Low carbon energy technologies in sustainable energy systems:
Gespeichert in:
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| Format: | Buch |
| Sprache: | English |
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London ; San Diego ; Cambridge ; Oxford
Academic Press, an imprint of Elsevier
[2021]
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| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | xx, 398 Seiten Illustrationen, Diagramme |
| ISBN: | 9780128228975 |
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Datensatz im Suchindex
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Contents Contributors. XV Preface. xix Part 1 Introduction and fundamentals Chapter 1 The role of resource recovery technologies tn reducing the demand of fossil fuels and conventional fossil-based mineral fertilizers. . 3 Miltiadis Zamparas 1 2 3 4 Introduction. 4 1.1 Urban wastewater and energyresource recovery. 4 1.2 The global demand of P-fertilizers and the need of nutrient recovery. 5 Methods for energy and resource recovery. 7 2.1 Anaerobicdigestion. 7 2.2 Incineration and co-incineration. 8 2.3 Gasification. 9 2.4 Pyrolysis. 9 2,5 Wet air oxidation. 9 2.6 Supercritical water oxidation. 10 2.7 Hydrothermal treatment. 10 Energy
recovery. 11 3.1 Biogas. 11 3.2 Bio-hydrogen. 13 3.3 Bio-diesel. 14 Nutrients recovery. . . 15 4.1 Ammonia recovery.15 4.2 Struvite precipitation. 15 Integrated resource recovery in a future smart city.18 5 References. 18
VI Contents Chapter 2 Increasing efficiency of mining enterprises power consumption. 25 Vadim Z. Manusov, Dmitry V. Antonenkov, Evgenia Y. Sizganova, Denis B. Solovev 1 Significance. 25 2 The degree of elaboration of the issue. 26 3 Theoretical part. 29 4 Solution method. 31 5 Discussion of the results. 40 6 Conclusion.42 References.44 Chapter 3 The contribution of energy crops to biomass production . 47 S.V. Leontopoulos, G. Arabatzis Introduction.47 1.1 General. 47 1.2 Energy production anddemands.48 1.3 Biomass production. 51 1.4 Biofuel.55 1.5 Energy crops distribution,contribution, and utilization. 56 2 Biomass conversion to biomass production.
90 3 Conclusions. 92 Websites. 94 References. 94 1 Part 2 Examining low carbon energy technologies and their contribution as sustainable energy systems Chapter 4 Public attitudes toward the major renewable energy types in the last 5 years: A scoping review of the literature. 117 Evangelia Karasmanaki, GeorgiosTsantopoulos 1 Introduction. 117 2 Methodology. 120
Contents vii 3 Results. . 121 3.1 Attitudes to renewable energy sources in general. 128 3.2 Attitudes to wind energy. 131 3.3 Attitudes to solar energy. 133 4 Discussion and conclusions. 134 References.137 Chapter 5 Understanding willingness to pay for renewable energy among citizens of the European Union during the period 2010-20 141 Evangelia Karasmanaki Introduction. 141 Methodology. 143 Results. 144 3.1 Estimations of willingness to pay for renewable energy in European Union. 145 3.2 Factors affecting the willingness or unwillingness to pay for renewable energy. 152 3.3 Methodologies employed in WTP studies. 153 4 Discussion. 155 5 Conclusions. 157
References. 158 1 2 3 Chapter 6 Linking energy homeostasis, exergy management, and resiliency to develop sustainable grid-connected distributed generation systems fortheir integration into the distribution grid by electric utilities. 163 Fernando Yanine, Antonio Sanchez-Squella, Aldo Barrueto, Sarat Kumar Sahoo 1 introduction . 164 1.1 Climate change and the energy crisis. 168 1.2 Electric power systems (EPS) decentralization for growing environmental threats . . 169 1.3 Role of the microgrid . 171
VÜÎ Contents 2 Resiliency and energy homeostasis. 175 2.1 Homeostasis-based control systems in the design of SES. 176 3 Grid-tied microgrids with and without energy storage . 177 3.1 Building sustainability in energy systems .178 3.2 Sustainability performance indicators . 180 3.3 Control methods of EPS. 182 4 Sustainable hybrid energy systems (SHES) as living open systems.185 4.1 HC system installed in a SHES. 187 4.2 Discussion. 191 5 Conclusions. 193 References. 196 Chapter 7 Smart energy systems and the need to incorporate homeostatically controlled microgrids to the electric power distribution industry: an electric utilities' perspective. 201 Fernando Yanine, Antonio Sanchez-Squella, Aldo Barrueto, Sarat Kumar Sahoo, Felisa Cordova 1 Smart energy systems, energy sustainability, and grid flexibility. 202 1.1 Toward a new electric utilities'
perspective. 202 1.2 Homeostaticity of energy systems . 205 1.3 Climate change and the current energy transition. 207 1.4 Electric power systems' decentralization. 209 2 Electric power distribution's decentralization agenda . 212 2.1 Microgrid trends.212 2.2 Homeostaticity in electric utility-operated microgrids. 214 2.3 Homeostaticity of SHES. 215 3 Homeostaticity in energy systems. 216 3.1 Exergy and energy efficiency. 218 3.2 Role of the electric tariff differentiation. 218
Contents 4 Energy homeostasis and homeostatic control strategies. 222 4.1 Discussion. 222 5 Conclusions. 225 References. 226 Chapter 8 Grid-tied distributed generation with energy storage to advance renewables in the residential sector: tariffs analysis with energy sharing innovations. 231 Fernando Yanine, Antonio Sanchez-Squella, Aldo Barrueto, Sarat Kumar Sahoo, Dhruv Shah, Antonio Parejo, Felisa Cordova, Hans Rother Introduction. 233 1.1 Sustainable energy systems. 233 1.2 The important, albeit not yet fully understood role of energy storage for electric utilities' power distribution systems. 234 1.3 Case study.236 2 Deployment of distributed generation systems. 238 2.1 Electricity tariffs. 238 2.2 Criteria A: Customers share the Nth part of generated renewable
