Note: Intro -- Preface -- Contents -- Contributors -- Part I : Global Problems and Mountain Regions -- Chapter 1: Scientific Research Basis for Sustainable Development of the Mountain Regions: Main Concepts and Basic Theories -- 1.1 Introduction -- 1.2 Research Base for Sustainable Development of Mountain Regions -- 1.3 "Pressure, State, Response" (PSR) and DPSIR Models Require Trans-Disciplinarity -- 1.4 Conclusions -- References -- Chapter 2: Solar Activity, Climate Change, and Natural Disasters in Mountain Regions -- 2.1 Background -- 2.2 Heliocentric Hypothesis on Forest Fires -- 2.3 Conclusion -- References -- Chapter 3: Mass Movement Processes Under Changing Climatic and Socioeconomic Conditions -- 3.1 Introduction -- 3.2 The Matrix of Mass Movement Processes and Triggering Parameters -- 3.2.1 Basics -- 3.2.2 The Event of 2005 (Communities of Gasen and Haslau, Austria) -- 3.3 Climate Change: Facts and Assumptions -- 3.4 Socioeconomic Development and Rising Disadvantages -- 3.5 Working with Scenarios: An Approach -- 3.6 Conclusions -- References -- Part II : Nature Resources and Land Use in Mountain Regions -- Chapter 4: Mountains and Mountain Regions in Bulgaria -- 4.1 Introduction -- 4.2 Arguments -- 4.3 Criteria -- 4.4 Results -- 4.5 Conclusion -- References -- Chapter 5: The Nature Potential of Mountains in Bulgaria and Its Sustainable Use -- 5.1 Former Studies on the Natural Potential of the Mountains in Bulgaria -- 5.2 Assessment of Nature Potential by Components for Various Economic Purposes -- 5.2.1 Assessment of Relief -- 5.2.2 Climate Assessment -- 5.2.3 Assessment of Water -- 5.2.4 Assessment of the Soils, Vegetation, and Animal World -- 5.2.5 Complex Assessment of Mountain Landscapes -- 5.3 Assessment of the Possibilities for Sustainable Utilization of the Natural Potential of Mountains -- 5.4 Conclusion -- References. , Chapter 6: Morphometry and Land Use on High Mountains in the Republic of Macedonia -- 6.1 Introduction -- 6.2 Methodology -- 6.3 Basic Morphometric Characteristics -- 6.4 Basic Land Use Characteristics -- 6.4.1 Hypsometry and Land Use -- 6.4.2 Slopes and Land Use -- 6.4.3 Aspects and Land Use -- 6.5 Conclusion -- References -- Chapter 7: Usage of the Mountain Areas in the Republic of Macedonia -- 7.1 Introduction -- 7.2 Methodology of Work and Data Sources -- 7.3 Population as a Precondition for Area Usage -- 7.4 Size of Villages According to Population Number -- 7.5 Usage of the Areas of Mountain Villages -- 7.6 Conclusion -- References -- Chapter 8: Physical Geographic Characteristics and Sustainable Development of the Mountain Area in Montenegro -- 8.1 Introduction -- 8.2 Borders and Division of the Mountain Terrain -- 8.3 Geologic Background -- 8.4 Climate Conditions -- 8.5 Hydrologic Characteristics -- 8.6 Geomorphological Characteristics -- 8.7 Geoheritage and Environmental Protection -- 8.8 Potentials and Limitations for the Application of the Concept of Sustainable Development -- 8.9 Conclusion -- References -- Chapter 9: Climate Variability, Soil, and Forest Ecosystem Diversity of the Dinaric Mountains -- 9.1 Introduction -- 9.2 Climate Characteristics and Observed Climate Change in Dinarides -- 9.3 Main Soil-Forming Factors -- 9.4 Characteristic Soil Types -- 9.5 Forest Vegetation of Dinarides -- 9.6 Climate Modeling and Future Climate Changes in Croatia -- 9.7 Conclusions -- References -- Chapter 10: Assessment of Greek Forests Protection and Management -- 10.1 Introduction: Forest Ecosystems in Greece -- 10.1.1 The General Context -- 10.1.2 Greek Diversity -- 10.2 Forests in Mountain Regions of Greece -- 10.2.1 Morphology and Diversity -- 10.2.2 Species and Formations of Forests in Mountainous Regions of Greece. , 10.3 Direct and Indirect Benefits of Forests -- 10.3.1 Direct Benefits -- 10.3.2 Indirect Benefits -- 10.4 Sustainable Forest Management -- 10.4.1 A Definition -- 10.4.2 The Global View -- 10.4.3 The European View -- 10.4.4 Greek Management -- 10.4.5 Regional Issues -- 10.4.6 The Future Approach -- 10.5 Threats and Risks of the Greek Forests -- 10.6 Restoration of Greek Forest Ecosystems -- References -- Chapter 11: Mapping Forest Fragmentation Based on Morphological Image Analysis of Mountain Regions in Bulgaria and Slovakia -- 11.1 Introduction -- 11.2 Materials and Methods -- 11.2.1 Study Areas -- 11.2.2 Data -- 11.2.3 Morphological Image Analysis -- 11.3 Results and Discussion -- 11.4 Conclusion -- References -- Chapter 12: Evaluation of the Avalanche Danger in Northwest Rila Mountain -- 12.1 Introduction -- 12.2 Avalanche and Avalanche Danger -- 12.3 Conclusions -- References -- Chapter 13: Management of Snow Avalanche Risk in the Ski Areas of the