Academic literature on the topic 'Household energy systems'
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Journal articles on the topic "Household energy systems"
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Dörre, Elias, Sebastian Pfaffel, Alexander Dreher, Pedro Girón, Svenja Heising, and Kay Wiedemann. "Flexibility Reserve of Self-Consumption Optimized Energy Systems in the Household Sector." Energies 14, no. 11 (May 23, 2021): 3017. http://dx.doi.org/10.3390/en14113017.
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Energy generation and consumption in the power grid must be balanced at every single moment. Within the synchronous area of continental Europe, flexible generators and loads can provide Frequency Containment Reserve and Frequency Restoration Reserve marketed through the balancing markets. The Transmission System Operators use these flexibilities to maintain or restore the grid frequency when there are deviations. This paper shows the future flexibility potential of Germany’s household sector, in particular for single-family and twin homes in 2025 and 2030 with the assumption that households primarily optimize their self-consumption. The primary focus is directed to the flexibility potential of Electric Vehicles, Heat Pumps, Photovoltaics and Battery Storage Systems. A total of 10 different household system configurations were considered and combined in a weighted average based on the scenario framework of the German Grid Development Plan. The household generation, consumption and storage units were simulated in a mixed-integer linear programming model to create the time series for the self-consumption optimized households. This solved the unit commitment problem for each of the decentralized households in their individual configurations. Finally, the individual household flexibilities were evaluated and then aggregated to a Germany-wide flexibility profile for single-family and twin homes. The results indicate that the household sector can contribute significantly to system stabilization with an average potential of 30 GW negative and 3 GW positive flexibility in 2025. In 2030, the corresponding flexibilities potentially increase to 90 GW and 30 GW, respectively. This underlines that considerable flexibility reserves could be provided by single-family and twin homes in the future.
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Powroźnik, Piotr, Robert Szulim, Wiesław Miczulski, and Krzysztof Piotrowski. "Household Energy Management." Applied Sciences 11, no. 4 (February 11, 2021): 1626. http://dx.doi.org/10.3390/app11041626.
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Ensuring flexibility and security in power systems requires the use of appropriate management measures on the demand side. The article presents the results of work related to energy management in households in which renewable energy sources (RES) can be installed. The main part of the article is about the developed elastic energy management algorithm (EEM), consisting of two algorithms, EEM1 and EEM2. The EEM1 algorithm is activated in time periods with a higher energy price. Its purpose is to reduce the power consumed by the appliances to the level defined by the consumer. In contrast, the EEM2 algorithm is run by the Distribution System Operator (DSO) when peak demand occurs. Its purpose is to reduce the power of appliances in a specified time period to the level defined by the DSO. The optimization tasks in both algorithms are based on the Greedy Randomized Adaptive Search Procedure (GRASP) metaheuristic algorithm. The EEM1 and EEM2 algorithms also provide energy consumer comfort. For this purpose, both algorithms take into account the smart appliance parameters proposed in the article: sections of the working devices, power reduction levels, priorities and enablingof time shifting devices. The EEM algorithm in its operation also takes into account the information about the production of power, e.g., generated by the photovoltaic systems. On this basis, it makes decisions on the control of smart appliances. The EEM algorithm also enables inverter control to limit the power transferred from the photovoltaic system to the energy system. Such action is taken on the basis of the DSO request containing the information on the power limits. Such a structure of EEM enables the balancing of energy demand and supply. The possibility of peak demand phenomenon will be reduced. The simulation and experiment results presented in the paper confirmed the rationality and effectiveness of the EEM algorithm.
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Ahvenniemi, Hannele, and Tarja Häkkinen. "Households’ potential to decrease their environmental impacts." International Journal of Energy Sector Management 14, no. 1 (January 6, 2020): 193–212. http://dx.doi.org/10.1108/ijesm-02-2019-0009.
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Purpose The purpose of this paper is to quantify the potential levels of greenhouse gas (GHG) and cost savings from a set of households’ energy saving measures, considered as “everyday choices”. Design/methodology/approach Four areas of living were selected for the study: household electricity, space heating, transport and food consumption. The study used a quantitative research approach in which the impact of selected scenarios of an average Finnish household was assessed. Findings Findings suggest that GHG savings from behavioural change regarding household electricity remain marginal in comparison to savings gained from transportation related measures. Transportation also provides the most cost-efficient ways to decrease GHGs but not in all cases. Based on the results, the authors suggest that smart technologies, such as on-line, active feedback systems could have a major role in guiding household energy use. Also, given the high GHG savings from transport, the authors highlight the importance of providing infrastructure and services for clean mobility, and in designing well-functioning and compact cities enabling shorter travels. Originality/value The aim of our study was twofold – by analysing the case household’s choices, we obtained information on environmental and economic impacts, but in addition to this, the aim was to open discussion on the role of households in tackling climate change and how to support households in making sustainable choices. Although research regarding household energy behaviour is vast, so far very few studies have focused on both economic and environmental impacts of households’ everyday actions.
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Oota, Masato, Yumiko Iwafune, and Ryozo Ooka. "Estimation of Self-Sufficiency Rate in Detached Houses Using Home Energy Management System Data." Energies 14, no. 4 (February 12, 2021): 975. http://dx.doi.org/10.3390/en14040975.
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Japan’s energy consumption in 2018 was about 2.5 times that in 1975, with the increase in the household sector being the largest at 28%. Most of primary energy is still fossil fuel, and it is urgent to reduce energy consumption in the household sector. The purpose of this paper was to identify ways to reduce household energy consumption without compromising the quality of life in residence. However, the reduction methods vary by region, building specifications, household type, equipment specifications, season, and weather. The value of this paper is based on a systematic analysis of home energy management systems (HEMS) data from about 50,000 households under various conditions. We are analyzing ways to reduce energy consumption. Few studies have analyzed this much back-up data, which is likely to lead to a reduction in CO2 emissions across the household sector. To explore ways to reduce energy consumption in this sector, the company has introduced and provided services for home energy management systems (HEMS) since 2011 and is currently collecting HEMS data for up to 50,000 households. In order to grasp the actual state of energy consumption in each household, HEMS data are systematically analyzed, necessary conditions for energy reduction and self-sufficiency rate (SSR) improvement are analyzed, and energy consumption under certain conditions is estimated using storage batteries (SB) and heat pump water heaters (HPWH). In addition, energy consumption was investigated by actual measurement and simulation for several hundred households. Since power generation and consumption vary greatly depending on the region, building specifications, household type, equipment specifications, season, weather, etc., it is necessary to analyze these factors systematically. As a conclusion, in order to improve SSR, it is necessary to (1) reduce surplus power consumption and energy consumption of heat pump water heaters (HPWHs), (2) increase solar power generation, and (3) increase the size of SB. This study contributes to the spread of advanced housing and the reduction of CO2 emissions in the household sector.
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Amankwah, Desmond. "Analysis of Household Energy Efficiency in developing countries using the Long Energy Alternative Planning System (Case Study: Ghana)." Journal of Energy and Natural Resource Management 3, no. 2 (February 24, 2018): 56–65. http://dx.doi.org/10.26796/jenrm.v3i2.59.
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Ghana continues to face periodic energy crisis particularly in the power sector. The dominant household energy fuels in Ghanaare mainly biomass, oil products and hydropower. Efficient and wise use of available resources would consequently reduce theeffects and scarcity of these energy resources and make energy more accessible to many households in future. The objective ofthis paper is to use the LEAP model to develop three scenaria to depict a business as usual, assumed lower (10%) and higher(30%) energy savings on household energy intensities by 2030. Key factors relevant in the analysis included current and futurehousehold size, economic growth and saturation of household energy appliances. The results of this research shows a 30%reduction in total household energy consumption thus, higher energy saving scenario which would save about 1,552 ktoe andreduce GHG emission by 1,077.2 ktCO2 equivalent as compared to the baseline scenario by 2030. This scenario would reducehealth risk associated with biomass use and save households income on fuel. Effective implementation of policies and lawsbanning inefficient household electrical devices such as refrigerators, air-conditioners and lighting bulbs is necessary. In addition,awareness on energy savings on improved cooking stoves and automatic lighting control systems in buildings is beneficial inachieving this target. Meanwhile programs and policies in Ghana should aim at barriers in renewable energy technologies toensure its significance in the household energy mix.
