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200 00$aIntegrative oncology$b[electronic resource] /$fedited by Donald I. Abrams, Andrew T. Weil
210   $aOxford ;$aNew York $cOxford University Press$d2009
215   $a1 online resource (1028 p.)
225 1 $aWeil integrative medicine library
300   $aDescription based upon print version of record.
311   $a0-19-530944-8 
320   $aIncludes bibliographical references and index.
327   $aCover Page; Title Page; Copyright Page; Dedication; PREFACE TO THE SERIES; PREFACE; CONTENTS; Contributors; 1. Why Integrative Oncology?; 2. An Integrative Approach to Cancer Prevention; 3. Molecular Targets of Botanicals Used for Chemoprevention; 4. Diet and Cancer: Epidemiology and Prevention; 5. Nutritional Interventions in Cancer; 6. Botanical Medicine in Integrative Oncology; 7. Cannabinoids and Cancer; 8. CAM: Chemo Interactions-What Is Known?; 9. The Antioxidant Debate; 10. Physical Activity and Cancer; 11. Massage Therapy; 12. Mind-Body Medicine in Integrative Cancer Care
327   $a13. Traditional and Modern Chinese Medicine14. Cancer: An Ayurvedic Perspective; 15. Homeopathy for Primary and Adjunctive Cancer Therapy; 16. Anthroposophic Medicine, Integrative Oncology, and Mistletoe Therapy of Cancer; 17. Energy Medicine and Cancer; 18. Tending the Spirit in Cancer; 19. The Role of Spirituality; 20. Integrative Medicine and Breast Cancer; 21. Prostate Cancer: An Integrative Approach; 22. Integrative Medicine in Colorectal Cancer; 23. Radiation Therapy and Integrative Oncology; 24. Integrative Medicine in Symptom Management and Palliative Care
327   $a25. CAM Therapies to Mitigate the Toxicities of Cancer Therapy26. Alternative Therapies as Primary Treatments for Cancer; 27. CAM and Cancer Research Methodology; 28. Truth and Truth Telling in Integrative Oncology; 29. A Patient's Perspective; 30. Integrative Oncology: The Future; Index; Footnotes; Ch01fn; Ch06fn; Ch14fn; Ch15fn; Ch16fn
330   $aPeople facing a new diagnosis of cancer are unsettled by their prognosis and treatment options, and they often seek to integrate complementary modalities into their conventional care plan, hoping to improve their chances of cure and decrease side effects. Many do so without informing their oncologist, for fear of alienating them or not convinced that their physician would be informed about complementary therapies. Integrative Oncology, the first volume in the Weil Integrative Medicine Library, provides a wealth of information for both practitioners and consumers on the emerging field of integr
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200 10$aEnergy storage in power systems /$fFrancisco Diaz-Gonzalez, Andreas Sumper, Oriol Gomis-Bellmunt
210  1$aChichester, [England] :$cWiley,$d2016.
210  4$dİ2016
215   $a1 online resource (311 p.)
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320   $aIncludes bibliographical references and index.
327   $aENERGY STORAGE IN POWER SYSTEMS; Contents; Foreword; Preface; 1 An Introduction to Modern Power Systems; 1.1 Introduction; 1.2 The Smart Grid Architecture Model; 1.3 The Electric Power System; 1.3.1 The Structure of the Power System; 1.3.2 The Fundamentals of Power System Analysis; 1.4 Energy Management Systems; 1.5 Computational Techniques; 1.5.1 Optimization Methods and Optimal Power Flow; 1.5.2 Security-Constrained Optimal Power Flow; 1.6 Microgrids; 1.7 The Regulation of the Electricity System and the Electrical Markets; 1.8 Exercise: A Load-Flow Algorithm with Gauss-Seidel
327   $a2 Generating Systems Based on Renewable Power 2.1 Renewable Power Systems; 2.1.1 Wind Power Systems; 2.1.2 Solar Photovoltaic Power Systems; 2.2 Renewable Power Generation Technologies; 2.2.1 Renewable Power Generation Technology Based on Rotative Electrical Generators; 2.2.2 Wind Turbine Technology; 2.2.3 Photovoltaic Power Plants; 2.3 Grid Code Requirements; 2.4 Conclusions; 3 Frequency Support Grid Code Requirements for Wind Power Plants; 3.1 A Review of European Grid Codes Regarding Participation in Frequency Control; 3.1.1 Nomenclature and the Definition of Power Reserves
327   $a3.1.2 The Deployment Sequence of Power Reserves for Frequency Control 3.1.3 A Detailed View on the Requirements for WPPs in the Irish Grid Code; 3.1.4 A Detailed View on the Requirements for WPPs in the UK Grid Code; 3.1.5 Future Trends Regarding the Provision of Primary Reserves and Synthetic Inertia by WPPs; 3.2 Participation Methods for WPPs with Regard to Primary Frequency Control and Synthetic Inertia; 3.2.1 Deloading Methods of Wind Turbines for Primary Frequency Control; 3.2.2 Synthetic Inertia; 3.3 Conclusions; 4 Energy Storage Technologies; 4.1 Introduction
327   $a4.2 The Description of the Technology 4.2.1 Pumped Hydroelectric Storage (PHS); 4.2.2 Compressed Air Energy Storage (CAES); 4.2.3 Conventional Batteries and Flow Batteries; 4.2.4 The Hydrogen-Based Energy Storage System (HESS); 4.2.5 The Flywheel Energy Storage System (FESS); 4.2.6 Superconducting Magnetic Energy Storage (SMES); 4.2.7 The Supercapacitor Energy Storage System; 4.2.8 Notes on Other Energy Storage Systems; 4.3 Power Conversion Systems for Electrical Storage; 4.3.1 Application: Electric Power Systems; 4.3.2 Other Applications I: The Field of Electromobility
327   $a4.3.3 Other Applications II: Buildings 4.3.4 The Battery Management System (BMS); 4.4 Conclusions; 5 Cost Models and Economic Analysis; 5.1 Introduction; 5.2 A Cost Model for Storage Technologies; 5.2.1 The Capital Costs; 5.2.2 Operating and Maintenance Costs; 5.2.3 Replacement Costs; 5.2.4 End-of-Life Costs; 5.2.5 The Synthesis of a Cost Model; 5.3 An Example of an Application; 5.3.1 The Collection of Data for Evaluation of the Cost Model; 5.3.2 Analysis of the Results; 5.4 Conclusions; 6 Modeling, Control, and Simulation; 6.1 Introduction
327   $a6.2 Modeling of Storage Technologies: A General Approach Orientated to Simulation Objectives
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