Southern Carpathians-Romanian Carpathians -- 13.1 Introduction -- 13.2 General Facts of the Studied Area -- 13.3 Terrain Factors and Climatic Variables Analysis as Favorable for Ski Activities -- 13.3.1 Terrain Factors -- 13.3.2 Climatic Variables -- 13.4 Management of Snow Avalanche Risk -- 13.5 Conclusions -- References -- Chapter 14: Landscape Structure and Ecosystem Services of Etropole Municipality -- 14.1 Introduction -- 14.2 Study Area -- 14.3 Materials and Methods -- 14.4 Results -- 14.5 Conclusion -- References -- Part III : Social, Economic and Regional Problems of Mountain Regions -- Chapter 15: Demographic Potential and Problems of the Settlements Network in the Mountains of Bulgaria -- References -- Chapter 16: Demographic Limits to Sustainable Development of Mountain Regions in Serbia -- 16.1 Introduction -- 16.2 The Analysis -- 16.3 The Future -- References. , Chapter 17: Changes in the Ethnic and Demographic Profile of the Population in Eastern Stara Planina Region -- 17.1 General Notes -- 17.2 The Turkish Ethnic Group -- 17.3 The Bulgarian and the Roma Ethnic Groups -- 17.4 Classification and Grouping -- References -- Chapter 18: Small Urban Centers in the Alps and Their Development Issues -- 18.1 Introduction -- 18.2 Basic Features of Small Urban Centers in the Alps -- 18.2.1 Population Growth -- 18.2.2 Aging of the Population -- 18.2.3 Working Population -- 18.2.4 Jobs -- 18.2.5 Tourism -- 18.2.6 Transport Accessibility and Mobility -- 18.3 Survey on Contemporary Development Issues -- 18.4 Discussion -- 18.5 Conclusion -- References -- Chapter 19: Impact of Macroeconomic Changes and Property Rights on Forest Degradation, Land Use, and Environmental Situation in Albania -- 19.1 Historical Land Tenure in Albania -- 19.1.1 Privatization of Agricultural Land -- 19.2 Main Land Tenure Issues -- 19.2.1 Land Fragmentation -- 19.3 Effects of Land Reforms on Land Use in Albania After 1991 -- 19.3.1 Land Cover -- 19.3.2 Forest Degradation -- 19.3.3 Pasture Degradation -- 19.4 Conclusions -- References -- Chapter 20: Sustainable Development in the Eastern Black Sea Mountains: Present State and Perspectives -- 20.1 Introduction -- 20.2 The Eastern Black Sea Region -- 20.2.1 Settlement System -- 20.2.2 The Economy -- 20.3 The Eastern Black Sea Regional Development Plan (DOKAP) and Sustainable Mountain Development -- 20.3.1 Legislative Basis -- 20.3.2 Design -- 20.3.3 Objectives, Rationale, and General Description -- 20.3.4 Financing -- 20.3.5 Administration of the Plan -- 20.4 The Project Achievements -- 20.4.1 Accessibility and Mountain Development -- 20.4.2 Tourism and Mountain Development -- 20.4.3 The Kaçkar Mountains National Park: A Model for Sustainable Mountain Development -- 20.5 Conclusion -- References. , Chapter 21: Regional Differences and Regional Planning of Economic Activities in Bosnia and Herzegovina -- 21.1 Introduction -- 21.2 Methodology of Research -- 21.3 Socioeconomic Transformation and Regional Development of Bosnia and Herzegovina Since the Mid-­Twentieth Century -- 21.4 Modern Regional Development of Bosnia and Herzgovina -- 21.5 Conclusion -- References -- Journal Article -- Book -- Part IV : Nature Protection, Conservation and Monitoring -- Chapter 22: Applying Integrated Nature Conservation Management: Using Visitor Management and Monitoring to Handle Conflicts Between Winter Recreation and Grouse Species in Berchtesgaden National Park -- 22.1 Introduction and Background -- 22.2 Study Area and Study Objects -- 22.2.1 Berchtesgaden National Park -- 22.2.2 Winter Recreation: Ski-Touring and Snowshoeing -- 22.2.3 Wildlife: Grouse Species -- 22.3 Temporal and Spatial Use Characteristics of Ski-­Touring and Snowshoeing -- 22.3.1 Visitor Numbers and Temporal Use Characteristics -- 22.3.2 Spatial Use -- 22.4 Conflicts and Integrated Management Measures -- 22.4.1 Winter Season -- 22.4.2 Spring Season -- 22.5 Outlook -- References -- Chapter 23: Environmental Changes in the Maramureş Mountains Natural Park -- 23.1 Introduction -- 23.2 Environmental Changes in  Maramureş Mountains Natural Park -- Settlement Expansion -- Overgrazing -- Deforestation -- Mining Activities -- Touristic Activities -- 23.3 Conclusions -- References -- Chapter 24: BEO Moussala: Complex for Environmental Studies -- 24.1 Introduction -- 24.1.1 Climate Notes -- 24.1.2 The Station Chronology -- 24.2 Environmental Measurements at BEO Moussala -- 24.2.1 Vaisala Automatic Weather Station (AWS) -- 24.2.2 POPs Passive Air Sampling -- 24.2.3 Atmospheric Gas Analysis System -- 24.2.4 BEO Moussala Aerosol Measurement and Devices -- 24.2.4.1 Scanning Mobility Particles Sizer. , 24.2.4.2 Nephelometer TSI 3563.