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Keesstra, Saskia, Tamara Metze, Linda Ofori, Marleen Buizer, and Saskia Visser. "What Does the Circular Household of the Future Look Like? An Expert-Based Exploration." Land 11, no. 7 (July 12, 2022): 1062. http://dx.doi.org/10.3390/land11071062.
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Circularity is a necessity for the future of our society but individual households often find it difficult to contribute to this transition. This paper presents possible future visions of circular (and climate-neutral) households, inside and outside the house, regarding their contributions to the circular society, and taking into account food, energy, waste, household devices, and recreation. We combined expert interviews and a literature review to (1) explore imaginable futures for circular households, and (2) make a qualitative evaluation of the inside- and outside-house influences of households on a climate-neutral and circular society. Interviewees were selected to represent different scientific backgrounds. The four household types were organized according to more local or global, and collective or individual, levels: (1) the Househood (centering around neighborhoods); (2) the HouseNet (connecting households); (3) the Sharing Household (sharing goods between households); and (4) the Designing Household (input from circular-by-design products). The analysis shows that households can become more circular by connecting developments in social, ecological, and technological systems, such as those in price dynamics, policies, or land-use design. However, barriers and limitations need attention, including: (1) public awareness and willingness to change; (2) economic models; (3) waste; and (4) social justice.
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Pysar, Nadiia, Viktoriia Chornii, Andriy Bandura, and Yevgen Khlobystov. "Methods for estimating “Fuel poverty” in public administration and management systems." Problems and Perspectives in Management 16, no. 2 (June 13, 2018): 341–52. http://dx.doi.org/10.21511/ppm.16(2).2018.31.
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The Ukrainian energy market has been analyzed region-wise in terms of consumption of fuel and energy resources by household sector. Critical aspects of improving energy security have been reflected in the context of the use of energy resources. The principal directions of the socially responsible market economy system have been offered in the light of the country’s economic security in terms of overcoming “fuel poverty”. Cognitive features of the “fuel poverty” phenomenon have been defined. Mathematical modeling of the “fuel poverty” index has been carried out using the following approaches: “after fuel cost poverty”; energy expenditure above 10% of disposable income; the Low Income – High Costs, where households with relatively high energy costs and low income are emphasized. A model of the final calculation of household energy costs has been developed for the purpose of optimal management. The graphical abstract of the obtained “fuel poverty” index solutions has been presented, with the upper left corner – low income – high costs – serving as a critical zone. The block diagram of improving the socially responsible market economy system in the light of overcoming “fuel poverty” has been offered.
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Bartolucci, Lorenzo, Stefano Cordiner, Vincenzo Mulone, and Joao Luis Rossi. "Hybrid renewable energy systems for household ancillary services." International Journal of Electrical Power & Energy Systems 107 (May 2019): 282–97. http://dx.doi.org/10.1016/j.ijepes.2018.11.021.
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Alrawi, Omar, Islam Safak Bayram, Muammer Koc, and Sami G. Al-Ghamdi. "Economic Viability of Rooftop Photovoltaic Systems and Energy Storage Systems in Qatar." Energies 15, no. 9 (April 21, 2022): 3040. http://dx.doi.org/10.3390/en15093040.
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Renewable energy sources and sustainability have been attracting increased focus and development worldwide. Qatar is no exception, as it has ambitious plans to deploy renewable energy sources on a mass scale. Qatar may also investigate initiating and permitting the deployment of rooftop photovoltaic (PV) systems for residential households. Therefore, a research gap has been introduced regarding the system design, grid compatibility, economic viability, and energy consumption produced from household rooftop PV systems. Additionally, the lack of supporting policies and a feed-in tariff creates further research and development topics. Therefore, using collected data regarding household power consumption and rooftop PV generation, the purposes of this research study are as follows: (1) determining the economic aspects and practicality of using energy storage systems for self-consumption values; and (2) evaluating the economic viability of rooftop PV systems under different policies and electricity rate schemes. The insights of the results of this study can serve as a stepping stone for decisions and policymakers regarding the application of rooftop PV systems in Qatar. This study utilizes empirical evidence and an economic model to evaluate rooftop PV systems in Qatar and can also be applicable in the middle east region. A few studies in the region produce complementary results, which further supports our findings; however, what makes this paper unique is the use of different economic tools and real collected data while investigating multiple economic and energy policy scenarios.
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Poniatowska-Jaksch, Małgorzata. "Energy Consumption in Central and Eastern Europe (CEE) Households in the Platform Economics." Energies 14, no. 4 (February 14, 2021): 1002. http://dx.doi.org/10.3390/en14041002.
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The ongoing digitization of the economy has led to the creation and functioning of platform model socio-economic systems. It is also reflected in the changes in patterns of energy consumption in households. In the first cross-section, it is an industrial revolution, with environmental benefits. However, platforms are primarily a revolution in the consumption sphere, and here, the effects of digitization are not fully recognized. Our social needs are increasingly met “through accessibility” without us leaving our home. Due to the home’s multifunctionality, based on the availability of platform services, household energy consumption should be viewed differently today than before. The article aims to show the changes in Central and Eastern Europe (CEE) household energy consumption between 2008–2018 and their assessment through the prism of the economy’s platformization methods. The study presents the changes in energy consumption in households and determines the correlations between platformization (the author’s index) and changes in energy consumption in households with the use of taxonomic methods. The platformization leaders—Estonia and Lithuania—were subjected to a more detailed analysis. The presented method(s) may be useful in predicting the changes in households’ energy consumption caused by the digitization of other countries in the region (countries under transformation and outsiders-Bulgaria, Romania), in implementing household energy management systems, and in a better adjustment of regulations directed at these consumers.
Dissertations / Theses on the topic "Household energy systems"
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Björk, Erik. "Energy Efficiency Improvements in Household Refrigeration Cooling Systems." Doctoral thesis, KTH, Tillämpad termodynamik och kylteknik, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-93061.
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This thesis is based on eight articles all related to the characteristics of the cooling system and plate evaporator of a household refrigerator. Through these articles, knowledge is provided that can be used to increase the operational efficiency in household refrigeration. Papers A, B and C focus on heat transfer and pressure drop in a commonly used free convection evaporator – the plate evaporator. Applicable correlations are suggested on how to estimate the air side heat transfer, the refrigerant side pressure drop and the refrigerant side heat transfer. Papers D, E and F hold a unique experimental study of the refrigerant charge distribution in the cooling system at transient and steady state conditions. From this cyclic losses are identified and estimated and ways to overcome them are suggested. In paper G the topic “charging and throttling” is investigated in an unparalleled experimental study based on more than 600 data points at different quantities of charge and expansions device capacities. It results in recommendations on how to optimize the capillary tube length and the quantity of refrigerant charge. Finally, Paper H holds a thermographic study of the overall cooling system operating at transient conditions. Overall, a potential to lower the energy use by as much as 25 % was identified in the refrigerator studied. About 10 % was found on the evaporator’s air side. 1-2 % was identified as losses related to the edge effect of the evaporator plate. About 8 % was estimated to be cyclic losses. About 5 % was found in cycle length optimization. It is believed that most of these findings are of general interest for the whole field of household refrigeration even though the results come from one type of refrigerator. Suggestions of simple means to reduce the losses without increasing the unit price are provided within the thesisQC 20120411
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Schutte, Adriaan Nicholaas. "A bi-directional, direct conversion converter for use in household renewable energy systems." Thesis, Stellenbosch : University of Stellenbosch, 2009. http://hdl.handle.net/10019.1/1726.
