ebook img

Proceedings of the 9th international conference on Energy Efficiency in Domestic Appliances and ... PDF

652 Pages·2017·16.65 MB·English
by  
Save to my drive
Quick download
Download
Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.

Preview Proceedings of the 9th international conference on Energy Efficiency in Domestic Appliances and ...

Proceedings of the 9th international conference on Energy Efficiency in Domestic Appliances and Lighting (EEDAL '17) Part I Bertoldi, Paolo 2017 EUR 28961 EN This publication is a report by the Joint Research Centre (JRC), the European Commission’s science and knowledge service. It aims to provide evidence-based scientific support to the European policymaking process. The scientific output expressed does not imply a policy position of the European Commission. Neither the European Commission nor any person acting on behalf of the Commission is responsible for the use that might be made of this publication. Contact information Name: Bertoldi Paolo Address: European Commission, Joint Research Centre, Via Enrico Fermi 2749 - 21027 Ispra (VA), Italy Email: [email protected] Tel.: +39 0332789299 JRC Science Hub https://ec.europa.eu/jrc JRC109209 EUR 28961 EN PDF ISBN 978-92-79-77172-9 ISSN 1831-9424 doi:10.2760/264880 Print ISBN 978-92-79-77169-9 ISSN 1018-5593 doi:10.2760/667696 Luxembourg: Publications Office of the European Union, 2017 © European Union, 2017 Reuse is authorised provided the source is acknowledged. The reuse policy of European Commission documents is regulated by Decision 2011/833/EU (OJ L 330, 14.12.2011, p. 39). For any use or reproduction of photos or other material that is not under the EU copyright, permission must be sought directly from the copyright holders. How to cite this report: P. Bertoldi, Proceedings of the 9th international conference on Energy Efficiency in Domestic Appliances and Lighting (EEDAL '17): Part I, EUR 28961 EN, Publications Office of the European Union, Luxembourg, 2017, ISBN 978-92-79-77172-9, doi:10.2760/264880, JRC109209. All images © European Union 2017 Contents ABSTRACT ............................................................................................................ 1 1 INTRODUCTION ................................................................................................. 2 2 BUILDING SIMULATION ...................................................................................... 4 A Multi-Input Forward Converter for Renewable Sources ...................................................... 5 Understanding the value of information in residential building simulation: Comparing simulated and actual building loads at the circuit level ......................................................................... 12 3 POLICIES AND PROGRAMMES ........................................................................... 29 Impacts of a Loophole in US Fluorescent Lamp Efficiency Standards ..................................... 30 Evaluating energy savings from replacement of old refrigerators ........................................... 41 Assessing the Cost-Effective Energy Saving Potential from Top-10 Appliances in India ............... 51 The Advanced Cooling Market Tracker: Monitoring deployment of climate-friendly cooling technology worldwide ............................................................................................................ 70 Baseline Evaluation and Policy Implications for Air Conditioners in Indonesia ........................... 81 Soup to Nuts on NEBs – Methods, Results, and Application at the Utility and the Regulatory Level . 96 The National Top Runner Initiative (NTRI) in Germany – Retailers as gatekeepers between manufacturers and consumers. How to address retailers to promote energy efficient appliances .. 109 Addressing Growing Plug-Load Energy Consumption with an Innovative Program Design – Results of the ENERGY STAR Retail Products Platform Pilot ......................................................... 116 Leading the Way with Most Efficient Products: International Comparative Analysis of Most Efficient Product Recognition Programs and Implications for China’s New Energy Efficiency Top Runner Program ............................................................................................................ 136 Impacts of Common Domestic Products Outside the Use Phase: A Literature Review and Program Strategies .......................................................................................................... 150 Loans for One and All: Examining the Equity of Energy Efficiency Financing in Rhode Island ...... 161 It’s nothing to write about? How EU-Member States address appliances in their National Energy Efficiency Action Plans ........................................................................................... 171 Effects of promoting electrification and energy efficiency improvement in the building sector for achievement of the climate target keeping below 2℃ ....................................................... 183 Rhode Island Renewable Thermal Market Strategy – An Analysis of Energy, Environmental, Economic, Energy Bill, and Local Job Impacts of an Alternative Renewable Thermal Energy Future for Rhode Island ...................................................................................................... 198 Energy efficiency reduces the rate of national greenhouse gas emissions ............................. 212 Metrics to Assess the Value of National Market Monitoring, Verification and Enforcement Programmes –Phase I ........................................................................................................... 223 Topten: moving with the times to continue delivering energy savings ................................... 233 Customer Targeting: From the Ivory Tower to the Town ................................................... 246 4 BUILDINGS ................................................................................................... 261 Identifying Opportunities for Saving Energy through U.S. Building Code Compliance ................ 262 Learning the Best from the Best ................................................................................ 