Note: Cover -- Half Title -- Title Page -- Copyright Page -- Table of Contents -- Editor's Note -- Board of Advisers -- Contributors -- Alphabetical List of Entries -- Thematic List -- Reader's Guide to the History of Science -- A -- Académie des Sciences -- Accademia dei Lincei -- Accademia del Cimento -- Accountability -- Accountancy -- Acoustics -- Acupuncture -- Adler, Alfred -- Aether -- Affinity -- Africa: south of the Sahara -- Africa: health and healing -- Age of the Earth -- Agrícola, Georgius -- Agriculture -- AIDS -- Alchemy -- Algebra -- Alienation -- Almanacs -- Anatomy -- Anthropology -- Anthropometry -- Anti-Vivisection -- Arabic Science -- Archaeology -- Archimedes -- Aristotle -- Arithmetic -- Artificial Intelligence -- Astrolabes -- Astrology -- Astronomical Instruments -- Astronomy: general works -- Astronomy: non-European -- Astrophysics -- Asylums -- Atomic Theory -- Atomic Weapons -- Atomism -- Australia and New Zealand -- Automobiles -- Avogadro, Amedeo -- Axiomatics -- B -- Bacon, Francis -- Bacteriology -- Baer, Karl Ernst von -- Baeyer, Adolf von -- Banks, Joseph -- Bateson, Gregory -- Bauer, Georg -- Behring, Emil von -- Bernard, Claude -- Berthollet, Claude-Louis, Comte de -- Berzelius, Jöns Jacob -- Bichat, Marie François Xavier -- Big Bang Theory -- Big Science -- Biochemistry -- Biometrics, Statistical Biology, and Mathematical Statistics -- Biotechnology -- Birth Control -- Blowpipe -- Boas, Franz -- The Body -- Boerhaave, Herman -- Bohr, Niels -- Boltzmann, Ludwig Eduard -- Botanical and Zoological Gardens -- Botanical Gardens -- Zoological Gardens -- Botany: general works -- Botany: Britain -- Boyle, Robert -- Brahe, Tycho -- Brazil -- British Association for the Advancement of Science -- Buckland, William -- Buffon, Georges-Louis Leclere, Comte de -- C -- Calculating Devices -- Canada -- Cancer -- Cantor, Georg. , Capitalism and Science -- Cardiology -- Cartesianism -- Cartography -- CERN -- Chaos Theory -- Charcot, Jean-Martin -- Chemical Analysis -- Chemical Revolution -- Chemistry -- China: general works -- China: agriculture -- China: astronomy and mathematics -- China: medicine -- China: natural history -- Clinical Science -- Clinical Trials -- Clocks -- Colloid Chemistry -- Colonialism and Science -- Complementary Medicine -- Computing -- Comte, Auguste -- Continental Drift -- Copernicanism -- Copernicus, Nicolaus -- Cosmology -- Court Society -- Cryogenics -- Curie, Marie -- Cuvier, Georges -- D -- Darwin, Charles -- Darwinism -- Darwinism in Germany -- Davy, Humphry -- Dee, John -- Degeneration -- Denmark -- Dentistry -- Descartes, René -- Dialectical Materialism -- Discipline -- Discovery -- DNA -- Doctor-Patient Relationship -- Drugs -- Duhem, Pierre Maurice Marie -- Durkheim, Émile -- Dyestuffs -- E -- École Polytechnique -- Ecology -- Edison, Thomas Alva -- Education -- Egypt and Mesopotamia -- Ehrlich, Paul -- Einstein, Albert -- Electrical Engineering -- Electrical Instruments -- Electricity -- Electromagnetism -- Embryology -- Encyclopedias -- Endocrinology -- Energy -- Engineering Schools -- Engines: steam -- Engines: turbo -- Enlightenment -- Environmental Sciences -- Epidemics -- Epidemiology -- Error Theory -- Ethnomathematics -- Ethnoscience -- Ethology and Animal Behaviour -- Euclid -- Eugenics -- Evans-Pritchard, Edward Evan -- Evolution -- Evolutionary Synthesis -- Exhibitions -- Expeditions -- Experimental Physiology -- Experiments -- F -- Fact -- Faraday, Michael -- Fermat, Pierre -- Fermi, Enrico -- Fevers -- Feynman, Richard -- Fischer, Emil -- Fleming, Alexander -- Florey, Howard Walter -- Forensic Sciences -- Foucault, Michel -- France: scientific and technical education -- Franklin, Benjamin -- Fraunhofer, Joseph von. , Freud, Sigmund -- Function -- Functionalism and Structuralism: biological sciences -- G -- Galen -- Galilean School -- Galilei, Galileo -- Galton, Francis -- Galvani, Luigi -- Galvanic Battery -- Gauss, Carl Friedrich -- Gay-Lussac, Joseph Louis -- Gender: general works -- Gender and Identity -- Gender and Sex -- Genetic Engineering -- Genetics: general works -- Genetics: post-DNA -- Genius -- Geography of the Sciences -- Geology -- Geometry -- Germanophone Areas -- Gesellschaft Deutscher Naturforscher und Ärzte -- Gilbert, William -- Global Organizations -- Gödel, Kurt -- Goethe, Johann Wolfgang von -- Graphical Method -- Greece: general works -- Greece: medicine -- Group Theory -- Gynaecology -- H -- Haeckel, Ernst -- Hahn, Otto -- Hale, George Ellery -- Halley, Edmond -- Harvey, William -- Hayek, Friedrich August von -- Health, Mortality, and Social Class -- Heat -- Heisenberg, Werner -- Helmholtz, Hermann von -- Herbalism -- Heredity -- Hermeticism -- Herschel, William -- Hertz, Heinrich Rudolf -- Hilbert, David -- Hippocrates -- Histology -- History of Science: general works -- Hodgkin, Dorothy -- Holistic Medicine -- Home Economics -- Homoeopathy -- Hooker, Joseph Dalton -- Horticulture -- Hospitals -- Human Genome Project -- Human Sciences -- Humanism -- Humboldt, Alexander von -- Hungary -- Hunter, John -- Hutton, James -- Huxley, Thomas -- Huygens, Christiaan -- Hysteria -- I -- Ideology -- Immunology -- India: general works -- India: medicine -- Indigenous Knowledge Systems -- Industrial Chemistry -- Information -- Instrument as Embodied Theory -- Instrument Makers -- Internalism versus Externalism -- International Science -- J -- Japan: general works -- Japan: medicine -- Japan: technology -- Jesuits -- Journals -- Jung, Carl Gustav -- K -- Kaiser-Wilhelm-Gesellschaft zur Förderung der Wissenschaften -- Kant, Immanuel -- Kepler, Johannes. , Keynes, John Maynard -- Klein, Melanie -- Knowledge and Power -- Koch, Robert -- L -- Latin America -- Laue, Max von -- Lavoisier, Antoine Laurent -- Lawrence, Ernest Orlando -- Leibniz, Gottfried Wilhelm -- Leonardo da Vinci -- Lévi-Strauss, Claude -- Liebig, Justus von -- Linguistics -- Linné, Carl von -- Linnaeus, Carl -- Lister, Joseph -- Literature and Science -- Lorenz, Konrad -- Lyell, Charles -- Lysenko, Trofim Denisovich -- M -- Mach, Ernst -- Madness -- Magnetism -- Malaria -- Malthus, Thomas -- Malthusianism -- Management Sciences -- Marey, Etienne-Jules -- Marshall, Alfred -- Martineau, Harriet -- Marx, Karl -- Marxism and Science -- Materials Science -- Mathematical Instruments -- Mathematical Modernity -- Maupertuis, Pierre-Louis Moreau de -- Maxwell, James Clerk -- Measurement -- Mechanization -- Medical Ethics -- Medical Instruments -- Medical Specialization -- Medicine and Law -- Medicine, Disease, and Health -- Medieval Science and Medicine -- Meitner, Lise -- Mendel, Gregor -- Mendeleev, Dmitrii Ivanovich -- Mersenne, Marin -- Merton Thesis -- Mesmerism -- Metallurgy -- Metaphor -- Meteorological Instruments -- Meteorology -- Metrology -- Michelson, Albert A. -- Microscopes -- Midwifery -- Mill, John Stuart -- Millikan, Robert Andrews -- Mills and Waterwheels -- The Mind -- Molecular Biology -- Monge, Gaspard -- Muséum National d'Histoire Naturelle -- Museums -- Music and Science: antiquity to 1700 -- Music and Science: since 1700 -- N -- Napier, John -- National Styles of Reasoning -- Natural Law -- Natural Selection -- Nature -- Navigational Instruments -- Nernst, Walther -- Netherlands: technology -- Neumann, Salomon -- Neurosciences -- Newton, Isaac -- Newtonianism -- Nobel Institution -- Nuclear Physics -- Number Theory -- Nursing -- Nutrition -- O -- Objectivity -- Observation -- Obstetrics and Midwifery -- Occult Sciences. , Oceanography -- Oppenheimer, J. Robert -- Optics -- Organic Chemistry -- Orientalism -- Ornithology -- Ørsted, Hans Christian -- Ostwald, Wilhelm -- P -- Pain -- Paleontology -- Paracelsus -- Paradigm -- Particle Physics -- Pasteur, Louis -- Pathology -- Pavlov, Ivan Petrovich -- Pearson, Karl -- Performance -- Pharmacology -- Pharmacy -- Philosophy of Science -- Photography -- Phrenology -- Physical Chemistry -- Physical and Human Geography -- Physics: 20th century -- Physikalisch-Technische Reichsanstalt -- Physiology: France -- Physiology: Germany -- Piaget, Jean -- Plague -- Planck, Max -- Plastic Surgery -- Plastics and Polymers -- Plato -- Poincaré, Jules Henri -- Polar Science -- Political Economy -- Popularization -- Positivism -- Practice -- Prehistory: archaeology and anthropology -- Priestley, Joseph -- Printing -- Probability -- Professionalization -- Progress -- Psychiatry -- Psychoanalysis: conceptual -- Psychoanalysis: gender -- Psychoanalysis: institutional -- Psychology -- Psychophysics -- Public and the Private -- Public Health -- Pythagoras 6th century BC -- Q -- Quackery -- Quantification -- Quantum Mechanics -- Quantum Theory -- Quételet, Lambert Adolphe Jacques -- R -- Race -- Radioactivity -- Radiology -- Raman, Chandrasekhara Venkata -- Ramón y Cajal, Santiago -- Rationality -- Rational Mechanics -- Reading Culture and Science -- Relativity -- Religion and Science: general works -- Religion and Science: Islam -- Religion and Science: Medieval -- Religion and Science: Renaissance -- Representation -- Reproductive Medicine -- Research and Development -- Respiration -- Rhetoric -- Rittenhouse, David -- Rockefeller Foundation -- Romanticism -- Röntgen, Wilhelm Conrad -- Rowland, Henry Augustus -- Royal Institution -- Royal Society of London -- Russia -- Russian Academy of Sciences -- Rutherford, Ernest -- S. , Scheele, Carl Wilhelm.