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Thesis (MScIng (Electrical and Electronic Engineering))--University of Stellenbosch, 2009.A bi-directional, direct conversion switch-mode converter is proposed for use in distributed household renewable energy systems. The converter is intended as the central interface between the household energy system’s low voltage Direct Current bus and the high voltage Alternating Current bus. The low voltage DC bus is connected to renewable generation and storage devices, while the high voltage AC bus is connected to the user’s equipment and the mains grid. The converter overcomes the inherent reverse-duty cycle problem associated with bi-directional converters by using a combination step-up / step-down half-bridge converter on the high voltage side of a high frequency transformer. The low voltage side of the transformer is driven by a full bridge inverter that acts as a rectifier during reverse mode. In order to control the flow of power in both directions the converter implements Average Current Mode Control. A method is developed to determine the transfer functions of common switch-mode converters by inspection alone. This method is applied to the proposed converter, and both current and voltage mode control loops are designed with the frequency response method. The control system is implemented using a Digital Signal Processor. A method of simultaneously simulating both the converter hardware and software is developed using VHDL. This method greatly reduced the development effort of the converter. The operation of the proposed converter is verified through this method of simulation. A prototype converter is constructed and successfully tested, thereby proving the viability of the proposed converter topology and control methodology.
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Oladokun, Michael Gbolagade. "Dynamic modelling of the socio-technical systems of household energy consumption and carbon emissions." Thesis, Heriot-Watt University, 2014. http://hdl.handle.net/10399/2827.
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There is a growing need to curtail the carbon emissions in the globe in order to achieve the climate stabilisation goals based on the climate change threat. And as such, different initiatives and schemes of Government have targeted a number of policies at reducing energy and carbon emissions targets with the housing sector of the economy not an exception. In order to explore the feasibility of achieving carbon emissions reduction targets within the housing sector of the UK, the research views the issue of household energy consumption and carbon emissions as complex sociotechnical problem involving the analysis of both the social and technical variables. This thesis therefore describes the development of the system dynamics based model to capture and solve the problem relating to the future profiles of household energy consumption and carbon emissions by providing a policy advice tool for use by the policy makers. In order to investigate the problem, the research adopts the pragmatist research strategy involving collection of both qualitative and quantitative data to develop the model. The developed model has six modules, which are: population/household, dwelling internal heat, occupants’ thermal comfort, climatic-economic-energy efficiency interaction, household energy consumption, and household CO2 emissions. In addition to the ‘baseline’ scenario, the developed model was used to develop four illustrative scenarios of household energy consumption and carbon emissions; which are: ‘efficiency’ scenario, ‘behavioural change’ scenario, ‘economic’ scenario, and ‘integrated’ scenario. The ‘efficiency’ scenario generally considers the effects of improvements in energy efficiency measures on household energy consumption and ultimately on household carbon emissions. Additionally, the ‘behavioural change’ scenario tries to model the effects of occupants’ change of energy consumption behaviour on household energy consumption and carbon emissions profile. The ‘economic’ scenario assumes a case of policy change by Government favouring energy prices reduction, thereby reducing the energy bills payable by the householders and its consequences on household energy consumption and carbon emissions. And the ‘integrated’ scenario combines the assumptions in the first three scenarios and then analyses its effects on household energy consumption and carbon emissions. The ‘baseline’ results indicate that about 49% savings in carbon emissions by the year 2050 below the base year of 1990 are possible. Additionally, the results of the developed model for all the illustrative scenarios indicate that carbon emissions savings of 46%, 55%, 58%, and 63% below the base year of 1990 are possible from the ‘economic’, ‘efficiency’, ‘behavioural change’, and ‘integrated’ scenarios respectively. The research concludes that it is unlikely for any of the scenarios by its own to meet the required legally binding reductions of 80% cut in carbon emissions by 2050 unless this is vigorously pursued. The unique contribution of the research is the development of a model that incorporates socio-technical issues that can be used for decision making over time.
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Kjeang, Are. "Goda råd är inte dyra! : Om personlig energirådgivning i ett alltmer digitaliserat samhälle." Licentiate thesis, Karlstads universitet, Institutionen för ingenjörs- och kemivetenskaper (from 2013), 2018. http://urn.kb.se/resolve?urn=urn:nbn:se:kau:diva-68486.
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”Nu är goda råd dyra”, heter det sedan gammalt i en svensk krissituation. I denna licentiatavhandling, vars rubrik kopplar till talesättet, behandlas svensk energirådgivnings utveckling och framtid. Forskning visar att i ett alltmer digitaliserat samhälle behöver energirådgivningen utvecklas för att bättre nå målgrupperna - hushåll, småföretag och organisationer. Digitala tjänster ger många möjligheter, men den viktiga personliga kontakten med energirådgivaren går inte att ersätta fullt ut. Med hjälp av fokusgrupper, intervjuer och samtal med energirådgivare, villaägare och enskilda experter har kunnat konstateras att den personligt genomförda rådgivningstjänsten är efterfrågad, angelägen och framgångsrik när byte av värmesystem, större ombyggnationer eller nybyggnationer är aktuellt. Att pröva idéer och lösningar, helst i hemmamiljön inför en ombyggnad, är uppskattad rådgivning. I samtalet, där inte enbart tekniska detaljer och lönsamhet diskuteras, kan alla i hushållet engageras. Energirådgivningen kan bli mer framgångsrik, men då krävs ett större kommunalt engagemang och en tydligare samverkan med andra statliga styrmedel. Hållbara råd kan alla få i Sverige idag och de goda råden är gratis! Med hjälp av dessa kan kanske kriser undvikas…Att använda energin effektivare än vad som görs idag inom både industri, transporter och byggnader är en väg till ett mer hållbart samhälle. Den rika delen av världen har här ett speciellt ansvar. I Sverige har den kommunala energirådgivningen under närmare fyrtio år varit ett av statens styrmedel för att på olika sätt bistå lokala beslutsfattare att effektivisera energianvändningen, men också öka andelen förnybar energi i systemet. Denna licentiatavhandling har studerat energirådgivningen under tidsperioden, men också dokumenterat och analyserat rådgivningen ur ett samhällsperspektiv. Forskning visar att i ett alltmer digitaliserat samhälle behöver energirådgivningen utvecklas för att bättre nå målgrupperna - hushåll, småföretag och organisationer. Internet är idag den vanligaste sökvägen för de som önskar information kring energirelaterade frågor. Digitala tjänster ger många möjligheter, men den viktiga personliga kontakten med energirådgivare går inte att ersätta fullt ut. I studien har fokusgrupper, intervjuer och samtal med energirådgivare, villaägare och enskilda experter genomförts och analyserats. Resultat visar att den personligt genomförda rådgivningstjänsten är efterfrågad, angelägen och framgångsrik när byte av värmesystem, större ombyggnationer eller nybyggnationer är aktuellt. Studien visar också att personliga samtal med energirådgivare är värdefullt för att pröva idéer och lösningar som är hämtade från internet samt att hemmet är den lämpligaste platsen för framgångsrik rådgivning. I denna situation är rådgivarens sociala kompetens central. Kvinnors synpunkter och erfarenheter har ofta gått förlorade. Vidare har ett för stort fokus lagts på tekniska detaljer och lönsamhet, medan många beslut tas av miljöskäl eller sociala orsaker som upplevd ökad komfort. Energirådgivningen kan bli mer framgångsrik, men då krävs ett större kommunalt engagemang och en tydligare samverkan med andra statliga styrmedel.
