Marine biofouling can be defined as the undesirable accumulation of microorganisms, algae and animals on structures submerged in seawater. From the dawn of navigation, marine biofouling has been a major problem for shipping in such areas as reduced speed, higher fuel consumption and increased corrosion. It also affects industries using off-shore structures such as oil and gas production and aquaculture. Growing concerns about the environmental impact of antifouling coatings has led to major new research to develop more environmentally-friendly alternatives. Advances in marine antifouling…mehr
Marine biofouling can be defined as the undesirable accumulation of microorganisms, algae and animals on structures submerged in seawater. From the dawn of navigation, marine biofouling has been a major problem for shipping in such areas as reduced speed, higher fuel consumption and increased corrosion. It also affects industries using off-shore structures such as oil and gas production and aquaculture. Growing concerns about the environmental impact of antifouling coatings has led to major new research to develop more environmentally-friendly alternatives. Advances in marine antifouling coatings and technologies summaries this wealth of research and its practical implications.This book is divided into four sub-sections which discuss: marine fouling organisms and their impact, testing and development of antifouling coatings, developments in chemically-active marine antifouling technologies, and new surface approaches to the control of marine biofouling. It provides an authoritative overview of the recent advances in understanding the biology of fouling organisms, the latest developments on antifouling screening techniques both in the field and in the laboratory, research on safer active compounds and the progress on nontoxic coatings with tailor-made surface properties.With its distinguished editors and international team of contributors, Advances in marine antifouling coatings and technologies is a standard reference for manufacturers of marine antifouling solutions, the shipping industry, oil and gas producers, aquaculture and other industries using offshore structures, and academics researching this important area.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
Produktdetails
Woodhead Publishing Series in Metals and Surface Engineering
Dr. Claire Hellio is Senior Lecturer in the School of Biological Sciences at the University of Portsmouth, UK. Dr. Diego M. Yebra works for Pinturas Hempel S.A., Spain, a paint and protective coatings manufacturer. Both have international reputations for their research on marine antifouling coatings and technologies.
Inhaltsangabe
Part 1 Marine fouling organisms and their impact: The battle against marine biofouling: A historical review; Surface colonisation by marine organisms and its impact on antifouling research; Algae as marine fouling organisms: Adhesion damage and prevention; Bacterial adhesion and marine fouling; Understanding the biofouling of off-shore and deep-sea structures; The effects of marine biofouling on the performance of ocean-going vessels; The impact and control of biofouling in marine finfish aquaculture; Expected effect of climate change on fouling communities and its impact on antifouling research; Legislation affecting antifouling products. Part 2 Testing and development of antifouling coatings: Developing new marine antifouling substances: Learning from the pharmaceutical industry; Laboratory bioassays for screening marine antifouling compounds; Key issues in the formulation of marine antifouling paints; Modelling the design and optimization of chemically active marine antifouling coatings; High throughput methods for the design of fouling control coatings; Ageing tests and long-term performance of marine antifouling coatings; Testing the impact of biofilms on the performance of marine antifouling coatings. Part 3 Chemically active marine antifouling technologies: Tin-free self-polishing marine antifouling coatings; The use of copper as a biocide in marine antifouling paints; The use of broad-spectrum organic biocides in marine antifouling paints; Organic alternatives to copper in the control of marine biofouling; Natural marine products with antifouling activities; Enzyme-based solutions for marine antifouling coatings. Part 4 Surface approaches to the control of marine biofouling: Advanced nanostructured surfaces for the control of marine biofouling: The AMBIO project; Surface modification approaches to control marine biofouling; Fouling control coatings using low surface energy, foul release technology; Non-silicon biocide-free antifouling solutions; Trends in marine biofouling research.
Part 1 Marine fouling organisms and their impact: The battle against marine biofouling: A historical review; Surface colonisation by marine organisms and its impact on antifouling research; Algae as marine fouling organisms: Adhesion damage and prevention; Bacterial adhesion and marine fouling; Understanding the biofouling of off-shore and deep-sea structures; The effects of marine biofouling on the performance of ocean-going vessels; The impact and control of biofouling in marine finfish aquaculture; Expected effect of climate change on fouling communities and its impact on antifouling research; Legislation affecting antifouling products. Part 2 Testing and development of antifouling coatings: Developing new marine antifouling substances: Learning from the pharmaceutical industry; Laboratory bioassays for screening marine antifouling compounds; Key issues in the formulation of marine antifouling paints; Modelling the design and optimization of chemically active marine antifouling coatings; High throughput methods for the design of fouling control coatings; Ageing tests and long-term performance of marine antifouling coatings; Testing the impact of biofilms on the performance of marine antifouling coatings. Part 3 Chemically active marine antifouling technologies: Tin-free self-polishing marine antifouling coatings; The use of copper as a biocide in marine antifouling paints; The use of broad-spectrum organic biocides in marine antifouling paints; Organic alternatives to copper in the control of marine biofouling; Natural marine products with antifouling activities; Enzyme-based solutions for marine antifouling coatings. Part 4 Surface approaches to the control of marine biofouling: Advanced nanostructured surfaces for the control of marine biofouling: The AMBIO project; Surface modification approaches to control marine biofouling; Fouling control coatings using low surface energy, foul release technology; Non-silicon biocide-free antifouling solutions; Trends in marine biofouling research.
Rezensionen
"This book provides a comprehensive summary of the current state-of-the-art and should be essential reading for anyone concerned with sustainable operation of equipment in the marine environment." --Materials World
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