energy. 240 2.3 Criterion B: Substantial renewable energy supply according to customer merit. 241 3 Analysis on Chilean potential case scenario. 244 3.1 Separate customers'scenario. 244 3.2 Simulation results . . 245 4 Conclusions. 248 References. 249 1 ÏX
X Contents Chapter 9 Integrating green energy into the grid: how to engineer energy homeostaticity, flexibility and resiliency in electric power distribution systems and why should electric utilities care. 253 Fernando Yanine, Antonio Sanchez-Squella, Aldo Barrueto, Sarat Kumar Sahoo, Antonio Parejo, Dhruv Shah, Felisa Cordova 1 Introduction. 254 2 How to incorporate energy homeostaticity in electric power systems?.255 2.1 Thriftiness and resiliency in electric power systems .255 3 Control engineering design. 256 3.1 Why is energy efficiency (EF) not enough?. 256 3.2 Energy prosumers. 258 3.3 50 kWh battery. 259 3.4 The case with 100 kWh battery. 262 3.5 The case with 150 kWh battery. 264 4 Conclusion. 264 Websites. 265 References. 265 Chapter 10 Multi energy systems of the future. 267 Vasileios C. Kapsalis
Introduction. 267 Multi energy supply chain.268 2.1 Supply chain. 268 2.2 Transactive multi energy systems. . 268 3 Multi forms of energy storagesystems. 269 3.1 General. 269 3.2 Forms and key properties. 271 4 Assessment, economic issues, andperspectives. 276 4.1 Technological and economic issues. 276 4.2 Optimization and decision making.279 5 Conclusions. 281 References. 282 1 2
Contents Chapter 11 Bibliometric analysis of scientific production on energy, sustainability, and climate change. 287 Theodore Kalyvas, Efthimios Zervas 1 Introduction. 287 2 Data and methodology. 288 2.1 Data. 288 2.2 Methodology. 288 3 Results. 289 3.1 Analysis of publicationsper year. 289 3.2 Subject area. .290 3.3 Document and source type. 293 3.4 Analysis of the major sources of publication and citation. 295 3.5 Analysis of countries.297 3.6 Analysis of institutions. 304 4 Conclusions. 306 References. 306 Chapter 12 Public acceptance of renewable energy sources. 309 Zoe Gareiou, Efi Drimili,
Efthimios Zervas Introduction. 309 Materials and methods. 312 2.1 Sample size and collection.312 2.2 Survey questionnaire. 313 2.3 Data analysis. 314 3 Results and discussion. 314 3.1 Socio-demographic characteristics of the sample. 314 1 2 4 Descriptive analysis and the effect of socio-demographic characteristics. 316 5 Environmental sensitivity. 321 XÎ
Contents XÎi 6 Opinions and knowledge about the RES. 322 7 Hypothetic RES installation scenario. 324 8 Conclusions. 325 References. 326 Chapter 13 Sustainable site selection of offshore wind farms using GIS-based multi-criteria decision analysis and analytical hierarchy process. Case study: Island of Crete (Greece). 329 Pandora Gkeka-Serpetsidaki, TheocharisTsoutsos 1 Introduction to our work. 329 2 Introduction to the offshore wind energy sector. 330 2.1 Worldwide current status. 330 2.2 The situation in Europe. 331 2.3 The case of Greece. 333 3 Case study—the island of Crete. 333 3.1 Characteristics of the area. 333 3.2 The energy system. 333 4 Methodology. 335 5 Results and conclusions. 338
References. -340 Chapter 14 Accounting and Sustainability. 343 Sofia Asonitou Introduction. 343 Sustainability and EU strategy.344 Sustainability and the AccountingProfession.346 4 Sustainable Finance and Circular Economy. 350 5 Conclusions. 352 References.353 1 2 3
Contents xiïi Part 3 Conclusions and future research Chapter 15 Should low carbon energy technologies be envisaged in the context of sustainable energy systems?. 357 Grigorios L. Kyriakopoulos 1 Introduction. .357 2 Methods. 365 3 Results. 366 3.1 Low carbon energy: the technological dimension .366 3.2 Sustainable energy systems: the social dimension . 374 4 Discussion and current research considerations. .380 5 Conclusions and future research orientations. 384 5.1 Challenges of carbon abatement based on energy systems. 384 5.2 Policies and implications. 385 References. Index. 391 |
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| spelling | Low carbon energy technologies in sustainable energy systems edited by Grigorios L. Kyriakopoulos London ; San Diego ; Cambridge ; Oxford Academic Press, an imprint of Elsevier [2021] © 2021 xx, 398 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Erneuerbare Energien (DE-588)4068598-6 gnd rswk-swf Energieerzeugung (DE-588)4070813-5 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Energieerzeugung (DE-588)4070813-5 s Erneuerbare Energien (DE-588)4068598-6 s DE-604 Kyriakopoulos, Grigorios L. (DE-588)1228656126 edt Erscheint auch als Online-Ausgabe 978-0-12-823087-9 Digitalisierung UB Bamberg - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033323757&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
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| subject_GND | (DE-588)4068598-6 (DE-588)4070813-5 (DE-588)4143413-4 |
| title | Low carbon energy technologies in sustainable energy systems |
| title_auth | Low carbon energy technologies in sustainable energy systems |
| title_exact_search | Low carbon energy technologies in sustainable energy systems |
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| topic_facet | Erneuerbare Energien Energieerzeugung Aufsatzsammlung |
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