Improving the efficiency of energy use across all the sectors – industrial, transport and households – is one of the many necessary approaches to be adopted to ensure sustainable development. The countries of the developing world have to play a key role in such a transition. In Sweden, for close to half a century now, the municipal energy-advising function has been a governmental instrument to support decision-makers in bringing about systemic changes to improve energy efficiency on the one hand and the share of renewable energy in the mix, on the other. This licentiate thesis has its focus on this function over the said time-period. It has also documented and analysed the energy-advising function from a social perspective. The research shows that in an increasingly-digitalised society, energy-advising must be developed further to be able to reach and impact different categories of energy users – households, small and medium scale enterprises and organisations – more effectively. The Internet happens to be the first resort of most people seeking information on energy-related issues, these days. Digital services do offer a range of possibilities but cannot substitute for the much-needed personal contact, which is provided by the energy-advising function. In this thesis, focus groups, interviews and conversations with energy advisers, homeowners and experts have been availed of, and subsequently analysed. The results also show that personal energy advice is actually popular, indispensable and effective, where replacement of interior heating systems, refurbishment or new building constructions are concerned. This research also shows that interactions with energy advisers are useful to test and verify the suitability of ideas and solutions obtained from the Internet. Besides, the home in which these solutions may eventually be tried out, is the perfect place for having such conversations. In this context, the social skills of the energy adviser assume paramount importance. It has been noticed that the viewpoints and experiences of women in households have often been ignored. Further, the focus on finding solutions has sometimes been narrowed down to the technical and economic aspects, while at other times, decisions have been based on environmental or social factors like maintenance of comfort levels. In order to make the energy advising function more effective and avail of what it has to offer for the journey towards greater sustainability, it needs to be given the importance it deserves by the municipalities and there is also a need of stronger interplay among the other governmental instruments.
Bo och leva energieffektivt. Kommunal energirådgivning som medspelare i människors vardag
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Bengtsson, Peder. "Apply heat pump systems in commercial household products to reduce environmental impact : How to halve the electricity consumption for a household dishwasher." Doctoral thesis, Karlstads universitet, Institutionen för ingenjörs- och kemivetenskaper, 2017. http://urn.kb.se/resolve?urn=urn:nbn:se:kau:diva-48132.
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In the household appliance industry, heat pump systems have been used for a long time in refrigerators and freezers to cool food, and the industry has driven the development of small, high-quality, low-price heat pump components. In the last few decades, heat pump systems have been introduced in other household appliances, with the express purpose of reducing electricity consumption. Heat pump tumble dryers have been on the market since 2000 and dominate the market today. A heat pump dishwasher was introduced on the market in 2014 and a heat pump washing machine in 2016. The purpose of adding a heat pump system in these three products was to decrease electricity consumption. Papers I and II used a methodology where transient simulation models were developed and used to increase knowledge about how to decrease electricity consumption for a tumble dryer and a dishwasher by adding a heat pump system. Papers II to V showed that a lower electricity consumption and lower global warming potential together with an energy-efficient drying method, where no humid air evacuates to the kitchen, give a heat pump dishwasher competitive advantages compared to any conventional dishwasher currently on the market. Using simulations, this dissertation concludes that a future commercial heat pump dishwasher, using R600a as a refrigerant, will reduce electricity consumption and total equivalent warming impact (TEWI) by 50% compared to the conventional dishwasher. The willingness from the customer chain to pay extra for this heat pump dishwasher is because of the decreases electricity consumption and the fact that no humid air evacuates to the kitchen. This willingness makes the heat pump dishwasher to a variant which have possibility to succeed on the future market. The challenge for the manufacturer is to develop and produce a high-quality heat pump dishwasher with low electricity consumption, predict future willingness to pay for it, and launch it on the market at the right moment with the right promotion in order to succeed.The competition in the household appliances industry is strong. Manufacturers are continuously trying to develop, produce and sell product functions and features with good profit. To continually develop new features that the customer chain is willing to pay for is a key factor for a manufacturer to survive. In this study has a heat pump system been added as a new feature to a dishwasher. The first heat pump dishwasher was introduced on the market in 2014 and the heat pump system was only used to heat the dishwasher. Comparing that first heat pump dishwasher was a new closed drying method introduced in this study where no humid air evacuates to the kitchen. Experiments and simulations showed that a dishwasher with an added heat pump system can decrease the total electricity consumption by 50% when cleaning and drying the dishware comparing to an on market conventional dishwasher. The willingness from the customer chain to pay extra for this heat pump dishwasher is because of the decreases in electricity consumption and the fact that no humid air evacuates to the kitchen. This willingness makes the heat pump dishwasher to a variant which have possibility to succeed on the future market.
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Hassling, Andreas, and Simon Flink. "SYSTEM IDENTIFICATION OF A WASTE-FIRED CFB BOILER : Using Principal Component Analysis (PCA) and Partial Least Squares Regression modeling (PLS-R)." Thesis, Mälardalens högskola, Akademin för ekonomi, samhälle och teknik, 2017. http://urn.kb.se/resolve?urn=urn:nbn:se:mdh:diva-34979.
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Heat and electricity production along with waste management are two modern day challenges for society. One of the possible solution to both of them is the incineration of household waste to produce heat and electricity. Incineration is a waste-to-energy treatment process, which can reduce the need for landfills and save the use of more valuable fuels, thereby conserving natural resources. This report/paper investigates the performance and emissions of a municipal solid waste (MSW) fueled industrial boiler by performing a system identification analysis using Principle Component Analysis (PCA) and Partial Least Squares Regression (PLS-R) modeling. The boiler is located in Västerås, Sweden and has a maximum capacity of 167MW. It produces heat and electricity for the city of Västerås and is operated by Mälarenergi AB. A dataset containing 148 different boilers variables, measured with a one hour interval over 2 years, was used for the system identification analysis. The dataset was visually inspected to remove obvious outliers before beginning the analysis using a multivariate data analysis software called The Unscrambler X (Version 10.3, CAMO Software, Norway). Correlations found using PCA was taken in account during the PLSR modelling where models were created for one response each. Some variables had an unexpected impact on the models while others were fully logical regarding combustion theory. Results found during the system analysis process are regarded as reliable. Any errors may be due to outlier data points and model inadequacies.
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Moran, Enrique. "Improving waste management systems from households in Peru. : An economic, social and ecologic profitable investment." Thesis, Linnéuniversitetet, Institutionen för byggd miljö och energiteknik (BET), 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:lnu:diva-54504.
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In the waste management system of Peru, there is a lot to fix, change and improve from households areas. In this report is presented why and how necessary is the construction of landfills to have an appropriate place to dispose the waste of the collection .At the same time, the report shows how profitable can be from social, economic and ecologic way, with the investment of treatment plants that use biogas from the landfills to produce energy. Differents solutions – vehicle fuel production, electricity generation etc – are discussed in light of the different economy, geography and social situation in three selected cases.
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Bennich, Amelie. "Improving energy security for individual households during outages : A simulation study for households in Sweden." Thesis, Uppsala universitet, Fasta tillståndets fysik, 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-374825.
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In this study, it was investigated how individual households could manage security of supply during an outage by installing a local energy system that could operate independently from the electricity grid. By installing local renewable off-grid energy systems, households could guarantee an uninterrupted supply of energy even during an outage on the electricity grid, while also increasing their energy autonomy during normal circumstances. The results showed that managing an outage during summer was fairly easy. Due to high electricity production, a small energy storage was enough to manage an outage during summer. However, managing an outage during winter was more critical. During winter, the systems needed to be almost fully reliant on the energy storage. This significantly increased the cost of these systems. Due to the high cost for the energy systems today, it was not considered a feasible solution to improve energy security at a national level. However, at a local level, this was considered to have the potential to improve energy security. First, it could to be of interest for people who already have installed solar panels, who could add a battery and thereby be able to manage an outage during summer. Second, it could be of interest for people who are more exposed to outages or have a low trust in the system to work properly. Lastly, this could be of interest for actors for whom backup energy is important, for instance for the industry.