272 Economic impacts of deploying different battery technologies and a time-of-use electricity pricing in a Brazilian commercial building ................................................................................... 285 i "No-carbon-future" smart building technology ................................................................ 299 Using BIM to enhance the ESCO services used in the setting up of Neighbourhood Management Systems in China ................................................................................................. 304 DC Appliances and DC Power Distribution: A Bridge to the Future Net Zero Energy Home ......... 316 5 CONSUMER BEHAVIOUR ................................................................................. 328 Smart Home Consumers: Comparing Self-reported and Observed Attitudes........................... 329 Behavior Program Retention Results: The Latest .......................................................... 344 Tier 2 Advanced Power Strips – Revisiting behavior based models for estimation of savings in laboratory and field trial evaluations ........................................................................... 353 Cooking: consumer`s influence on energy consumption ................................................... 379 Investigation of consumer’s behaviour towards investments in household energy efficient appliances 386 Resident experiences using load management devices in an Australian monitored low-energy housing development ....................................................................................................... 401 Quantile regression to estimate residential electricity rebound effect: Price and energy efficiency effect 414 How People Are Using Home Appliances in Southeast Asian Countries? - Evidence from a Comparative Analysis of Southeast Asia and Japan - ...................................................... 423 Why do consumers in Europe not use an automatic dishwasher to clean their dishes? .............. 441 Finding the "Reach" in Outreach to Change Behaviors .................................................... 458 Consumer behaviour in food preparation and its impacts on energy consumption .................... 466 Hot and Cold: Harnessing consumers’ different decision making styles to drive energy efficient purchasing of appliances ........................................................................................ 472 Clean energy campaigning that promotes civic engagement among Spanish- and English-speaking parents .............................................................................................................. 489 Learning from the Feet on the Street: Lessons from Studying Those Who Work with Underserved Populations ........................................................................................................ 501 Characteristics or Culture?: Determinants of Household Energy Use Behavior in China, Germany, and the U.S. ............................................................................................................. 515 6 MONITORING ................................................................................................ 550 Tracking the energy efficiency of whitegoods in Australia .................................................. 551 How has the European White Goods market changed in the past 10 years? – Analysis based on sales data reveals constant improvements, contradictory trends, and big successes for a new technology. 565 Trends in Residential Energy Consumption in the EU and Impact of Energy Efficiency Policies .... 579 Residential Consumer Electronics Energy Consumption in the United States in 2017................ 594 7 SMART HOMES .............................................................................................. 605 Home Energy Management Systems: An Overview ........................................................ 606 Smarter Together? A Stakeholder Analysis of Perspectives on Home Energy Management ........ 615 Using Human Gestures to Control a Building’s Heating and Cooling System .......................... 627 What if We Made a Smart Home and Nobody Came? ..................................................... 636 ii ABSTRACT This book in three volumes contains the papers presented at the ninth international conference on Energy Efficiency in Domestic Appliances and Lighting. EEDAL'2017 organised in Irvine, CA, USA by California Plug Load Research Center (CalPlug) at the University of California, Irvine on 13-15 September 2017. This major international conference has been very successful in attracting an international community of stakeholders consumption (including manufacturers, consumers, governments, international organisations, academia and experts) dealing with residential appliances, equipment, metering, lighting, residential building energy to discuss the progress achieved in technologies, behavioural aspects and policies, the strategies that need to be implemented to further progress this important work. Potential readers who may benefit from this book include researchers, engineers, policymakers, and all those who can influence the design, selection, application, and operation of electrical appliances and residential buildings. 1 1 INTRODUCTION This book in three volumes contains the Proceedings of the ninth international conference on Energy Efficiency in Domestic Appliances and Lighting. EEDAL'2017 organised in Irvine, CA, USA by California Plug Load Research Center (CalPlug) at the University of California, Irvine on 13-15 September 2017. The international community of stakeholders dealing with residential equipment, metering and lighting (manufacturers, retailers, consumers, governments, utilities, international organisations and agencies, academia and experts, etc.) have already gathered eight times at the International Conference on Energy Efficiency in Domestic Appliances and Lighting (EEDAL) (Florence 1997, Naples 2000, Turin 2003, London 2006, Berlin 2009, Copenhagen 2011, Coimbra 2013, Lucerne 2015, Irvine 2017). EEDAL'17 has provide a unique forum to discuss and debate the latest developments in energy and environmental impact of residential appliances and lighting, heating and cooling equipment, electronics, smart appliances, smart meters, consumer behaviour, the policies and programmes both adopted and planned. EEDAL will also address the technical and commercial advances in the