What are the Future Trends in Natural Gas Technology to Address Climate Change? Patent Analysis Through Large Language Model

25 Pages Posted: 10 Jan 2024 Last revised: 24 Jan 2024

See all articles by Mingyu Kim

Mingyu Kim

Changwon National University

Juyong Lee

Changwon National University; Yonsei University

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Abstract

Policies to reduce dependence on fossil fuel consumption and increase the share of renewable energy are being pursued worldwide, and in 2020, the European Union highlighted hydrogen as a key priority to achieve its decarbonisation goals. Base on Bidirectional Encoder Representations from Transformers (BERT), a pre-trained transformer-based large language model, this study conducted patent text mining for natural gas utilisation and generation technologies from 2013 to 2022, which are internationally registered patents. As a result of the topic modelling, a topic representation was created with c-TF-IDF that encapsulates all documents in clusters or classes, and 10 related topics and trends were derived. Among the 10 topics, the topics of water reactor and hydrogen-blended gas turbine were found to be increasing rapidly in proportion recently, and in fact, these technologies were found to be the most actively developed technologies in 2023. Therefore, based on the results of patent analysis on natural gas generation technologies, this study demonstrates that applying large language models to traditional patent analysis methodologies that focuses on technology segmentation and topic modelling can be used to predict future trends and innovative technologies, and also suggests the direction of future research on technology prediction.

Keywords: Natural Gas, Hydrogen blending, Large language model, patent analysis, text mining

Suggested Citation

Kim, Mingyu and Lee, Juyong, What are the Future Trends in Natural Gas Technology to Address Climate Change? Patent Analysis Through Large Language Model. Available at SSRN: https://ssrn.com/abstract=4690275 or http://dx.doi.org/10.2139/ssrn.4690275

Mingyu Kim

Changwon National University ( email )

Changwon
Korea, Republic of (South Korea)

Juyong Lee (Contact Author)

Changwon National University ( email )

Changwon
Korea, Republic of (South Korea)

Yonsei University ( email )

Seoul
Korea, Republic of (South Korea)

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