A socio-technical investigation into the electrical end use patterns of information, communication and entertainment technologies in UK homes.

Information, communication and entertainment (ICE) appliances are consumer electronics and information and communication technologies (ICT). Forecasts suggest that ICE appliance use will soon become the most significant domestic electricity end-use in the UK. Knowledge concerning “real world” ICE electricity consumption is currently limited and it has been suggested that this deficiency could lead to ineffective policy programmes. This socio-technical study measured ICE appliance electricity consumption in fourteen UK households’ and undertook household interviews to explore the behavioural factors that influenced the measurements recorded. The interviews were informed by two social psychology theories: (i) Triandis’ (1977) Theory of Interpersonal Behaviour (TIB); (ii) Rogers’ (2003) Diffusion of Innovations Theory (DIT). The study supports the position that ICE appliance use and standby power consumption are significant electricity end-uses in UK homes. Key appliances that contributed to the sample’s average electricity consumption are identified. Inconspicuous electricity consumption from network appliances is an issue of particular concern due to policy gaps. The interviews found that a range of internal and external factors influenced ICE appliance use. Behavioural intentions and habits were found to be facilitated or impeded by personal ability, knowledge and physical constraints. Social structures and expectations also supported the more expansive ownership and use of ICE appliances and energy consumption was an issue largely excluded from adoption decisions. The findings imply that a multifaceted approach is required to reduce household ICE appliance electricity consumption. This study supports the recent implementation of minimum energy performance standards and provides further recommendations that include: (i) improved product design; (ii) the expansion of mandatory energy labelling; (iii) improved electricity consumption feedback in UK homes; (iv) the use of behaviour change campaigns; (v) the integration of ICE appliance energy saving objectives into UK policies

Korea's energy standards&labeling

노트 : Performance Improvements during the First 19 years and a Vision for the Futur

Standby and Off-Mode Energy Losses In New Appliances Measured in Shops

Selina project website at http://selina-project.eu PDF available online at http://selina-project.eu/files/SELINA_book.pdfInternational audienceThis document provides an overview of the most important results of the Intelligent Energy Europe (IEE) Project SELINA - Standby and Off-Mode Energy Losses In New Appliances Measured in Shops. Standby power is a general term commonly used to describe the low power modes in which many electrical and electronic products are, when not performing their main function. For more than a decade, it has been recognized that the energy consumption in low power modes for electrical and electronic products is an important issue because it represent permanent loads (sometimes up to 24 hours per day) of a huge number of products. With the 1 W standby initiative of the International Energy Agency (IEA), several low power mode measurement campaigns have been led on a regular basis in a number of countries outside and inside Europe Union (EU). Based on these results and on the Energy-using Products Study Lot 6, the EU has prepared new regulation to limit the standby and off-mode power consumption of non-networked household electronic and electrical equipment, which is being applied since January 2010. The IEE project SELINA carried out a large scale monitoring campaign in shops in order to characterise the low power modes of new appliances being sold in the EU market. In order to ensure consistency of the collected data, a common measurement methodology was developed and the same high resolution measurement equipment was used by all partners. This document analyzes the results of more than 6000 different equipments measured in the 12 EU countries involved in the project. Standby and off-mode values by product categories were analysed and compared with data from other regions of the World. The measurements were also benchmarked against the new 2010/2013 EU standby and off mode regulation thresholds and the impact of the EU regulation is discussed. It was found that 18.5% of the equipments, whose off-mode power was measured, do not respect the EU regulation threshold of 1 W. When the measurements are compared to the 2013 threshold of 0.5 W, this percentage raises up to 41.5%. Regarding standby mode input power, 31% of the measured products did not comply with EU regulation limit for the 2010 threshold. When the standby measured values are compared to the 2013 limit, the number of products over the EU regulation target increases to 66.4%. When comparing the 2009 and 2010 measurements, only a slight decrease of the share of appliances exceeding the EU regulation limits was observed. In parallel with the measurement campaign, an awareness study of the retailers was carried out. This survey helps to understand the customers' buying motivations and the influence of retailers' advice in their choices. The results of the survey show that, despite of retailer's consciousness about the energy consumption and energy labels of the products, other types of sales arguments like the appliance price or functionalities are more frequently used to sell a product. This could be due to lack of visible information in shops related to the equipment energy consumption. Furthermore, the results show that retailers try to adapt their advice to the customers' needs (price and product functionalities). The retailers admitted that publishing more information regarding the energy consumption of products and some kind of cost saving calculator/reference would make the clients to opt for more efficient equipments. Based on the survey results and on the analysis of different existing policies targeting electrical and electronic products in Europe, examples of policies to improve the low power modes situation of the EU market are reviewed. The survey on measures enhancing the market transformation towards more energy-efficient electrical appliances showed a wide range of actions and policy tools in the SELINA partner countries. In national workshops, which mainly took place in the late summer/early autumn 2010, these measures were presented and discussed with all relevant national stakeholders. In most countries, information campaigns (esp. brochures, leaflets, websites, and national labels) are the dominating measure type. In some countries, however, financial subsidies for very energy-efficient appliances, often paid by an energy utility and not by the government, play an important role, too (e.g. in the Czech Republic or Switzerland). In general, the impact of a financial programme is easier to quantify than the single impact of an information campaign, which often serves as an accompanying measure for regulations (labels, minimum efficiency standards) or fiscal and financial measures. International cooperation with key institutions outside the EU, involved in similar efforts, such as the IEA Implementing Agreement 4E (Efficient Electrical End-use Equipment) with an Annex on Standby, the Energy Star/EPA in USA, the Australia Standby Initiative and the Swiss Federal Office of Energy, were used to promote synergies in the definition of common approaches to characterize the market and to define realistic and cost-effective performance targets which can be achieved in a short time frame. Special care is required when promoting low standby consumption products (without consideration of other attributes) to ensure that there are no perverse effects such as the inadvertent promotion of products with low active mode efficiency and high energy consumption. It is desirable to follow a vertical approach to standby, where low power modes are combined with active modes to give total energy consumption. This approach is particularly preferable for products where the total energy consumption is significant. The definition of usage patterns under such a vertical approach is necessarily product specific and this could vary by region or country. The new technologies offer many opportunities for energy savings potential but there are also some threats which need to be recognized and understood. There is a strong need to ensure that energy saving paradigms and strategies become a core consideration in future product designs. It is recognized that equipments connected to networks are of growing importance. It is recommended that increased efforts to compile data and measurements, of networked products, from a variety of sources in order to obtain better information on networked product characteristics, needs to be made. An online database was created so that everyone can access the input power values, in the different equipment low power modes, of the more than 6000 equipments measured. A Standby Calculator Tool was also developed and can be accessed through the project website. It can be used to calculate the consumed energy, the annual cost and the equivalent CO2 emissions. In order to compare the results in an easy way, a diagram that shows the energy consumption of the different models is presented. Furthermore, the values for the most efficient device are also showed, in order to have an additional comparison. One of the main objectives of this project was to identify effective market transformation policies initiatives targeted at all the key stakeholders involved in the manufacture, distribution, sales, purchasing and operation of appliances with standby and off-mode losses. As a result of the future policy actions that may appear after the end of the project, considering loads in networked mode, it is expected to achieve very large cost-effective savings of electricity (80 TWh projected by 2020) and carbon emissions (30 MTons of CO2 by 2020)