Note: Intro -- Preface -- Introduction - Perspectives of Water Resources Management -- Abstract -- 1.1. Water and the Society -- 1.2. Availability of Water on the Earth -- 1.3. Hydrologic Cycle and Human Intervention -- 1.4. Global Climate Change and the Water Resource -- 1.5. Future Challenges of Water Resources Management -- Relevant Journals -- References -- Assessment of Water Resources -- Abstract -- 2.1. Estimation of Surface Water Resource -- 2.2. Investigation of Groundwater -- 2.2.1. Planning an Investigation -- 2.2.2. Steps Involved in a Site Investigation -- Field Reconnaissance -- Literature Search -- Determination of Data Requirement and Selection of Method -- 2.2.3. Approaches of Investigation -- 2.3. MechanicalApproach -- Drilling of Exploratory Bore Wells -- Avoiding Cross Contamination during Drilling -- Limitations -- Sampling Interval and Representation -- 2.4. Geo-PhysicalApproach -- Principle of Geophysical Approach -- 2.5. ElectricalMethod -- Principle of the Method -- 2.6. Electromagnetic Method -- Principle of the Method -- 2.7. Estimation of Groundwater Potential -- 2.7.1. Quantitative Estimation of Groundwater -- 2.7.2. Groundwater Availability for Pumping in Terms of Potential Recharge -- 2.7.3. Groundwater Availability in Terms of Safe Yield -- Determination of Specific Yield -- 2.7.4. Water Budget Approach -- Expression of Water Budget -- I-Input -- Estimation of Potential Recharge -- O-Output -- Surface Runoff -- Groundwater Discharge -- Evapotranspiration -- S - Storage -- Estimation of Absolute Change (Amount) -- 2.8. Groundwater Development Potential and Issues in Saline/Coastal Areas -- 2.9. Environmental Flow Assessment -- Building Block Method (BBM) -- Drift Method -- Relevant Journals -- Exercises -- Estimation of Groundwater Recharge -- Abstract -- 3.1. Concept, Purpose and Significance of Recharge Estimation. , Concept -- Purpose -- Significance -- 3.2. Relevant Terminologies -- Infiltration -- Percolation -- Seepage -- Actual Recharge -- Potential Recharge -- Direct/Diffuse Recharge -- Indirect Recharge -- Localized/Focused Recharge -- Artificial Recharge -- Natural Recharge -- Induced Recharge -- Base-Flow -- Darcy's Equation or Law -- Deep Drainage -- Drainage Basin -- Groundwater Basin -- Hydrologic Budget or Water Budget -- Piston Flow or Plug Flow -- Preferential Recharge -- Recharge Area -- Rejected Recharge -- Residence Time -- Residual -- 3.3. Sources and Mechanism of Recharge -- 3.4. Factors Affecting Recharge -- Soil Factor -- Topography -- Land-Surface and Vegetation -- Sub-Surface Geology -- Climate -- Rainfall Amount and Its Distribution -- Evaporative Demand of the Atmosphere -- Existence of Water Bodies or Streams -- Storage Capacity of the Aquifer -- Depth to Aquifer -- 3.5. GW Recharge-Discharge/Withdrawal Relationship and Sustainability Issues -- 3.6. Functional Form of Recharge and Limiting Conditions -- 3.6.1. Functional Form -- 3.6.2. Limiting Conditions -- 3.7. Recharge Estimation - Available Approaches and Methods -- Initiating Recharge Study/Preliminary Recharge Estimate -- Recharge Estimation Techniques -- 3.7.1. Water Budget (or Water Balance) Method -- Principle of the Method -- Boundaries Require -- Mathematical Formulation of Water Budget Equation -- Merits of Water Budget Method -- Demerits of Water Budget Method -- 3.7.2. Water-Table Fluctuation Method -- Principle of the Method -- Appropriateness/Suitability of the Method -- Assumptions -- Mathematical Formulation -- Limitations -- Merits of the Method -- Demerits of the Method -- 3.7.3. Lysimeter Method -- Measurement Procedure -- ET Measurement -- Limitations -- Merits of Lysimeter Method -- Demerits/Shortcomings -- 3.7.4. Seepage Meter Method -- Principle of the Method. , Detail Method -- Merits -- Demerits -- 3.7.5. Field Plot Water Balance -- Principle -- Detail Method -- Merits of the Method -- Demerits -- 3.7.6. Soil-Water Balance Approach -- Merits -- Demerits -- 3.7.7. Zero-Flux Plane -- Principle -- Methods -- In Absence of a Zero Flux Plane -- Limitations -- Merits -- Demerits -- 3.7.8. Darcy's Law Approach -- 3.7.8.1. Darcy's Law Method for Unsaturated Zone -- Principle -- Method -- Suitability/Limitations -- Merits -- Demerits -- 3.7.8.2. Darcy's Law Method for Saturated Zone -- Merits -- Demerits/Shortcomings -- 3.7.9. Base-Flow Discharge -- Principle of the Method -- Detail Method -- Merits -- Demerits -- 3.7.10. Numerical Method -- 3.7.10.1. Numerical Method for Watershed modeling -- Merits -- Demerits -- 3.7.10.2. Numerical Modeling for Unsaturated-Zone Studies -- Merits -- Demerits -- 3.7.10.3. Numerical Model for Saturated-Unsaturated Flow -- Merits -- Demerits -- 3.7.11. Tracer Techniques -- Characteristics of an Ideal Tracer -- 3.7.11.1. Chemical Tracer -- Perspectives and Procedure -- Merits -- Demerits -- 3.7.11.2. Isotopic Tracer -- Stable Isotope -- Radioactive Isotope -- Detail Working Method -- Merits -- Demerits -- 3.7.11.3. Environmental Tracers -- Chloride Mass Balance (CMB) Approach -- Perspectives and Methods -- Merits -- Demerits -- 3.7.11.4. Historical Tracer -- Perspectives and Procedure -- Merits -- Demerits -- 3.7.11.5. Groundwater Dating -- Perspectives and Methods -- Age from 3H/3He Data -- Use of 14C for Groundwater Age -- Recharge Rate from GW Age -- Characteristics and Considerations -- Merits -- Demerits -- 3.7.11.6. Limitations/Restrictions of Using Tracer -- 3.7.11.7. Interpretation of Tracer Results -- 3.7.11.8. Merits of Tracer Techniques over Other Methods, and Concerns -- Merits -- Concerns -- 3.7.12. Empirical Method -- Anderson et al. (1992) Formula -- Chaturvedi Formula. , Kumar and Seethapathi Formula -- Merits of Empirical Methods -- Demerits -- Future Refinement -- 3.7.13. Application of Multiple Techniques -- 3.8. Recharge Estimation Related to Aquifer Vulnerability to Contamination -- 3.9. Choosing an Appropriate Method for Recharge Estimation -- 3.9.1. Factors to be Considered in Selecting a Recharge Estimation Method -- Aim or Objective of Recharge Estimation -- Required Accuracy of Recharge Estimate -- Geomorphology of the Target Area -- Climate -- Geology -- Source and Mechanism of Recharge -- Temporal and Spatial Scale Required -- Availability of Time and Money -- Limitations/Suitability of the Methods themselves -- 3.9.2. Optimization among Different Factors and Estimating Recharge -- 3.10. Developing a Conceptual Model of Recharge/Conceptualizing a Recharge Model -- 3.11. Challenges in Predictive Relations and Recharge Generalization -- 3.12. Geological Mapping of the Recharge Areas -- General Guidelines for Mapping Recharge Area -- 3.13. Methods for Estimating/Measuring Components of Water Budget Equation -- 3.13.1. Evapotranspiration -- Direct Measurement of ET by Lysimeter -- Indirect Method -- From Field Plot -- From Crop Coefficient -- 3.13.2. Surface Runoff -- From Crop Fields -- SCS Runoff Method -- Peak Runoff from Single Storm Event -- 3.14. Worked Out Problems -- Example 3.1 -- Solution -- Example 3.2 -- Solution -- Example 3.3 -- Solution -- Example 3.4 -- Solution -- Example 3.5 -- Solution -- Example 3.6 -- Solution -- Example 3.7 -- Solution -- Relevant Journals -- Questions/Exercise -- References -- Water-Well Construction and Well Hydraulics -- Abstract -- 4.1. Construction of Water-Well -- 4.1.1. Importance of Proper Design and Construction of Well -- 4.1.2. Types of Well -- Bored Wells -- Drilled Wells -- 4.1.3. Well Construction -- 4.1.3.1. Principal Activities in Well Construction. , Site Selection -- Drilling -- 4.1.3.2. Drilling Methods -- 4.1.3.3. Definition of Relevant Terminologies -- 4.2. Well Design -- 4.2.1. Design Elements and Design Considerations -- Well Depth -- Casing Size and Material Type -- Well Screen -- Slot Size Openings -- Screen Length, Pattern, Total Open Area, and Placement -- Screen Material -- Filter Material -- Casing Materials -- 4.2.2. Design Criteria and Procedure -- Diameter of Slot/SCREEN opening -- Screen Open Area -- Length of Screen -- Position of Screen -- Screen Material -- Hydraulic Criteria/Velocity of Water -- Diameter of Screen Pipe, Vertical Velocity -- Gravel Pack/Filter Material -- 4.3. Well Completion and Development -- 4.3.1. Well Completion -- Well Casing and Sealing -- The Annular Seal -- Annulus Seal -- Well Cap -- Filter Material -- 4.3.2. Well Development -- 4.3.3. Disinfection of Well -- 4.3.4. Economic Considerations -- 4.4. Well Hydraulics -- 4.4.1. Relevant Terminologies -- Specific Capacity -- Well Capacity or Yield -- Well Efficiency -- 4.4.2. Well Yield in Aquifer -- 4.4.2.1. Flow of Water to Well in Unconfined Aquifer -- Theim Equation -- 4.4.2.2. Flow of Water to Well in Confined AQUIFER -- Theis Equation -- Derivation of the Equation -- 4.5. Pumping Test/Well Yield Test and Determination of Aquifer Parameters -- 4.5.1. Relevant Terminologies -- Residual Drawdown -- Specific Capacity -- Well Efficiency -- 4.5.2. Perspectives of Pumping Test -- 4.5.3. General Assumptions in Pumping Test -- 4.5.4. Constant Rate Test -- Observation Wells -- 4.5.5. Step Wise Test -- 4.5.6. Analysis of Pump Test Data -- Theis Method -- Cooper-Jacob Method -- Time-Drawdown Approach -- Distance-Drawdown Approach -- Theis Recovery Approach -- Limitations -- Relevant Journals -- Questions/Exercises -- References -- Management of Water Resources -- Abstract. , 5.1. Concept of Water Resources Management.

