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200 00$aMaritime boundary disputes, settlement processes, and the law of the sea$b[electronic resource] /$fedited by Jon M. Van Dyke and Seoung-Yong Hong
210   $aLeiden ;$aBoston $cMartinus Nijhoff Publishers$dc2009
215   $a1 online resource (324 p.)
225 1 $aPublications on ocean development ;$v65
300   $aDescription based upon print version of record.
311   $a90-04-17343-9 
320   $aIncludes bibliographical references and index.
327   $tPreliminary Materials /$rSeoung-Yong Hong and Jon M. Van Dyke --$tChapter I. Climate Change, Sea Level Rise And The Coming Uncertainty In Oceanic Boundaries: A Proposal To Avoid Conflict /$rDavid D. Caron --$tChapter II. The Trouble With Islands: The Definition And Role Of Islands And Rocks In Maritime Boundary Delimitation /$rClive Schofield --$tChapter III. Disputes Over Islands And Maritime Boundaries In East Asia /$rJon M. Van Dyke --$tChapter IV. Sino-Japanese Jurisdictional Delimitation In East China Sea: Approaches To Dispute Settlement /$rJi Guoxing --$tChapter V. Some Thoughts On Maritime Boundary Delimitation /$rMasahiro Miyoshi --$tChapter VI. Intertemporal Law, Recent Judgments And Territorial Disputes In Asia /$rSeokwoo Lee --$tChapter VII. Some Legal Aspects Of Territorial Disputes Over Islands /$rKentaro Serita --$tChapter VIII. Okinotorishima: A Rock Or An Island? Recent Maritime Boundary Controversy Between Japan And Taiwan/China /$rYann-Huei Song --$tChapter IX. Canada-U.S. International Ocean Law Relations In The North Pacific: Disputes, Agreements And Cooperation /$rTed L. Mcdorman --$tChapter X. Maritime Boundary Delimitation And Cooperative Management Of Transboundary Hydrocarbons In The Ultra-Deepwaters Of The Gulf Of Mexico /$rRichard J. Mclaughlin --$tChapter XI. The Law Of The Sea Convention And The Antarctic Treaty System: Constraints Or Complementarity? /$rMarcus Haward --$tChapter XII. The Contribution Of The International Tribunal For The Law Of The Sea To International Law /$rHelmut Tuerk --$tChapter XIII. The Tomimaru Case: Confiscation And Prompt Release /$rBernard H. Oxman --$tIndex /$rSeoung-Yong Hong and Jon M. Van Dyke --$tPublications On Ocean Development /$rSeoung-Yong Hong and Jon M. Van Dyke.
330   $aA surprising number of maritime boundaries remain unresolved, and a range of reasons can be cited to explain why the process of delimiting these boundaries has been so slow. This volume addresses and analyzes some of these reasons, focusing on some of the volatile disputes in Northeast Asia and in North America. Scholars from Asia, the United States, and Europe grapple with festering controversies and apply insights gained from resolved disputes to those that remain unresolved. Islands continue to haunt this process, and the way in which they should affect maritime boundaries remains in dispute. The United States has a number of disputed boundaries with its neighbors to the north and south, and these are examined. Antarctica is a concern of all nations, and the regimes governing the Southern Ocean surrounding Antarctica are analyzed. The International Tribunal for the Law of the Sea was created to allow countries to resolve their disputes peacefully, and two chapters look at how this new court is operating. The impact of sea-level rise on maritime boundaries is given special attention in the opening chapter. This volume presents a wonderful collection of provocative chapters written by the top scholars in the field of International Ocean Law. It should help scholars, students, and decision makers to understand the current state of this field and to move some of the difficult disputes toward resolution.
410  0$aPublications on ocean development ;$v65.
606   $aTerritorial waters
606   $aEconomic zones (Law of the sea)
606   $aBoundary disputes
606   $aContinental shelf
606   $aLaw of the sea
608   $aElectronic books.
615  0$aTerritorial waters.
615  0$aEconomic zones (Law of the sea)
615  0$aBoundary disputes.
615  0$aContinental shelf.
615  0$aLaw of the sea.
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200 00$aHandbook of process integration (PI) $eminimisation of energy and water use, waste and emissions /$fedited by Jiri J. Klemes
205   $a1st edition
210  1$aCambridge :$cWoodhead Publishing,$d2013.