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Haluza, Miroslav. "Využití znalostních systémů a bází pro výběr a hodnocení domovních elektroinstalací." Doctoral thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2017. http://www.nusl.cz/ntk/nusl-364605.
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My doctoral thesis deals with use of the sophisticated methods for the selection of technical and economic solution of electrical wiring. This solution is based not only on a price but also on many other criteria such as a comfort, service, durability etc. The focus of the work is a treatise on wiring systems from a global perspective, where it is impossible to use a conventional approach for objective evaluation and selection of the appropriate electrical wiring system (because of the complexity of such systems and their interdependencies). In the four chapter are given information of an energy consumption (the total consumption and household consumption). In this chapter is given also a consumption prediction – especially for households. Following is an overview of possible measures for reducing electricity consumption in households. In the next part of this thesis are solved the knowledge, respectively expert systems for use in an electrical engineering – especially for a suitable tool for the selection and evaluation of households wiring electrical system. The result of this work provides a possible solution for a selection of wiring electrical system for households (focusing on the intelligent wiring) – from a technical and economic point of view and with using an innovative approach. The main contribution of this work is a proposal of the main part of the knowledge base. This base could be as a basis for knowledge, respectively for an evaluating technical and economical solution of an electrical wiring system – the expert system includes also a feedback function of an effectiveness solution, use value, price etc., which would also serve as a knowledge base.
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Opio, Peter. "Household energy information management system for Africa : a Ugandan case study." Master's thesis, University of Cape Town, 2003. http://hdl.handle.net/11427/11145.
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Bibliography: leaves 86-89.An information database built through regular planned surveys in a comprehensive manner is the objective of this study. A foundation for periodic up-date of household energy is necessary and requires a proper institutional or structural set up that gives priority to household energy issues. This study explores the fundamental need to shift away from the current ad hoc surveys to a more reliable, systematic, comprehensive and financially effective way of conducting household energy surveys to generate household energy information that is representative of national picture and which supports effective planning and policy-making. Promotion of the importance of the household energy sector in terms of social equity and improved living standards is vital for investors, developers, financiers and policy-makers and planners to improve the sector. Thus the study addresses the appropriate way of obtaining comprehensive household energy information and harmonized data collection methodology through cooperation in information exchange amongst African countries to achieve comparability of data for a common African energy database.
Books on the topic "Household energy systems"
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1956-, Markandey Kalpana, and Geeta Reddy A. 1957-, eds. Urban growth theories and settlement systems of India. New Delhi: Concept Pub. Co., 2011.
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Kasanen, Pirkko. The choice of heating systems and fuels by households in Finland. Turku: [Turun yliopisto, Maantieteen laitos], 1990.
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Nazarov, Vyacheslav, Roman Sandu, and Dmitriy Makarenkov. Technique and technology of combined processing of solid waste. ru: INFRA-M Academic Publishing LLC., 2020. http://dx.doi.org/10.12737/996365.
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The educational manual provides information about industrial and domestic waste. The properties of the lithosphere and the soil components. The estimation of soil pollution by industrial and household waste. The peculiarities of classification of wastes and provides criteria for determining risk. Describe the General pattern of the combined methods of processing that use mechanical, physical, thermal and biothermal recycling processes. In detail the construction described granulating equipment, methods of intensification of processes, process flow sheets and engineering calculation methods. Special attention is given to the thermal methods of waste treatment, process lines, constructions of furnaces and reactors. On the basis of the system approach with use of data of environmental monitoring are considered the methodology for selecting the most available technology.
Meets the requirements of Federal state educational standards of higher education of the last generation.
Intended for independent work of undergraduates majoring in 20.04.01 "Technospheric safety" (master level), 20.03.01 "Technosphere safety" (bachelor level), 18.03.01 "Chemical technology" 18.03.02 "Energy and resource saving processes in chemical technology, petrochemistry and biotechnology". Can be useful for engineers and technicians of chemical industry and related industries.
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Inc, E. Source, ed. E Source technology atlas series. Boulder, Colo., USA: E Source, 1997.
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Lorenzen, Janet A. The Limits of Household Change. Edited by Debra J. Davidson and Matthias Gross. Oxford University Press, 2018. http://dx.doi.org/10.1093/oxfordhb/9780190633851.013.11.
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Several factors limit the ability of households to conserve energy or transition to alternative energy sources, even when individuals are motivated to do so. This chapter is organized around several forms of fossil-fuel dependency: economic, organizational, and societal lock-in. For illustrative examples, it draws on 45 interviews from three groups who are attempting to reduce their consumption of energy, water, and consumer goods: voluntary simplifiers, religious environmentalists, and green homeowners. Economic, organizational, and societal constraints guide consumption patterns down certain paths and resist change. In order to make new paths more widely available, systemic changes and upstream solutions are required.
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Olsson, Gustaf. Clean Water Using Solar and Wind: Outside the Power Grid (Persian Translation). IWA Publishing, 2022. http://dx.doi.org/10.2166/9781789062953.
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Solar photo-voltaic (PV) and wind offer to bring both clean energy and clean water to remote regions and peri-urban areas in the world, outside the conventional electric grids. One out of seven people has no electric power available that would bring light to the home, cook the food, pump to access water and purify or re-use it. Off-grid systems are scalable and can be designed to any size, from household to village and community levels. The renewable energy cost development is remarkable and can make electric power affordable also for the poorest. Renewables promise an end to the era where energy security is closely related to geopolitics. The expenditure is up-front capital cost while “fuel” is free. With renewables, there is no geopolitical pressure where one country has deposits of a fossil fuel while another does not. This book aims to show how clean water and clean energy are reachable for all while contributing to both a better climate and a healthier life. ISBN: 9781789062953 (eBook)
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Sengupta, Ramprasad. Entropy Law, Sustainability, and Third Industrial Revolution. Oxford University Press, 2020. http://dx.doi.org/10.1093/oso/9780190121143.001.0001.
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In mankind’s relentless quest for prosperity, Nature has suffered great damage. It has been treated as an inexhaustible reserve of resources. The indefinite scale of global expansion is still continuing and now the earth’s very survival is under threat. But against this exploitation of nature, there is the concept of entropy, which places a finite limit on the extent to which resources can be used in any closed system, such as our planet. Considering the impact of entropy, this book examines the key issues of sustainability—social, economic, and environmental. It discusses the social dimension of sustainability, showing how it is impacted by issues of economic inequality, poverty, and other socio-economic and infrastructural factors in the Indian context. It also highlights how Indian households suffer from clean energy poverty and points to the inequality in distribution of different fuels and of fuel cost among households. It assesses India’s power sector and its potential to be a significant player in bringing the Third Industrial Revolution to India by replacing fossil fuels with new renewables. It concludes by projecting power sector scenarios till 2041–42 achievable through alternative, realizable policy with respect to energy conservation and fuel substitution, and thus paves the way for the green power.
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Shengelia, Revaz. Modern Economics. Universal, Georgia, 2021. http://dx.doi.org/10.36962/rsme012021.