Note: Front Cover -- Energy Services Fundamentals and Financing -- Copyright Page -- Contents -- List of Contributors -- 1 Energy services -- 1 Energy services: concepts, applications and historical background -- 1.1 Introduction -- 1.2 Energy and population growth -- 1.3 Energy saving in buildings -- 1.4 Energy use in agriculture -- 1.5 Renewable energy technologies -- 1.5.1 Solar energy -- 1.5.2 Efficient bioenergy use -- 1.5.2.1 Briquette processes -- 1.5.2.2 Improved cook stoves -- 1.5.2.3 Biogas technology -- 1.5.2.4 Improved forest and tree management -- 1.5.2.5 Gasification application -- 1.5.3 Combined heat and power -- 1.5.4 Hydrogen production -- 1.5.5 Hydropower generation -- 1.5.6 Wind energy -- 1.6 Energy and sustainable development -- 1.7 Global warming -- 1.8 Recommendations -- 1.9 Conclusion -- References -- 2 Energy financing schemas -- 2 The promotion of renewable energy communities in the European Union -- 2.1 Overview -- 2.2 The link between the provision of energy services and the increase of energy efficiency -- 2.3 The efficiency gains stemming from distributed generation of energy production -- 2.4 The concept of renewable energy community -- 2.5 The promotion of renewable energy communities in EU law -- 2.6 The promotion of renewable energy communities in the draft National Energy and Climate Plans -- 2.7 Conclusion -- References -- 3 Financial schemes for energy efficiency projects: lessons learnt from in-country demonstrations -- 3.1 Introduction -- 3.2 The proposed methodology -- 3.3 Innovative financing schemes -- 3.3.1 Crowdfunding -- 3.3.2 Energy performance contracting -- 3.3.3 Green bonds -- 3.3.4 Guarantee funds -- 3.3.5 Revolving funds -- 3.3.6 Soft loans -- 3.3.7 Third-party financing -- 3.4 Case study countries -- 3.4.1 Bulgaria -- 3.4.2 Greece -- 3.4.3 Lithuania -- 3.4.4 Spain -- 3.5 Key actors identification. , 3.6 Knowledge transfer -- 3.6.1 Peer-to-Peer learning -- 3.6.2 Capacity building activities -- 3.7 Conclusions -- References -- 3 Energy systems in buildings -- 4 Energy in buildings and districts -- 4.1 Introduction -- 4.2 Thermal comfort -- 4.3 User behavior -- 4.4 Weather conditions under climate change and growing urbanization -- 4.5 Envelope and materials -- 4.6 From passive to nearly zero-energy building design -- 4.7 Smart buildings and home automation -- 4.8 From smart buildings to smart districts and cities -- 4.9 Concluding discussion -- References -- 5 Renewable energy integration as an alternative to the traditional ground-source heat pump system -- Nomenclature -- 5.1 Introduction -- 5.2 Methodology -- 5.2.1 Description of the proposed solution -- 5.2.2 Test procedure -- 5.3 Technical calculation -- 5.3.1 Thermal module -- 5.3.1.1 Geothermal energy -- 5.3.1.2 Thermal solar energy -- 5.3.2 Power module -- 5.3.2.1 Photovoltaic solar energy -- 5.3.2.2 Wind energy -- 5.3.3 Contribution of the suggested installation -- 5.4 Economic and environmental analysis -- 5.4.1 Economic analysis -- 5.4.2 Environmental evaluation -- 5.5 Discussion -- 5.5.1 Sensitivity analysis -- 5.5.1.1 Electricity price -- 5.5.1.2 Electric rate -- 5.5.1.3 CO2 emission factor -- 5.6 Conclusions -- Acknowledgments -- References -- 6 Energy-saving strategies on university campus buildings: Covenant University as case study -- 6.1 Introduction -- 6.1.1 Energy modeling software for buildings -- 6.1.2 Energy conservation measures in buildings -- 6.2 Materials and methods -- 6.2.1 Study location -- 6.2.2 Procedure for data collection -- 6.2.3 Instrumentation and procedure for data analysis -- 6.2.4 Economic analysis -- 6.2.5 Assessment of environmental impacts -- 6.3 Results and discussions -- 6.3.1 Result of energy audit in cafeterias1 and 2. , 6.3.2 Result of energy audit in Mechanical Engineering building -- 6.3.3 Result of energy audit in university library -- 6.3.4 Result of energy audit in health center -- 6.3.5 Result of energy audit in the students' halls of residence -- 6.3.6 Qualitative recommendation analysis -- 6.3.6.1 Replacement of lighting fixtures with light-emitting diode bulbs -- 6.3.6.2 Installation of solar panels on the roofs of selected buildings -- 6.4 Conclusion -- References -- 7 Energy conversion systems and Energy storage systems -- 7.1 Introduction -- 7.2 Energy systems in buildings -- 7.2.1 Energy generation systems -- 7.2.1.1 Combined heat and power system -- 7.2.1.2 Solar photovoltaic system -- 7.2.1.3 Solar thermal system -- 7.2.1.4 Organic Rankine cycle system -- 7.2.1.5 Geothermal system -- 7.2.1.6 Wind turbine system -- 7.2.2 Energy conversion systems -- 7.2.2.1 Heating systems -- 7.2.2.2 Cooling systems -- 7.2.2.3 