Smart energy and smart energy systems

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Mohamed, 2014, Fulfillment of net-zero energy building (NZEB) with four metrics in a single family house with different heating alternatives, Appl Energy, 114, 385, 10.1016/j.apenergy.2013.09.065

Gahleitner, 2013, Hydrogen from renewable electricity: an international review of power-to-gas pilot plants for stationary applications, Int J Hydrogen Energy, 38, 2039, 10.1016/j.ijhydene.2012.12.010

Lund, 2012, From electricity smart grids to smart energy systems - a market operation based approach and understanding, Energy, 42, 96, 10.1016/j.energy.2012.04.003

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Mendes, 2011, On the planning and analysis of Integrated Community Energy Systems: a review and survey of available tools, Renew Sustain Energy Rev, 15, 4836, 10.1016/j.rser.2011.07.067

Qadri, 2009, Totally integrated smart energy system through data acquisition via remote location, World Acad Sci Eng Technol, 38

Crossley, 2010, Smart energy systems: transitioning renewables onto the grid, Renew Energy Focus, 11

Cummings, 2011, Paying attention to the man behind the curtain, IEEE Pervasive Comput, 10

Simonov, 2012, Artificial intelligence forecast of PV plant production for integration in smart energy systems, Int Rev Electr Eng, 7

Mrazovac, 2012, A human detection method for residential smart energy systems based on Zigbee RSSI changes, IEEE Trans Consum Electron, 58

2013

Volkova, 2014, Active consumer: optimization problems of power consumption and self-generation, Autom Remote Control, 75

Naumann, 2014, Smart grid automation using IEC 61850 and CIM standards, Control Eng Pract, 25

Hammer, 2015, Trust-based decision-making for smart and adaptive environments, User Model User-Adapt Interact, 25

Sytnikov, 2016, The test results of AC and DC HTS cables in Russia, IEEE Trans Appl Supercond, 26

Sytnikov, 2015, The creation of high-temperature superconducting cables of megawatt range in Russia, Phys A. T Nucl, 78

Halvgaard, 2016, Distributed model predictive control for smart energy systems, IEEE Trans Smart Grid, 7

Derakhshan, 2016, The optimization of demand response programs in smart grids, Energy Policy, 94

Bulkeley, 2016, Making a smart city for the smart grid? The urban material politics of actualising smart electricity networks, Environ Plan A, 48

Babonneau, 2016, A linear programming model for power distribution with demand response and variable renewable energy, Appl Energy, 181

Alamaniotis, 2016, Towards smart energy systems: application of kernel machine regression for medium term electricity load forecasting, Springerplus, 5

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Jafari-Marandi, 2015, A system of system approach for smart complex energy system operation decision, Vol 1B

Amft, 2011, Smart energy systems, IEEE Pervasive Comput, 63, 10.1109/MPRV.2011.10

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Saito, 2012, Development of general purpose energy system simulator, Energy Procedia, 14, 1595, 10.1016/j.egypro.2011.12.1138

Aduda, 2014, The human in the loop: an approach to individualize smart process control, Procedia Environ Sci, 22, 302, 10.1016/j.proenv.2014.11.029

Bulut, 2015, Buildings in the future energy system - perspectives of the Swedish energy and buildings sectors on current energy challenges, Energy Build, 107

Nasiakou, 2016, Smart energy for smart irrigation, Comput Electron Agric, 129

Halvgaard, 2012, Model predictive control for a smart solar tank based on weather and consumption forecasts, Energy Procedia, 30, 270, 10.1016/j.egypro.2012.11.032

Yun, 2013, Deployment support for sensor networks in indoor climate monitoring, Int J Distrib Sens Netw, 2013

Van Pruissen, 2014, Energy efficiency comparison of a centralized and a multi-agent market based heating system in a field test, Energy Procedia, 62, 170, 10.1016/j.egypro.2014.12.378

Ooka, 2015, A review on optimization techniques for active thermal energy storage control, Energy Build, 106

Naus, 2015, Households as change agents in a Dutch smart energy transition: on power, privacy and participation, Energy Res Soc Sci, 9

Hvelplund, 2013, Local ownership, smart energy systems and better wind power economy, Energy Strateg Rev, 1, 164, 10.1016/j.esr.2013.02.001

Batas Bjelić, 2013, Increasing wind power penetration into the existing Serbian energy system, Energy, 57, 30, 10.1016/j.energy.2013.03.043

Connolly, 2014, A technical and economic analysis of one potential pathway to a 100% renewable energy system, Int J Sustain Energy Plan Manag, 1, 7

Meyer, 2014, Barriers and potential solutions for energy renovation of buildings in Denmark, Int J Sustain Energy Plan Manag, 1

Lund, 2014, Heat saving strategies in sustainable smart energy systems, Int J Sustain Energy Plan Manag, 4, 3

Lund, 2014, 4th Generation District Heating (4GDH). Integrating smart thermal grids into future sustainable energy systems, Energy, 68, 1, 10.1016/j.energy.2014.02.089