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Economy and mankind are inextricably interlinked. Just as the economy or the production of material wealth is unimaginable without a man, so human existence and development are impossible without the wealth created in the economy. Shortly, both the goal and the means of achieving and realization of the economy are still the human resources. People have long ago noticed that it was the economy that created livelihoods, and the delays in their production led to the catastrophic events such as hunger, poverty, civil wars, social upheavals, revolutions, moral degeneration, and more. Therefore, the special interest of people in understanding the regulatory framework of the functioning of the economy has existed and exists in all historical epochs [A. Sisvadze. Economic theory. Part One. 2006y. p. 22]. The system of economic disciplines studies economy or economic activities of a society. All of them are based on science, which is currently called economic theory in the post-socialist space (the science of economics, the principles of economics or modern economics), and in most countries of the world - predominantly in the Greek-Latin manner - economics. The title of the present book is also Modern Economics. Economics (economic theory) is the science that studies the efficient use of limited resources to produce and distribute goods and services in order to satisfy as much as possible the unlimited needs and demands of the society. More simply, economics is the science of choice and how society manages its limited resources. Moreover, it should be emphasized that economics (economic theory) studies only the distribution, exchange and consumption of the economic wealth (food, beverages, clothing, housing, machine tools, computers, services, etc.), the production of which is possible and limited. And the wealth that exists indefinitely: no economic relations are formed in the production and distribution of solar energy, air, and the like. This current book is the second complete updated edition of the challenges of the modern global economy in the context of the coronary crisis, taking into account some of the priority directions of the country's development. Its purpose is to help students and interested readers gain a thorough knowledge of economics and show them how this knowledge can be applied pragmatically (professionally) in professional activities or in everyday life. To achieve this goal, this textbook, which consists of two parts and tests, discusses in simple and clear language issues such as: the essence of economics as a science, reasons for origin, purpose, tasks, usefulness and functions; Basic principles, problems and peculiarities of economics in different economic systems; Needs and demand, the essence of economic resources, types and limitations; Interaction, mobility, interchangeability and efficient use of economic resources. The essence and types of wealth; The essence, types and models of the economic system; The interaction of households and firms in the market of resources and products; Market mechanism and its elements - demand, supply and price; Demand and supply elasticity; Production costs and the ways to reduce them; Forms of the market - perfect and incomplete competition markets and their peculiarities; Markets for Production Factors and factor incomes; The essence of macroeconomics, causes and importance of origin; The essence and calculation of key macroeconomic indicators (gross national product, gross domestic product, net national product, national income, etc.); Macroeconomic stability and instability, unemployment, inflation and anti-inflationary policies; State regulation of the economy and economic policy; Monetary and fiscal policy; Income and standard of living; Economic Growth; The Corona Pandemic as a Defect and Effect of Globalization; National Economic Problems and New Opportunities for Development in the conditions of the Coronary Crisis; The Socio-economic problems of moral obsolescence in digital technologies; Education and creativity are the main solution way to overcome the economic crisis caused by the coronavirus; Positive and negative effects of tourism in Georgia; Formation of the middle class as a contributing factor to the development of tourism in Georgia; Corporate culture in Georgian travel companies, etc. The axiomatic truth is that economics is the union of people in constant interaction. Given that the behavior of the economy reflects the behavior of the people who make up the economy, after clarifying the essence of the economy, we move on to the analysis of the four principles of individual decision-making. Furtermore, the book describes how people make independent decisions. The key to making an individual decision is that people have to choose from alternative options, that the value of any action is measured by the value of what must be given or what must be given up to get something, that the rational, smart people make decisions based on the comparison of the marginal costs and marginal returns (benefits), and that people behave accordingly to stimuli. Afterwards, the need for human interaction is then analyzed and substantiated. If a person is isolated, he will have to take care of his own food, clothes, shoes, his own house and so on. In the case of such a closed economy and universalization of labor, firstly, its productivity will be low and, secondly, it will be able to consume only what it produces. It is clear that human productivity will be higher and more profitable as a result of labor specialization and the opportunity to trade with others. Indeed, trade allows each person to specialize, to engage in the activities that are most successful, be it agriculture, sewing or construction, and to buy more diverse goods and services from others at a relatively lower price. The key to such human interactions is that trade is mutually beneficial; That markets are usually the good means of coordination between people and that the government can improve the results of market functioning if the market reveals weakness or the results of market functioning are not fair. Moroever, it also shows how the economy works as a whole. In particular, it is argued that productivity is a key determinant of living standards, that an increase in the money supply is a major source of inflation, and that one of the main impediments to avoiding inflation is the existence of an alternative between inflation and unemployment in the short term, that the inflation decrease causes the temporary decline in unemployement and vice versa. The Understanding creatively of all above mentioned issues, we think, will help the reader to develop market economy-appropriate thinking and rational economic-commercial-financial behaviors, to be more competitive in the domestic and international labor markets, and thus to ensure both their own prosperity and the functioning of the country's economy. How he/she copes with the tasks, it is up to the individual reader to decide. At the same time, we will receive all the smart useful advices with a sense of gratitude and will take it into account in the further work. We also would like to thank the editor and reviewers of the books. Finally, there are many things changing, so it is very important to realize that the XXI century has come: 1. The century of the new economy; 2. Age of Knowledge; 3. Age of Information and economic activities are changing in term of innovations. 1. Why is the 21st century the century of the new economy? Because for this period the economic resources, especially non-productive, non-recoverable ones (oil, natural gas, coal, etc.) are becoming increasingly limited. According to the World Energy Council, there are currently 43 years of gas and oil reserves left in the world (see “New Commersant 2007 # 2, p. 16). Under such conditions, sustainable growth of real gross domestic product (GDP) and maximum satisfaction of uncertain needs should be achieved not through the use of more land, labor and capital (extensification), but through more efficient use of available resources (intensification) or innovative economy. And economics, as it was said, is the science of finding the ways about the more effective usage of the limited resources. At the same time, with the sustainable growth and development of the economy, the present needs must be met in a way that does not deprive future generations of the opportunity to meet their needs; 2. Why is the 21st century the age of knowledge? Because in a modern economy, it is not land (natural resources), labor and capital that is crucial, but knowledge. Modern production, its factors and products are not time-consuming and capital-intensive, but science-intensive, knowledge-intensive. The good example of this is a Japanese enterprise (firm) where the production process is going on but people are almost invisible, also, the result of such production (Japanese product) is a miniature or a sample of how to get the maximum result at the lowest cost; 3. Why is the 21st century the age of information? Because the efficient functioning of the modern economy, the effective organization of the material and personal factors of production largely depend on the right governance decision. The right governance decision requires prompt and accurate information. Gone are the days when the main means of transport was a sailing ship, the main form of data processing was pencil and paper, and the main means of transmitting information was sending letters through a postman on horseback. By the modern transport infrastructure (highways, railways, ships, regular domestic and international flights, oil and gas pipelines, etc.), the movement of goods, services and labor resoucres has been significantly accelerated, while through the modern means of communication (mobile phone, internet, other) the information is spreading rapidly globally, which seems to have "shrunk" the world and made it a single large country. The Authors of the book: Ushangi Samadashvili, Doctor of Economic Sciences, Associate Professor of Ivane Javakhishvili Tbilisi State University - Introduction, Chapters - 1, 2, 3, 4, 5, 6, 9, 10, 11,12, 15,16, 17.1,18 , Tests, Revaz Shengelia, Doctor of Economics, Professor of Georgian Technical University, Chapters_7, 8, 13. 14, 17.2, 17.4; Zhuzhuna Tsiklauri - Doctor of Economics, Professor of Georgian Technical University - Chapters 13.6, 13.7,17.2, 17.3, 18. We also thank the editor and reviewers of the book.
Book chapters on the topic "Household energy systems"
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Siderius, Hans-Paul. "Home Electronic Systems." In Energy Efficiency in Household Appliances, 615–22. Berlin, Heidelberg: Springer Berlin Heidelberg, 1999. http://dx.doi.org/10.1007/978-3-642-60020-3_74.
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Chen, Bin, Tasawar Hayat, and Ahmed Alsaedi. "Energy Evaluation of Household Biogas Project." In Biogas Systems in China, 65–73. Berlin, Heidelberg: Springer Berlin Heidelberg, 2017. http://dx.doi.org/10.1007/978-3-662-55498-2_5.
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Imran, Muhammad. "Rural Household Energy Systems in Developing Countries." In Encyclopedia of the UN Sustainable Development Goals, 1–12. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-319-71057-0_131-1.