215   $a1 online resource (xlviii, 1151 pages) $cillustrations
225 1 $aWoodhead Publishing series in energy,$x2044-9364 ;$vnumber 61
300   $a"ISSN: 2044-9364."
311   $a0-85709-593-5 
320   $aIncludes bibliographical references and index.
327   $aCover; Handbook of Process Integration (PI): Minimisation of Energy and Water Use, Waste and Emissions; Copyright; Contents; Contributor contact details; Woodhead Publishing Series in Energy; Foreword; Part I Overview of Process Integration and Analysis; 1 Process Integration (PI): An Introduction; 1.1 Introduction; 1.2 A Short History of Process Integration (PI); 1.3 Current Centres of Expertise in PI; 1.4 Sources of Further Information; 1.5 References; 2 Basic Process Integration Terminology; 2.1 Introduction; 2.2 Process Integration Terms: The Importance of Context
327   $a2.3 Fundamental Process Integration Terms 2.4 Conventions: Symbols for Heaters and Coolers; 2.5 References; 2.6 Appendix: Nomenclature; 3 Process Design, Integration and Optimisation: Advantages, Challenges and Drivers; 3.1 Introduction; 3.2 Grassroots Design versus Retrofit Design; 3.3 Process Integration; 3.4 Integration versus Intensification; 3.5 Process Integration Techniques; 3.6 Optimisation of Integrated Processes; 3.7 Controllability of Integrated Processes; 3.8 Process Integration under Disturbances; 3.9 References; Part II Heat Integration
327   $a4 Heat Integration: Targets and Heat Exchanger Network Design 4.1 Introduction; 4.2 Stages in the Design of Heat Recovery Systems; 4.3 Data Extraction; 4.4 Performance Targets; 4.5 Process Modifications; 4.6 Network Design; 4.7 Design Evolution; 4.8 Conclusion; 4.9 Sources of Further Information; 4.10 References; 5 Application of Process Integration to the Synthesis of Heat and Power Utility Systems Including Combined Heat and Power (CHP) and Industrial Heat Pumps; 5.1 Introduction; 5.2 Targeting Utility Loads and Temperature Levels
327   $a5.3 Integration of Advanced Energy Conversion Cycles as Process Utilities: Basic Concepts 5.4 Process Integration of Heat Engines; 5.5 Process Integration of Heat Pumps; 5.6 Sources of Further Information and Advice; 5.7 References; 6 Total Site Methodology; 6.1 Introduction; 6.2 Data Extraction for Total Sites; 6.3 Total Site Profiles and Total Site Composite Curves; 6.4 Site Utility Grand Composite Curve (SUGCC); 6.5 Conclusion; 6.6 Sources of Further Information; 6.7 References; 7 Extending Total Site Methodology to Address Varying Energy Supply and Demand; 7.1 Introduction
327   $a7.2 Characteristics of Energy Supply and Demand 7.3 Thermal Energy Storage and Integrated Architecture; 7.4 Terminology for Process Streams and Utilities; 7.5 Identification of Time Slices; 7.6 Heat Cascades for the Evaluation of Total Site Targets When There Is Variation in Supply and Demand; 7.7 Case Study: Integration of Solar Thermal Energy into a Locally Integrated Energy Sector (LIES); 7.8 Conclusion; 7.9 Sources of Further Information; 7.10 References; 7.11 Appendix: Nomenclature; 8 Analysis and Design of Heat Recovery Systems for Grassroots and Retrofit Situations; 8.1 Introduction
327   $a8.2 Extended Procedures for Grassroots Analysis
330   $aSince its first development in the 1970's, Process Integration (PI) has become an important methodology in achieving more energy efficient processes. This pioneering handbook brings together the leading scientists and researchers currently contributing to PI development, pooling their expertise and specialist knowledge to provide readers with a comprehensive and up-to-date guide to the latest PI research and applications. After an introduction to the principles of PI, the book reviews a wide range of process design and integration topics ranging from heat and utility systems to water...
410  0$aWoodhead Publishing in energy ;$vnumber 61.
606   $aPower (Mechanics)
606   $aEnergy conservation
606   $aHeat engineering
606   $aWater efficiency
606   $aProduction engineering
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615  0$aEnergy conservation.
615  0$aHeat engineering.
615  0$aWater efficiency.
615  0$aProduction engineering.
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