dissemination and penetration of technologies and solutions. The three-day conference included plenary sessions where key representatives of governments and international organisations, manufacturers utilities, and academia presented their views and programmes to advance energy efficiency in residential appliances and lighting, for example, through international co-operation on product information and eco-design requirements. Scientific parallel sessions on specific themes and topics allowed in-depth discussions among participants. The EEDAL '17 conference papers presented in the scientific session included in the Proceedings covered the following topics: 1. Lifestyles and Consumer Behaviour 2. Global Climate Change Mitigation Policy 3. Focus on Developing Countries and Emerging Economies 4. Strategies for Increasing Efficiency 5. Standards and Labels 6. Measurement Methods and International Harmonisation 7. Market surveillance and enforcement mechanisms 8. Market Transformation Programmes 9. Smart Meters, Data Analytics, and End-use Metering 10. Demand Response 11. Energy Services, Energy Efficiency Funds, Demand Side Management and ESCOs 12. Programme and Policies Monitoring & Evaluation 13. Designing for Diversity 14. Non Energy Benefits 15. Financing 16. Home and Residential Building Retrofit Programmes 17. Residential Appliances/White Goods 18. Residential HVAC and Water Heaters 19. Electronics, Home Office Equipment, Broadband Communication Equipment, and Low Power Modes 20. Residential Lighting 21. Motor Technologies 2 22. Smart and Clean On-site (residential) Power Generation 23. Net Zero Energy Residential Building and positive buildings 24. Smart Appliances, Home Automation, Smart Homes, Home Robots and Smart Grids: Communities. Cities and Aggregation 25. Off-Grid Appliances and Energy Access 3 2 BUILDING SIMULATION 4 A Multi-Input Forward Converter for Renewable Sources M. Máximo1, N. Vázquez1, R. Osorio2, C. Hernández1 1Instituto Tecnológico de Celaya, Electronics Department, Celaya, México 2Universidad de Guadalajara, Engineering Department, Ameca, México Abstract Multi-input DC-DC converters have been developed to be used in sources as renewable energies. Photovoltaic PV panels are traditionally arranged in more than one modules in order to increase the power system; with the purpose of obtaining the maximum power point a converter for each panel could be used, or a multi-input converter that is able to control independently each input. These multi- input converters can be hybrid, this is the energy should come from solar panels, fuel cells, and/or wind turbines. They may be used to administrate the energy of the system; this type of converter also should be part of micro-grids. In this paper a multi-input Forward converter is proposed for lighting applications, it obtains the energy from two solar panels and a battery is used as a backup system in the proposed topology. The multi- input Forward converter is described through its operating modes. To verify the performance of the proposed converter, the simulation is shown in open loop by using PSIM software. Introduction Pollution around the world is increasing every day and the energy’s production from fossil fuel sources, which are slowly decreasing. Due to climate change, it has been searched for others energy sources as solar energy and wind energy. Renewable sources are key for clean energy production [1], this fact shows the importance of using sustainable energy. Power electronics is increasing the opportunities to use these sources by developing technology in devices and power converters. The dc-dc power converters are suitable to be used in these applications, they can be isolated or non-isolated. Non-isolated converters as Buck, Boost, Buck-Boost, and integrated topologies have been designed as multi-input systems in order to use renewable sources, such as fuel cells, solar panels and/or wind generators [2-5]. They can be for use in micro-grid, portable electronics, and automobile applications. The Boost and Buck converters are popular in a wide range of power ratings. Flyback, Forward, SEPIC, Full-bridge, and Half-bridge are isolated converters, they are used because of the capacity for output isolation from input through a transformer. Considering several windings transformer, it can provide more inputs and outputs. In [6] a review of multi-input topologies is presented that includes isolated and non-isolated converters; also the differences between these converters are detailed, and then, a good perspective about isolated converters is obtained. However, these converters have disadvantages in volume and cost because the addition of a transformer to obtain isolation. The use of isolated dc-dc converter for lighting applications is important to study the advantages of its performance. Flyback and Forward converters are widely used and commonly modified as in [7], due to their flexibility in turns ratio design. A Flyback converter that combines three renewable inputs sources and works with one system controller is proposed in [8]. This topology is shown in Fig. 1, it has just one transformer primary winding and uses three series buck converters to combine the multiple input sources. Another converter based on the Flyback converter is shown in [9]. This topology works with coupled inductors for its operation. The input sources are two: the renewable inputs and a battery backup system, as it can be seen in Fig. 2. 5 Figure 1. Flyback multi-input topology proposed in [8] Figure 2. Multi-input Flyback converter with battery backup In [10] a multi-input converter is proposed based on a forward-type isolated pulsating voltage source cell and a SEPIC. This topology is shown in Fig. 3. The topology has two inputs and they are from renewable sources: the PV panel and the wind turbine, the aim of this topology is to operate as a battery charger system. Figure 3. S-MIC as a battery charger system 6

Description:
New York44: In the mid-2000s, NYSERDA incorporated NEBs into their program evaluation work, and modeled with the Colorado and. NYSERDA work, the case was ultimately made in VT to incorporate NEBs – specifically a marginalised and could fail to have any impact. Establishing a robust
See more

The list of books you might like

Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.