Lund, 2015, Large combined heat and power plants in sustainable energy systems, Appl Energy, 142, 389, 10.1016/j.apenergy.2015.01.013

Mathiesen, 2015, Smart Energy Systems for coherent 100% renewable energy and transport solutions, Appl Energy, 145, 139, 10.1016/j.apenergy.2015.01.075

Duić, 2015, Is the success of clean energy guaranteed?, Clean Technol Environ Policy, 17

Blaauwbroek, 2015, Decentralized resource allocation and load scheduling for multicommodity smart energy systems, IEEE Trans Sustain Energy, 6

Kipping, 2015, Hourly electricity consumption in Norwegian households - assessing the impacts of different heating systems, Energy, 93

Prina, 2016, Smart energy systems applied at urban level: the case of the municipality of Bressanone-Brixen, Int J Sustain Energy Plan Manag, 10

Lund, 2016, Energy storage and smart energy systems, Int J Sustain Energy Plan Manag, 11

Østergaard, 2016, Smart energy systems and 4th generation district heating, Int J Sustain Energy Plan Manag, 10, 1

Thorsen, 2016, Electric and thermal energy flexibility: utilizing excess heat from a supermarket refrigeration system in a district heating grid, Euroheat Power (English Ed, 13

Lunde, 2016, Smart grid: hope or hype?, Energy Effic, 9

Shi, 2016, Energy management in multi-commodity smart energy systems with a greedy approach, Appl Energy, 167

Lund, 2016, Choice of insulation standard for pipe networks in 4th generation district heating systems, Appl Therm Eng, 98

Connolly, 2016, Smart Energy Europe: the technical and economic impact of one potential 100% renewable energy scenario for the European Union, Renew Sustain Energy Rev, 60, 1634, 10.1016/j.rser.2016.02.025

Nastasi, 2016, Hydrogen to link heat and electricity in the transition towards future Smart Energy Systems, Energy, 110, 5, 10.1016/j.energy.2016.03.097

Lythcke-Jørgensen, 2016, A methodology for designing flexible multi-generation systems, Energy, 110, 34, 10.1016/j.energy.2016.01.084

Dumas, 2016, European perspective of the development of deep geothermal in urban areas: smart thermal grids, geothermal integration into smart cities, Geomech Und Tunnelbau, 9

Withanage, 2016, Design for sustainable use of appliances: a framework based on user behavior observations, J Mech Des Trans ASME, 138

Noppers, 2016, The importance of instrumental, symbolic, and environmental attributes for the adoption of smart energy systems, Energy Policy, 98

Grundahl, 2016, Comparison of district heating expansion potential based on consumer-economy or socio-economy, Energy, 115, 1771, 10.1016/j.energy.2016.05.094

Markovska, 2016, Addressing the main challenges of energy security in the twenty-first century – contributions of the conferences on Sustainable Development of Energy, Water Environ Syst Energy, 115, 1504

Maier, 2016, Smart energy systems for smart city districts: case study Reininghaus District, Energy Sustain Soc, 6, 23, 10.1186/s13705-016-0085-9

van der Werff, 2016, The psychology of participation and interest in smart energy systems: comparing the value-belief-norm theory and the value-identity-personal norm model, Energy Res Soc Sci, 22, 107, 10.1016/j.erss.2016.08.022

Dominković, 2016, Zero carbon energy system of south east Europe in 2050, Appl Energy, 184

Gerboni, 2016, Testing future hydrogen penetration at local scale through an optimisation tool, Int J Hydrogen Energy, 41

Mathiesen, 2015

Lund, 2014, Renewable energy systems: the choice and modeling of 100% renewable solutions, Chem Eng Trans, 39, 1

Pickard, 2014, Smart grids versus the achilles' heel of renewable energy: can the needed storage infrastructure be constructed before the fossil fuel runs out?, Proc IEEE, 102

Balta-Ozkan, 2014, European smart home market development: public views on technical and economic aspects across the United Kingdom, Germany and Italy, Energy Res Soc Sci, 3, 65, 10.1016/j.erss.2014.07.007

Lund, 2014, Smart energy system design for large clean power schemes in urban areas, J Clean Prod, 103, 437, 10.1016/j.jclepro.2014.06.005

Hu, 2015, Creating a new socio-technical regime in China: evidence from the Sino-Singapore tianjin eco-city, Futures, 70

Zakeri, 2015, Wind integration into energy systems with a high share of nuclear power-what are the compromises?, Energies, 8

Söder, 2016, Simplified analysis of balancing challenges in sustainable and smart energy systems with 100% renewable power supply, Wiley Interdiscip Rev Energy Environ, 5

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Lund, 2008, Integration of renewable energy into the transport and electricity sectors through V2G, Energy Policy, 36, 3578, 10.1016/j.enpol.2008.06.007

Jiayi, 2008, A review on distributed energy resources and MicroGrid, Renew Sustain Energy Rev, 12, 2465, 10.1016/j.rser.2007.06.004

