023/,
  title={Using Deep Learning for an Analysis of Atmospheric Rivers in a High-Resolution Large Ensemble Climate Data Set},
  author={Higgins TB, Subramanian AC, Graubner A, Kapp-Schwoerer L, Watson PAG et al.},
  journal={JOURNAL OF ADVANCES IN MODELING EARTH SYSTEMS},
  volume={15},
  number={ARTN e2022MS003495},
  year = "2023"
}

From 1.5ºC to 2.0ºC: the global increase in cooling degree days

Miranda N, Lizana J, Sparrow S, Zachau-Walker M, Wallom D et al. (2023)

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BibTeX View PDF 
@misc{fromctoctheglob-2023/,
  title={From 1.5ºC to 2.0ºC: the global increase in cooling degree days},
  author={Miranda N, Lizana J, Sparrow S, Zachau-Walker M, Wallom D et al.},
  year = "2023"
}

Change in cooling degree days with global mean temperature increasing from 1.5 °C to 2.0 °C

Miranda ND, Lizana J, Sparrow SN, Zachau-Walker M, Watson PAG et al. (2023), NATURE SUSTAINABILITY

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@article{changeincooling-2023/,
  title={Change in cooling degree days with global mean temperature increasing from 1.5 °C to 2.0 °C},
  author={Miranda ND, Lizana J, Sparrow SN, Zachau-Walker M, Watson PAG et al.},
  journal={NATURE SUSTAINABILITY},
  year = "2023"
}

Change in cooling degree days with global mean temperature rise increasing from 1.5 °C to 2.0 °C (Jul, 10.1038/s41893-023-01155-z, 2023)

Miranda ND, Lizana J, Sparrow SN, Zachau-Walker M, Watson PAG et al. (2023), NATURE SUSTAINABILITY

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BibTeX View PDF 
@article{changeincooling-2023/,
  title={Change in cooling degree days with global mean temperature rise increasing from 1.5 °C to 2.0 °C (Jul, 10.1038/s41893-023-01155-z, 2023)},
  author={Miranda ND, Lizana J, Sparrow SN, Zachau-Walker M, Watson PAG et al.},
  journal={NATURE SUSTAINABILITY},
  year = "2023"
}

Physically based equation representing the forcing-driven precipitation in climate models

Lee D, Sparrow SN, Min S-K, Yeh S-W & Allen MR (2023), ENVIRONMENTAL RESEARCH LETTERS, 18(9)

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@article{physicallybased-2023/,
  title={Physically based equation representing the forcing-driven precipitation in climate models},
  author={Lee D, Sparrow SN, Min S-K, Yeh S-W & Allen MR},
  journal={ENVIRONMENTAL RESEARCH LETTERS},
  volume={18},
  number={ARTN 094063},
  year = "2023"
}

Resilient by design: Preventing wildfires and blackouts with microgrids

Yang W, Sparrow SN, Ashtine M, Wallom D & Morstyn T (2022), Applied Energy, 313

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@article{resilientbydesi-2022/3,
  title={Resilient by design: Preventing wildfires and blackouts with microgrids},
  author={Yang W, Sparrow SN, Ashtine M, Wallom D & Morstyn T},
  journal={Applied Energy},
  volume={313},
  number={118793},
  publisher={Elsevier},
  year = "2022"
}
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