Ulteriori informazioni
Informationen zum Autor Michael Thompson graduated from the University of Cambridge with first class honours in mechanical sciences in 1958. Further degrees include ScD (Cambridge) and honorary DSc (University of Aberdeen). He spent a year as a Fulbright researcher in aeronautics and astronautics at Stanford before joining University College London (UCL) in 1964. He was appointed a professor in 1977, and subsequently Director of the Centre for Nonlinear Dynamics. Professor Thompson was elected a Fellow of the Royal Society in 1985 and has served on the Council of the Society. He has been honoured with the OMAE Award (American Society of Mechanical Engineers, 1985), the Alfred Ewing Medal (Institution of Civil Engineers, 1992), and a Gold Medal for lifetime contributions to mathematics (IMA, 2004). He is currently Emeritus Professor at UCL, Honorary Fellow at DAMTP in Cambridge, and sixth century Professor (part-time) in Theoretical and Applied Dynamics at Aberdeen. Klappentext The first critical appraisal of the geo-scale engineering interventions proposed to counter the devastation of run-away global warming. Zusammenfassung The first book to present a critical appraisal of the geo-scale engineering interventions proposed as potential measures to counter the devastation of run-away global warming. Presenting the technical details, and advantages and pitfalls of the various schemes, this is essential reading for researchers and policy makers at Copenhagen and beyond. Inhaltsverzeichnis Preface Brian Launder and J. Michael T. Thompson; Part I. Scene Setting: 1. Geo-engineering: could we or should we make it work? Stephen H. Schneider; 2. Reframing the climate change challenge in light of post-2000 emission trends Kevin Anderson and Alice Bows; 3. Predicting climate tipping points J. Michael T. Thompson and Jan Sieber; 4. A geo-physiologist's thoughts on geo-engineering James Lovelock; 5. Coping with carbon: a near term strategy to limit carbon dioxide emissions from power stations Paul Breeze; Part II. Carbon Dioxide Reduction: 6. Capturing CO2 from the atmosphere David W. Keith, Kenton Heidel and Robert Cherry; 7. Carbon neutral hydrocarbons Frank S. Zeman and David W. Keith; 8. Ocean fertilisation: a potential means of geo-engineering? R. S. Lampitt, E. P. Achterberg, T. R. Anderson, J. A. Hughes, M. D. Iglesias-Rodriguez, B. A. Kelly-Gerreyn, M. Lucas, E. E. Popova, R. Sanders, J. G. Shepherd, D. Smythe-Wright and A. Yool; 9. The next generation of iron fertilisation experiments in the Southern Ocean V. Smetacek, and S. W. A. Naqvi; Part III. Solar Radiation Management: 10. Global temperature stabilization via controlled albedo enhancement of low-level maritime clouds John Latham, Philip J. Rasch, Chih-Chieh (Jack) Chen, Laura Kettles, Alan Gadian, Andrew Gettleman, Hugh Morrison, Keith Bower and Tom Choularton; 11. Sea-going hardware for the cloud albedo method of reversing global warming Stephen Salter, Graham Sortino and John Latham; 12. An overview of geo-engineering of climate using stratospheric sulfate aerosols Philip J. Rasch, Simone Tilmes, Richard P. Turco, Alan Robock, Luke Oman, Chih-Chieh (Jack) Chen, Georgiy L. Stenchikov and Rolando R. Garcia; 13. Global and Arctic climate engineering: numerical model studies Ken Caldeira and Lowell Wood; Index....
