CO2 Geological Storage: A Bibliometric Analysis of Research Trends DOI Creative Commons

Chen Wang,

Siyuan Zhang,

Tingting Hua

et al.

Heliyon, Journal Year: 2024, Volume and Issue: 10(14), P. e34479 - e34479

Published: July 1, 2024

Geological sequestration of carbon dioxide is a critical strategy to combat global warming, playing significant role in the reduction greenhouse gas emissions and preservation ecosystem. Over more than three decades, this domain has expanded encompass myriad research avenues nuanced sub-fields. Proficiency navigating dynamic developments prominent challenges arena imperative for promoting scholarly advancement. In investigation, bibliometric techniques are applied perform comprehensive qualitative quantitative investigation progression studies on CO2 geological sequestration. The analysis incorporates thorough review synthesis accumulated literature, comprising 34,392 articles sourced from Web Science Core Collection. assessment primarily scrutinizes chronological dispersal outputs, geographical institutional representation, principal journals publication, patterns authorship highlight burgeoning areas concentrated endeavors prospective future frontiers. data reveals pronounced surge academic literature focusing storage post-2009, which underscores increasing value sector. Investigations characterized by widespread international engagement, with notable contributions United States, China, Kingdom substantially steering discourse. core investigative themes comprise inquiries into physical chemical dynamics containment, environmental repercussions, safety assessments, evaluation methods, technological assessments storage, along stringent scrutiny contexts their viability efficacy as sites.

Language: Английский

CO2 Geological Storage: A Bibliometric Analysis of Research Trends DOI Creative Commons

Chen Wang,

Siyuan Zhang,

Tingting Hua

et al.

Heliyon, Journal Year: 2024, Volume and Issue: 10(14), P. e34479 - e34479

Published: July 1, 2024

Geological sequestration of carbon dioxide is a critical strategy to combat global warming, playing significant role in the reduction greenhouse gas emissions and preservation ecosystem. Over more than three decades, this domain has expanded encompass myriad research avenues nuanced sub-fields. Proficiency navigating dynamic developments prominent challenges arena imperative for promoting scholarly advancement. In investigation, bibliometric techniques are applied perform comprehensive qualitative quantitative investigation progression studies on CO2 geological sequestration. The analysis incorporates thorough review synthesis accumulated literature, comprising 34,392 articles sourced from Web Science Core Collection. assessment primarily scrutinizes chronological dispersal outputs, geographical institutional representation, principal journals publication, patterns authorship highlight burgeoning areas concentrated endeavors prospective future frontiers. data reveals pronounced surge academic literature focusing storage post-2009, which underscores increasing value sector. Investigations characterized by widespread international engagement, with notable contributions United States, China, Kingdom substantially steering discourse. core investigative themes comprise inquiries into physical chemical dynamics containment, environmental repercussions, safety assessments, evaluation methods, technological assessments storage, along stringent scrutiny contexts their viability efficacy as sites.

Language: Английский

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