With an emerging focus on fighting climate change and improving sustainability, it is imperative to share knowledge gained from investigating and addressing microbiological challenges in the non-renewable industry to the renewable industry. This book explores topics related to microbiological challenges impacting the energy sector. The chapters cover technological advances related to a wide range of topics including, but not limited to, microbiologically influenced corrosion in the energy sector, hydrocarbon biodegradation, and hydrogen storage. It offers cross-disciplinary knowledge and facilitates collaboration that can lead to holistic solutions for addressing complex microbiological challenges faced by the energy industry.
Provides real-world perspectives on emerging trends, market demands, and technological challenges
Explores fundamental concepts and disruptive breakthroughs
Bridges the gap between theory and application, accelerating the development of cutting-edge solutions and widespread adoption of technologies to address microbiological challenges
This text is aimed at an interdisciplinary audience, spanning readers in materials, chemical, process, corrosion, environmental, civil, and bioengineering.
The Open Access version of this book, available at http://www.taylorfrancis.com, has been made available under a Creative Commons Attribution-Non Commercial-No Derivatives (CC BY-NC-ND) 4.0 license.
Edited by:
Susmitha Purnima Kotu,
Torben Lund Skovhus (VIA University College,
Denmark),
Kenneth Wunch
Imprint: CRC Press
Country of Publication: United Kingdom
Dimensions:
Height: 234mm,
Width: 156mm,
ISBN: 9781032745220
ISBN 10: 1032745223
Series: Microbes, Materials, and the Engineered Environment
Pages: 282
Publication Date: 20 October 2025
Audience:
College/higher education
,
Professional and scholarly
,
Primary
,
Undergraduate
Format: Hardback
Publisher's Status: Forthcoming
0. Front Matter. Section I. Bridging the gap between renewable and non-renewable energy systems. 1. Management of microbiological challenges in the energy industry. 2. Recycle, Renew, Reuse, – How can we apply current microbiological monitoring knowledge and methodologies to emerging industries. 3. Microbial communities and their impacts on the energy industry. Section II. Microbiological communities and their impacts. 4. High temperature and high salinity effects on anaerobic microbial communities and metabolic activities in crude oil reservoirs. 5. Microbiologically influenced corrosion: An insight on the roles of iron oxidizing bacteria and their corrosive activity in the oil industry. 6. Frontiers and advances in marine hydrocarbon biodegradation. Section III. Management of microbiological challenges in non-renewable energy systems. 7. Survey Indicates Potential Microbial Risks in Topside Processing Facilities: a Case Study. 8. Comprehensive microbial assessment of scraped samples from crude oil pipelines. 9. Effects of Produced Water for Re-injection (PWRI) on Reservoir Souring and Microbiological Community Dynamics. 10. Weld microstructure and microbial corrosion. 11. A tale of two bugs: Can MIC biofilms develop biocide tolerance?. 12. Production Chemistry Adulteration: A Hidden Factor Amplifying the Environmental Footprint in Oil and Gas Applications.
Susmitha P. Kotu is a chemical engineer, scientist, and founder of Dr Kotu Insights, bringing extensive research and industry expertise to the management of microbiological challenges across diverse sectors, including oil and gas, chemical, aviation, wind, and hydrogen industries. Torben Lund Skovhus is docent and project manager at VIA University College in the Research Center for Built Environment, Climate and Water Technology, Horsens, Denmark. He is the principal owner of Skovhus BioConsult (SBC). Kenneth Wunch, PhD, holds the position of Energy Technology Fellow at Lanxess in Houston responsible for business development, technology transfer, and shaping the innovation pipeline and strategy for global oil and gas applications.