Ventilation systems -- 7.2.3 Energy storage systems -- 7.2.3.1 Battery energy storage system -- 7.2.3.2 Thermal energy storage system -- 7.3 Conclusion -- References -- 8 Energy systems in buildings -- 8.1 Introduction -- 8.2 Energy-efficient building envelopes -- 8.2.1 Increasing thermal resistance of the building envelope -- 8.2.2 Climate-specific design of energy-efficient envelopes -- 8.3 Renewable energy sources for building energy application -- 8.3.1 Analyzing electrical/thermal loads of a building -- 8.3.2 Consideration of local codes and requirements for renewable energy systems -- 8.3.3 Solar energy systems -- 8.3.3.1 Solar water heating -- 8.3.3.1.1 Flat-plate collectors -- 8.3.3.1.2 Evacuated tube solar thermal collectors -- 8.3.3.1.3 Choice of solar thermal collectors -- 8.3.3.1.3.1 Cost -- 8.3.3.1.3.2 Performance -- 8.3.3.1.3.3 Installation -- 8.3.4 Building-integrated photovoltaic systems -- 8.4 Solar thermal energy storage. , 8.4.1 Types of thermal energy storage technologies -- 8.4.1.1 Sensible heat storage system -- 8.4.1.1.1 Sensible solid heat storage system -- 8.4.1.1.2 Sensible liquid heat storage system -- 8.4.1.2 Sensible cold storage system -- 8.4.1.3 Latent heat storage system -- 8.4.1.4 Thermochemical storage -- 8.5 Wind energy -- 8.5.1 Brief introduction -- 8.5.2 Wind resource assessment -- 8.5.3 Building-integrated/mounted wind turbine -- 8.5.3.1 Building-integrated wind turbines -- 8.5.3.2 Building-mounted wind turbines -- 8.5.3.3 Building-augmented wind turbines -- 8.5.4 Optimizing building-integrated/mounted wind turbine devices -- 8.5.5 Small/micro wind turbines for building application -- 8.6 Heat pumps -- 8.6.1 Air-source heat pumps -- 8.6.2 Ground-source heat pumps -- 8.6.3 Working principles of heat pumps -- 8.6.3.1 The heating cycle -- 8.6.3.2 The cooling cycle -- 8.6.3.3 The defrost cycle -- 8.6.4 Performance measures -- 8.7 Biomass -- 8.8 Summary -- References -- 4 Energy efficiency in industrial sector -- 9 Energy efficiency and renewable energy sources for industrial sector -- 9.1 Introduction -- 9.2 Global energy trends -- 9.3 Energy consumption and emissions in industry -- 9.3.1 General trends -- 9.3.2 Energy and carbon-intensive industrial sectors -- 9.4 Energy efficiency in industry for climate change mitigation -- 9.4.1 The need for innovation -- 9.5 Energy efficiency and renewable sources in industry -- 9.5.1 Bioenergy -- 9.5.2 Solar heat -- 9.6 Case study in Turkey -- 9.6.1 National Energy Efficiency Action Plan -- 9.6.2 General overview -- 9.6.3 Industry and technology -- 9.6.4 Aim of the development plans -- 9.7 Policy options -- 9.7.1 Lessons learned -- 9.7.2 International agreements -- 9.7.3 Procurement -- 9.8 Conclusions -- Acknowledgment -- References -- 10 Energy efficiency in tourism sector: eco-innovation measures and energy. , 10.1 Introduction -- 10.2 State of the arts -- 10.3 Methods and data -- 10.4 Results and discussion -- 10.5 Conclusions -- References -- 5 Energy services markets: development and status quo -- 11 Energy service markets: status quo and development -- 11.1 Introduction -- 11.2 The European framework for energy services -- 11.2.1 Legal framework -- 11.2.2 The European Union energy service markets: market volume, offers, and barriers -- 11.3 The German energy service market -- 11.3.1 Legal framework and information sources -- 11.3.2 Market overview -- 11.4 Developments of segments of the service market -- 11.4.1 Advice services -- 11.4.2 Energy management -- 11.4.3 Contracting -- 11.5 Market development -- 11.6 Conclusions: lessons learned from the German case -- References -- 12 Worldwide trends in energy market research -- 12.1 Introduction -- 12.2 Data -- 12.3 Results -- 12.3.1 Subjects from worldwide publications -- 12.3.2 Journals metric analysis -- 12.3.3 Countries, affiliations, and their main topics -- 12.3.4 Keywords from worldwide publications -- 12.3.5 Cluster analysis based on keywords -- References -- 13 Which aspects may prevent the development of energy service companies? The impact of barriers and country-specific condi... -- 13.1 Introduction -- 13.2 Which are the problems confronted by energy efficiency actions and policy instruments? -- 13.3 Which are the most relevant barriers confronted by energy service companies in different regions? -- 13.4 Removing barriers and promoting energy service companies -- 13.4.1 Actions to remove economic and market barriers -- 13.4.2 Actions to remove funding barriers -- 13.4.3 Enabling frameworks for energy service companies and other energy efficiency actions -- 13.5 Lessons learned and conclusions -- Acknowledgments -- References -- Further reading -- Index -- Back Cover.