Implementing low power consumption in standby mode in the case of power supplies with power factor correction

This work analyzes different options to implement low power consumption in Switching Mode Power Supplies (SMPSs) with Power Factor Correction (PFC) when they are in standby mode. The standard SMPSs for power levels higher than 100 W are made up of two stages: a classical PFC stage based on a Boost Converter operating in the Continuous Conduction Mode and a second stage based on any type of isolated DC-DC converter. The value of the resistive sensors needed by the PFC control stage determines a standby consumption higher than 0.5 W if the power supply has to be designed to operate in the Universal Range of line voltages. This fact makes it very difficult to comply with European Ecodesign Regulations. To overcome this problem, several solutions are proposed and analyzed in this paper, the most promising being implemented in a real SMPS prototype.This work has been supported by the Spanish Government under Project MINECO-13-DPI2013-47176-C2-2-R and the Principality of Asturias under the grant “Severo Ochoa” BP14-85 and by the Project FC-15-GRUPIN14-143 and by European Regional Development Fund (ERDF) grants.2017 Applied Power Electronics Conference and Exposition (APEC

Effect of bio fuel on performance and emissions of spark ignition and compression ignition engines by running on a variety of bio-fuels

Internal combustion engines are expected to continue to dominate as the major power source for automotive propulsion in the short to medium term in either major operating mode: spark ignition or compression ignition. An alternative way is needed in order to control the used of gasoline and diesel in a large quantity for a long period of time. An experimental investigation in this review paper was conducted to investigate the effect of bio fuel on performance and emissions of spark ignition and compression ignition engines by running on a variety of bio-fuels, including simulated bio-gas and commercial seed oil. Ricardo E6 variable-compression ratio research engine and dynamo meter fitted with a computer-based cylinder pressure display and processing system were used to run the bio-gas test in spark ignition engine. Single-cylinder direct-injection Gardner (IL2) research engine was used for seed oil bio-fuel test in compression ignition engine. The amount of carbon dioxide (CO2), nitrogen oxide (NOx) and emission for both engine ignitions were referred in this experiment. Besides, the performance for both ignition engines were referred as well. Compression–ignition engine operation with seed-oil derived bio-fuels leads to higher specific fuel consumption but not notably higher emissions of oxides of nitrogen or smoke, when compared with diesel fuel. Specific fuel consumption is lower comparable with spark-ignition engine operation with biogas and specific NOx emissions. Bio fuel is the best material to be used as the replacement for the petroleum such as diesel fuel and petrol fuel because the result shows that bio fuel gives the same performance for engine but with lower pollutants produced thus can reduced the air pollution