Østergaard, 2011, A renewable energy system in Frederikshavn using low-temperature geothermal energy for district heating, Appl Energy, 88, 479, 10.1016/j.apenergy.2010.03.018

Alberg Østergaard, 2010, A renewable energy scenario for Aalborg Municipality based on low-temperature geothermal heat, wind power and biomass, Energy, 35, 4892, 10.1016/j.energy.2010.08.041

Lund, 2010, Sustainable towns: the case of Frederikshavn – 100% renewable energy, 155

Østergaard, 2010, Climate change mitigation from a bottom-up community approach, 247

Orecchini, 2011, Beyond smart grids – the need of intelligent energy networks for a higher global efficiency through energy vectors integration, Int J Hydrogen Energy, 36, 8126, 10.1016/j.ijhydene.2011.01.160

Wu, 2011, Construction of Chinas smart grid information system analysis, Renew Sustain Energy Rev, 15, 4236, 10.1016/j.rser.2011.07.129

Ahn, 2011, Optimal decentralized charging control algorithm for electrified vehicles connected to smart grid, J Power Sources, 196, 10369, 10.1016/j.jpowsour.2011.06.093

Kempton, 2005, Vehicle-to-grid power implementation: from stabilizing the grid to supporting large-scale renewable energy, J Power Sources, 144, 280, 10.1016/j.jpowsour.2004.12.022

Pina, 2008, Introduction of electric vehicles in an island as a driver to increase renewable energy penetration, 1108

Mathiesen, 2008, Integrated transport and renewable energy systems, Util Policy, 16, 107, 10.1016/j.jup.2007.11.007

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Ridjan, 2016, Terminology used for renewable liquid and gaseous fuels based on the conversion of electricity: a review, J Clean Prod, 112, 3709, 10.1016/j.jclepro.2015.05.117

Connolly, 2014, A comparison between renewable transport fuels that can supplement or replace biofuels in a 100% renewable energy system, Energy, 73, 110, 10.1016/j.energy.2014.05.104

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Thomsen, 2005, Measured performance of 12 demonstration projects—IEA Task 13 “advanced solar low energy buildings, Energy Build, 37, 111, 10.1016/j.enbuild.2004.01.036

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Kalogirou, 2015, Exergy analysis on solar thermal systems: a better understanding of their sustainability, Renew Energy, 1

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Lund, 2011, Marszal a., Heiselberg P. Zero energy buildings and mismatch compensation factors, Energy Build, 43, 1646, 10.1016/j.enbuild.2011.03.006

Persson, 2014, Heat Roadmap Europe: identifying strategic heat synergy regions, Energy Policy, 74, 663, 10.1016/j.enpol.2014.07.015

Broin, 2013, The effect of improved efficiency on energy savings in EU-27 buildings, Energy, 57, 134, 10.1016/j.energy.2013.01.016

Alev, 2014, Renovation alternatives to improve energy performance of historic rural houses in the Baltic Sea region, Energy Build, 77, 58, 10.1016/j.enbuild.2014.03.049

Lund, 2010, The role of district heating in future renewable energy systems, Energy, 35, 1381, 10.1016/j.energy.2009.11.023

Popescu, 2009, Simulation models for the analysis of space heat consumption of buildings, Energy, 34, 1447, 10.1016/j.energy.2009.05.035

Nielsen, 2012, Excess heat production of future net zero energy buildings within district heating areas in Denmark, Energy, 48, 23, 10.1016/j.energy.2012.04.012

Wilson, 2013, Historical daily gas and electrical energy flows through Great Britain's transmission networks and the decarbonisation of domestic heat, Energy Policy, 61, 301, 10.1016/j.enpol.2013.05.110

Best, 2015, Modeling and optimization of building mix and energy supply technology for urban districts, Appl Energy, 159, 161, 10.1016/j.apenergy.2015.08.076

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Aahman, 2015, Decarbonising industry in the EU - climate, trade and industrial policy strategies, 92

Edenhofer, 2014

EU Commission, 2014

IPCC, 2013

Akashi, 2011, A projection for global CO2 emissions from the industrial sector through 2030 based on activity level and technology changes, Energy, 36, 1855, 10.1016/j.energy.2010.08.016

Connolly, 2010, A review of computer tools for analysing the integration of renewable energy into various energy systems, Appl Energy, 87, 1059, 10.1016/j.apenergy.2009.09.026

Lund, 2012, The economic crisis and sustainable development: the design of job creation strategies by use of concrete institutional economics, Energy, 43, 192, 10.1016/j.energy.2012.02.075

Hvelplund, 2001

Østergaard, 2009, Reviewing optimisation criteria for energy systems analyses of renewable energy integration, Energy, 34, 1236, 10.1016/j.energy.2009.05.004

Østergaard, 2015, Reviewing EnergyPLAN simulations and performance indicator applications in EnergyPLAN simulations, Appl Energy, 154, 921, 10.1016/j.apenergy.2015.05.086

Lund, 2006

Mathiesen, 2009