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Imran, Muhammad. "Rural Household Energy Systems in Developing Countries." In Encyclopedia of the UN Sustainable Development Goals, 1118–29. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-319-95864-4_131.
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Qin, Zhengrui, and Qun Li. "Household Electrical Load Scheduling Algorithms with Renewable Energy." In Wireless Algorithms, Systems, and Applications, 387–99. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-94268-1_32.
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Macaluso, M., and C. De Masi. "Operazione “Caldaia Sicura” Maintenance and Inspection Campaign for Heating Systems." In Energy Efficiency in Household Appliances and Lighting, 177–81. Berlin, Heidelberg: Springer Berlin Heidelberg, 2001. http://dx.doi.org/10.1007/978-3-642-56531-1_23.
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Crosetti, Michael, and Philippe Durand. "Household Photovoltaic Systems in Developing Countries: Experience, Issues, and Outlook." In Tenth E.C. Photovoltaic Solar Energy Conference, 1348–50. Dordrecht: Springer Netherlands, 1991. http://dx.doi.org/10.1007/978-94-011-3622-8_336.
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Andrada, Luis, and Luciano Ranalli. "Promotion of Consulting Center Establishment for Energy Efficiency Lighting Systems Implementation in Kharkov (Ukraine)." In Energy Efficiency in Household Appliances and Lighting, 341–42. Berlin, Heidelberg: Springer Berlin Heidelberg, 2001. http://dx.doi.org/10.1007/978-3-642-56531-1_39.
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Barriuso, Alberto L., Álvaro Lozano, Daniel H. de la Iglesia, Gabriel Villarrubia, and Juan F. de Paz. "Household Occupancy Detection Based on Electric Energy Consumption." In Highlights of Practical Applications of Agents, Multi-Agent Systems, and Complexity: The PAAMS Collection, 223–31. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-94779-2_20.
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Stoyanov, Ivaylo, Teodor Iliev, Grigor Mihaylov, Elena Ivanova, and Panagiotis Kogias. "Smart Grid Communication Protocols in Intelligent Service for Household Energy Use." In Advances in Intelligent Systems and Computing, 380–89. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-67618-0_35.
Full textConference papers on the topic "Household energy systems"
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Veit, Andreas, Christoph Goebel, Rohit Tidke, Christoph Doblander, and Hans-Arno Jacobsen. "Household electricity demand forecasting." In e-Energy '14: The Fifth International Conference on Future Energy Systems. New York, NY, USA: ACM, 2014. http://dx.doi.org/10.1145/2602044.2602082.
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vom Scheidt, Frederik, Xinyuan Dong, Andrea Bartos, Philipp Staudt, and Christof Weinhardt. "Probabilistic Forecasting of Household Loads." In e-Energy '21: The Twelfth ACM International Conference on Future Energy Systems. New York, NY, USA: ACM, 2021. http://dx.doi.org/10.1145/3447555.3464861.
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Hasselqvist, Hanna, Sara Renström, Maria Håkansson, and Helena Strömberg. "Exploring Renewable Energy Futures through Household Energy Resilience." In CHI '22: CHI Conference on Human Factors in Computing Systems. New York, NY, USA: ACM, 2022. http://dx.doi.org/10.1145/3491102.3517597.
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Wu, Jiantao, Fabrizio Orlandi, Tarek AlSkaif, Declan O'Sullivan, and Soumyabrata Dev. "Ontology Modeling for Decentralized Household Energy Systems." In 2021 International Conference on Smart Energy Systems and Technologies (SEST). IEEE, 2021. http://dx.doi.org/10.1109/sest50973.2021.9543327.
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"Service-Oriented Architecture for Household Energy Management." In 4th International Workshop on Enterprise Systems and Technology. SciTePress - Science and and Technology Publications, 2010. http://dx.doi.org/10.5220/0004465400510068.
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Mengelkamp, Esther, and Christof Weinhardt. "Clustering Household Preferences in Local Electricity Markets." In e-Energy '18: The Ninth International Conference on Future Energy Systems. New York, NY, USA: ACM, 2018. http://dx.doi.org/10.1145/3208903.3214348.
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Alfaverh, Fayiz, Mouloud Denai, and Khaldoon Alfaverh. "Demand-Response Based Energy Advisor for Household Energy Management." In 2019 Third World Conference on Smart Trends in Systems Security and Sustainablity (WorldS4). IEEE, 2019. http://dx.doi.org/10.1109/worlds4.2019.8904042.
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Jafari-Marandi, Ruholla, Mengqi Hu, and Souma Chowdhury. "A System of System Approach for Smart Complex Energy System Operation Decision." In ASME 2015 International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. American Society of Mechanical Engineers, 2015. http://dx.doi.org/10.1115/detc2015-47415.
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The emerging technology in smart grids enables a bi-directional communication between buildings and power grids. Not only can a building request energy from power grid, but it is also able to sell surplus energy back to power grid or to its neighborhood buildings. The vision is that multiple residential houses can freely form a smart complex to share energy and exchange information, which is expected to reduce energy consumption and achieve significant energy cost savings. However, the study of the operation decisions of a smart complex with multiple residential buildings is limited in the literature. To address this research gap, this paper proposes a System of Systems (SoS) approach to investigate the smart complex operation that considers a residential complex setting where all of the households are connected to one another through the complex virtual decision making level, while maintaining their preferred comfort level. The core objective of the proposed model is to minimize the cost of energy for all of the households in the complex which can freely share energy and exchange information. Each household has the flexibility to maintain its comfort level while minimizing the energy cost. Two mathematical models are presented: (i) at complex level, and (ii) at household level. Although each household is given the freewill to set its comfort levels while optimizing energy costs, the interconnection of these houses with shared renewable energy systems and a complex size battery can boost the load shifting. To derive the operation decision for the smart complex, a genetic algorithm (GA) is developed, and a case study is used to test the efficiency of this GA. It was found that the GA provides acceptable levels of convergence within a reasonable time frame, thereby exhibiting potential for use in real-time decision making in the smart grid context.
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Kokolanski, Zivko, Tomislav Shuminoski, and Cvetan Gavrovski. "Architectures and Challenges for the Household Energy Management Systems." In 2018 IEEE XXVII International Scientific Conference Electronics (ET). IEEE, 2018. http://dx.doi.org/10.1109/et.2018.8549610.
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Choi, Woo-Young. "Grid-Tied Zeta Inverter for Household Energy Storage Systems." In 2022 IEEE International Conference on Consumer Electronics-Asia (ICCE-Asia). IEEE, 2022. http://dx.doi.org/10.1109/icce-asia57006.2022.9954799.
Full textReports on the topic "Household energy systems"
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Adams, Sophie, Lisa Diamond, Tara Esterl, Peter Fröhlich, Rishabh Ghotge, Regina Hemm, Ida Marie Henriksen, et al. Social License to Automate: Emerging Approaches to Demand Side Management. IEA User-Centred Energy Systems Technology Collaboration Programme, October 2021. http://dx.doi.org/10.47568/4xr122.
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The Social License to Automate Task has investigated the social dimensions of user engagement with automated technologies in energy systems to understand how end-user trust to automate is built and maintained in different jurisdictions and cultural settings. The rapid uptake of renewable energy systems will require new automated technologies to balance energy supplies. Some developers are looking to locate these in households where energy is being used. This saves moving the energy from centralised generation sites (remote hydro, solar or wind). This report details the findings from a 2 year project with 16 researchers in 6 countries, 26 Case studies spanning electric vehicles, home and precinct batteries, air conditioners and other heat pumps.
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Grubb, Michael. Navigating the crises in European energy: Price Inflation, Marginal Cost Pricing, and Principles for Electricity Market Redesign in an Era of Low-Carbon Transition. Institute for New Economic Thinking Working Paper Series, September 2022. http://dx.doi.org/10.36687/inetwp191.
