This handbook was designed for small and medium sized enterprises (SMEs) to help them with their phase out efforts under the Montreal Protocol. It provides ways to eliminate or at least substantially reduce ODS use through illustration of case studies of specific SMEs who have succeeded using alternatives. It presents both technical and policy options that an SME can consider and eventually adopt for the long term, including resources and contacts that they can easily get in touch with. This publication is ideal for enterprises involved in refrigeration and air conditioning, foams, aerosols and solvents.
In the 1970s the world became aware of a huge danger: the destruction of the stratospheric ozone layer by CFCs escaping into the atmosphere, and the damage this could do to human health and the food chain. So great was the threat that by 1987 the UN had succeeded in coordinating an international treaty to phase out emissions; which, over the following 15 years has been implemented. It has been hailed as an outstanding success. It needed the participation of all the parties: governments, industry, scientists, campaigners, NGOs and the media, and is a model for future treaties. This volume provides the authoritative and comprehensive history of the whole process from the earliest warning signs to the present. It is an invaluable record for all those involved and a necessary reference for future negotiations to a wide range of scholars, students and professionals.
Homer speaks of lightning bolts after which ‘a grim reek of sulphur bursts forth’ and the air was ‘?lled with reeking brimstone’. (Homer 3000 BC). The odour was not actually the smell of sulphur dioxide associated with burning sulphur, but rather was the ?rst recorded detection of the presence of another strong odour, that of ozone (O ) in Earth’s atmosphere. These molecules were formed by the passage of 3 lightning through the air, created by splitting the abundant molecular oxygen (O ) 2 molecules into two, followed by the addition of each of the free O atoms to another O to form the triatomic product. In fact, most of the ozone molecules present 2 in the atmosphere at any time have been made by this same two-step splitti- plus-combination process, although the initiating cause usually begins with very energetic solar ultraviolet (UV) radiation rather than lightning. Many thousands of years later, the modern history of ozone began with its synthesis in the laboratory of H. F. Schonbein in 1840 (Nolte 1999), although the positive con?rmation of its three-oxygen atom chemical formula came along sometime later. Scienti?c interest in high-altitude stratospheric ozone dates back to 1881 when Hartley measured the spectrum of ozone in the laboratory and found that its ability to absorb UV light extended only to 293nm at the long wavelength end (Hartley 1881a).
'Imagine the pride of earning the Nobel Prize for warning that CFCs were destroying the ozone layer. Then imagine that citizens, policymakers, and business executives heeded the warning and transformed markets to protect the earth. This book is the story of why we can all be optimistic about the future if we are willing to be brave and dedicated world citizens.' MARIO MOLINA, Nobel Laureate in Chemistry and Professor, University of California This book tells how the Montreal Protocol, the most successful global environmental agreement so far, stimulated the development and worldwide transfer of technologies to protect the ozone layer.Technology transfer is the crux of the 230 international environmental treaties and is essential to fighting climate change. While debate rages about obstacles to technology transfer, until now there has been no comprehensive assessment of what actually works to remove the obstacles. The authors, leaders in the field, assess over 1000 technology transfer projects funded under the Montreal Protocol‘s Multilateral Fund and the Global Environment Facility, and identify lessons that can be applied to technology transfer for climate change.
Protecting the Ozone Layer: Lessons, Models, and Prospects Since the mid-1980s, the international community has adopted several significant instruments designed to reverse the degradation of the life support systems of the planet. None of these international agreements have been as successful as the 1987 Montreal Protocol in creating the incentives and mechanisms for protecting the ozone layer. Through the efforts of industry, government and public interest groups, national commitments and achievements have progressed further and faster than expected, while the list of controlled chemicals has expanded. Now in its second decade, the Protocol enters a crucial phase of its implementation. Protecting the Ozone Layer: Lessons, Models, and Prospects presents a wealth of information about the scientific, legal-political, and technological hurdles that we will have to overcome if humanity is to reverse its self-destructive course. The technology section in particular should appeal to industries affected by ozone layer protection as well as those affected by climate protection, since this is the first ozone publication featuring insights by the companies that spearheaded the major technological breakthroughs. Every initiative to improve the environmental performance of industry has been accompanied by pronouncements of economic devastation, from acid rain to auto emissions standards, from auto mileage improvements to the protection of the ozone layer. Each new initiative brought claims from industry that this situation was different, yet none of their predictions have come true. At a time when industry fights efforts to protect the environment, the ozone experience shows both how technical breakthroughs have enabled environmental protection policies to work in the past and how they will work again in the future. Protecting the Ozone Layer: Lessons, Models, and Prospects is the product of a Colloquium that was organized in September 1997 to celebrate the tenth anniversary of the Montreal Protocol. Contributions have been gathered from researchers and practitioners in the field, including some of the very same scientists whose work awakened the international community to the seriousness of the danger that humanity now faces. Other contributors include the scholars and diplomats who wrote and negotiated the text of the Protocol and its amendments, and the key figures who have been influential in convincing industry to support the process.
Provides step-by-step guidance on fulfilling the annual reporting requirements under the latest amendments to the 1987 Montreal Protocol on ozone depleting substances (ODS). Data are intended particularly as a tool for securing assistance by developing nations, as well as aiding decision makers in all participant countries devise realistic control/phase-out strategies. Includes the required forms; approved destruction processes; a summary chart of the ozone-depleting potential of the major ODS; information on the status of Protocol ratification and identification of non-parties, and data reporting discrepancies. Annotation copyrighted by Book News, Inc., Portland, OR.