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The energy crisis engulfing Europe is a crisis of both gas and electricity markets, with huge cost impacts on consumers across all European countries. In Britain, half of typical household energy expenditure arises from electricity. This paper examines how the cost of gas-powered generation feeds through to electricity bills, on the principle of marginal cost pricing, setting the price for most of the time though it accounts for only about 40% of GB generation. Combined with the steep decline in wind and solar costs over the past decade, this has resulted in an unprecedented degree of ‘cost inversion’ in the electricity system. We offer estimates of the increase of revenues across the wholesale market, and outline five principles for reform for addressing the combined challenges of energy costs and accelerating low-carbon transition.
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Petitet, Marie, Frank Felder, and Khalid Alhadhrami. One Year After the Texas Blackout: Lessons for Reliable and Resilient Power Systems. King Abdullah Petroleum Studies and Research Center, June 2022. http://dx.doi.org/10.30573/ks--2022-dp09.
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In February 2021, Texas experienced an extreme cold snap causing a dramatic electricity blackout that left millions of households without electricity, resulting in over 200 fatalities and economic damages of approximately $100 billion. The Texas blackout has been used to support a variety of claims regarding renewable energy, electricity markets and climate change. We identify the blackout’s drivers and what has been learned since then. These lessons apply to power systems worldwide, including those of the Gulf Cooperation Council and the broader Middle East and North Africa region.
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Poyer, D. A. A comparative analysis of energy demand and expenditures by minority and majority households within the context of a conditional demand system. Office of Scientific and Technical Information (OSTI), August 1992. http://dx.doi.org/10.2172/10166910.
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Ferguson, Thomas, and Servaas Storm. Myth and Reality in the Great Inflation Debate: Supply Shocks and Wealth Effects in a Multipolar World Economy. Institute for New Economic Thinking Working Paper Series, January 2023. http://dx.doi.org/10.36687/inetwp196.
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This paper critically evaluates debates over the causes of U.S. inflation. We first show that claims that the Biden stimulus was the major cause of inflation are mistaken: the key data series – stimulus spending and inflation – move dramatically out of phase. While the first ebbs quickly, the second persistently surges. We then look at alternative explanations of the price rises. We assess four supply side factors: imports, energy prices, rises in corporate profit margins, and COVID. We argue that discussions of COVID’s impact have thus far only tangentially acknowledged the pandemic’s far-reaching effects on labor markets. We conclude that while all four factors played roles in bringing on and sustaining inflation, they cannot explain all of it. There really is an aggregate demand problem. But the surprise surge in demand did not arise from government spending. It came from the unprecedented gains in household wealth, particularly for the richest 10% of households, which we show powered the recovery of aggregate US consumption expenditure especially from July 2021. The final cause of the inflationary surge in the U.S., therefore, was in large measure the unequal (wealth) effects of ultra-loose monetary policy during 2020-2021. This conclusion is important because inflationary pressures are unlikely to subside soon. Going forward, COVID, war, climate change, and the drift to a belligerently multipolar world system are all likely to strain global supply chains. Our conclusion outlines how policy has to change to deal with the reality of steady, but irregular supply shocks. This type of inflation responds only at enormous cost to monetary policies, because it arises mostly from supply-side difficulties that require targeted solutions. But when supply plummets or becomes more variable, fiscal policy also has to adapt: existing explorations of ways to steady demand over the business cycle have to embrace much bolder macroeconomic measures to control over-spending when supply is temporarily constrained.
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Eneroth, Hanna, Hanna Karlsson Potter, and Elin Röös. Environmental impact of coffee, tea and cocoa – data collection for a consumer guide for plant-based foods. Department of Energy and Technology, Swedish University of Agricultural Sciences, 2022. http://dx.doi.org/10.54612/a.2n3m2d2pjl.
Full textAbstract:
In 2020, WWF launched a consumer guide on plant-based products targeting Swedish consumers. The development of the guide is described in a journal paper (Karlsson Potter & Röös, 2021) and the environmental impact of different plant based foods was published in a report (Karlsson Potter, Lundmark, & Röös, 2020). This report was prepared for WWF Sweden to provide scientific background information for complementing the consumer guide with information on coffee, tea and cocoa. This report includes quantitative estimations for several environmental categories (climate, land use, biodiversity and water use) of coffee (per L), tea (per L) and cocoa powder (per kg), building on the previously established methodology for the consumer guide. In addition, scenarios of consumption of coffee, tea and cocoa drink with milk/plant-based drinks and waste at household level, are presented. Tea, coffee and cacao beans have a lot in common. They are tropical perennial crops traditionally grown in the shade among other species, i.e. in agroforestry systems. Today, the production in intensive monocultures has negative impact on biodiversity. Re-introducing agroforestry practices may be part of the solution to improve biodiversity in these landscapes. Climate change will likely, due to changes in temperature, extreme weather events and increases in pests and disease, alter the areas where these crops can be grown in the future. A relatively high ratio of the global land used for coffee, tea and cocoa is certified according to sustainability standards, compared to other crops. Although research on the implications of voluntary standards on different outcomes is inconclusive, the literature supports that certifications have a role in incentivizing more sustainable farming. Coffee, tea and cocoa all contain caffeine and have a high content of bioactive compounds such as antioxidants, and they have all been associated with positive health outcomes. While there is a strong coffee culture in Sweden and coffee contributes substantially to the environmental impact of our diet, tea is a less consumed beverage. Cocoa powder is consumed as a beverage, but substantial amounts of our cocoa consumption is in the form of chocolate. Roasted ground coffee on the Swedish market had a climate impact of 4.0 kg CO2e per kg powder, while the climate impact of instant coffee powder was 11.5 kg CO2e per kg. Per litre, including the energy use for making the coffee, the total climate impact was estimated to 0.25 kg CO2e per L brewed coffee and 0.16 kg CO2e per L for instant coffee. Less green coffee beans are needed to produce the same amount of ready to drink coffee from instant coffee than from brewed coffee. Tea had a climate impact of approximately 6.3 kg CO2 e per kg dry leaves corresponding to an impact of 0.064 CO2e per L ready to drink tea. In the assessment of climate impact per cup, tea had the lowest impact with 0.013 kg CO2e, followed by black instant coffee (0.024 kg CO2e), black coffee (0.038 kg CO2e), and cocoa drink made with milk (0.33 kg CO2e). The climate impact of 1kg cocoa powder on the Swedish market was estimated to 2.8 kg CO2e. Adding milk to coffee or tea increases the climate impact substantially. The literature describes a high proportion of the total climate impact of coffee from the consumer stage due to the electricity used by the coffee machine. However, with the Nordic low-carbon energy mix, the brewing and heating of water and milk contributes to only a minor part of the climate impact of coffee. As in previous research, coffee also had a higher land use, water use and biodiversity impact than tea per L beverage. Another factor of interest at the consumer stage is the waste of prepared coffee. Waste of prepared coffee contributes to climate impact through the additional production costs and electricity for preparation, even though the latter was small in our calculations. The waste of coffee and tea at Summary household level is extensive and measures to reduce the amount of wasted coffee and tea could reduce the environmental impact of Swedish hot drink consumption. For the final evaluation of coffee and tea for the consumer guide, the boundary for the fruit and vegetable group was used. The functional unit for coffee and tea was 1 L prepared beverage without any added milk or sweetener. In the guide, the final evaluation of conventionally grown coffee is that it is ‘yellow’ (‘Consume sometimes’), and for organic produce, ‘light green’ (‘Please consume). The evaluation of conventionally grown tea is that it is ‘light green’, and for organic produce, ‘dark green’ (‘Preferably consume this’). For cocoa, the functional unit is 1 kg of cocoa powder and the boundary was taken from the protein group. The final evaluation of conventionally grown cocoa is that it is ‘orange’ (‘Be careful’), and for organically produced cocoa, ‘light green’.