• Energy Research
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AbstractSeveral building-stock modelling techniques have been employed to investigate the impact of energy efficiency measures (EEM), where the description of the building-stock generally consists of an age-type classification to specify building characteristics for groups of buildings. Such descriptions lack the appropriate level of detail to differentiate the potential for EEM within age groups. This paper proposes a methodology for building-stock description using building-specific data and measured energy use to augment an age-type building-stock classification. By integrating building characteristics from energy performance certificates, measured energy use and envelope areas from a 2.5D GIS model, the building-stock description reflects the heterogeneity of the building-stock. The proposed method is validated using a local building portfolio (N=433) in the city of Gothenburg, where modelled results for space heating and domestic hot water are compared to data from measurements, both on an individual building level and for the entire portfolio. Calculated energy use based on the building-stock description of the portfolio differ less than 3% from measured values, with 42% of the individual buildings being within a 20% margin of measured energy use indicating further work is needed to reduce or quantify the uncertainty on a building level.

Abstract This study is focused on the detection of the expected natural lighting levels of some unrealized residential houses of Le Corbusier. The attention and the interest of Le Corbusier on the topic of residential buildings are widely recognized. Moreover, it also relates to the research of growing performances about the quality of indoor environments, where the daylighting has certainly represented an important aspect, which would need further researches. The study aims to highlight new and inedited daylighting analysis for seven unrealized projects: Maison Fuerte, Maison Cumenge, Maison Canneel, Maisons pour Ingenieurs, Maison Fueter, Maisons des Peons and Maisons Rurales, designed by Le Corbusier, confirming and discovering some design criteria of this master of Modern Architecture related to the daylighting. According to the original drawings, available from the Fondation Le Corbusier, reliable and accurate virtual reconstructions of the projects have been made with which daylighting simulations have been performed for every project and indoor spaces. The daylighting simulations are run, by using advanced solar-lighting design tools, which use international standard calculations, providing results about illumination, luminance, daylight autonomy and daylighting factor. In this study, it has been used an experimental method to discover and to evaluate the daylighting performances of the seven unrealized housing projects. The results of the simulations, processed with values, indices and graphical representations, give a quantitative description of the natural light with high reliability, and with it has been possible to highlight the sensible awareness of Le Corbusier regarding daylighting, and considering the natural light as a fundamental parameter into his design strategy.

Abstract Heat waves increase electric demand from buildings which can cause power outages. Modeling can help planners quantify the risk of such events. This study shows how Building Energy Modeling (BEM), meter data, and climate projections can estimate heat wave effect on energy consumption and electric peak load. The methodology assumes that a partial representation of BEM for an entire site of buildings is sufficient to represent the entire site. Two linear regression models of the BEM results are produced: 1) Energy use as a function of heat wave heat content and 2) Peak load as a function of maximum daily temperature. The uncertainty conveyed in meter data is applied to these regressions providing slope and intercept 95% confidence intervals. The methodology was applied using 97 detailed BEM, site weather data, 242 building meters, and NEX-DCP30 down-scaled climate data for an entire institution in Albuquerque, New Mexico. A series of heat waves that vary from 2019 weather to a peak increase of 5.9 °C was derived. The results of the study provided institutional planners with information needed for a site that is presently growing very rapidly. The resulting regression models are also useful for resilience analyses involving probabilistic risk assessments.

Abstract A typology of buildings representative of the building stock for the EU-25 was developed characterizing 72 building types in terms of their representativity, geographical distribution, size, material composition, and thermal insulation. The life cycle impacts of the building types were calculated for different environmental impact categories both at building and EU-25 level. The use phase of buildings, dominated by the energy demand for heating is by far the most important life cycle phase for existing and new buildings. The environmental impacts were allocated to single building elements. Ventilation, heat losses through roofs and external walls are important for a majority of single- and multi-family houses. Three improvement options were identified: additional roof insulation, additional facade insulation and new sealings to reduce ventilation. The measures yield a significant environmental improvement potential, which, for a majority of the buildings types analyse represent at least 20% compared to the base case. The major improvement potentials at EU-level lie with single-family houses, followed by multi-family houses. Smaller reductions are expected for high-rise buildings due to the smaller share in the overall building stock. For both roof insulation and reduced ventilation, the measures were shown to be economically profitable in a majority of buildings.

Abstract Thermal storage heaters, charged using overnight off-peak electricity, have been used for domestic space heating in the UK and other countries since the 1980s. However, they have always been difficult for consumers to manage efficiently and, with the advent of a high proportion of renewables in the electricity generation mix, the time of day when they are charged needs to be more flexible. There is also a need to reduce peaks in the demand profile to allow distribution networks to support new sources of demand such as electric vehicles. We describe a trial of a smart control system that was retrofitted to a group of six dwellings with this form of heating, with the objectives of providing more convenient and efficient control for the users while varying the times at which charging is performed, to flatten the profile of demand and make use of locally-generated renewable electricity. The trial also employs a commercially-realistic combination of a static time-of-day tariff with a real time tariff dependent on local generation, to provide consumers with the opportunity and incentive to reduce their costs by varying times of use of appliances. Results from operation over the 2015–16 heating season indicate that the objectives are largely achieved. It is estimated that on an annualised and weather-adjusted basis most of the users have consumed less electricity than before intervention and their costs are less on the trial tariffs. Critical factors for success of this form of system are identified, particularly the need to facilitate hands-on control of heating by thrifty users and the importance of an effective and sustained user engagement programme when introducing the technology, to ensure users gain confidence through a readily-accessible source of support and advice.

Abstract Scenario analysis of energy consumption in the German residential building stock for heating and hot water supply was carried out. It focused on how national long-term climate protection targets – a reduction of CO2 emissions by 80%–95% until 2050 – can be reached. Available technologies of energy saving and efficient and renewable energy supply were examined. Special attention was paid to the necessary dynamics, assuming that improving insulation and heat supply of the complete building stock will be a difficult step-by-step process, taking a long period of time. The results show that within the next 10 years (until 2025) continuous progress should be made to achieve a doubling of the annual rates of thermal building modernisation and a completely different structure of newly installed heating systems (moving away from boilers to heat pumps, cogeneration systems and solar systems). In addition, a long-term change of the structure of district heating and electric power generation (used for heat supply) towards a high share of renewable energy by 2050 will play an important role to meet the climate protection targets.

Abstract This paper discussed the influence of apartment location on household space heating energy demand per floor area in multi-apartment buildings. According to the actual data, apartment location has a significant impact on space heating consumption per floor area in multi-apartment buildings. Based on average data of each location, a corner unit on the top floor has a space heating consumption per floor area 26.1% higher than a center unit on the middle floor. For multi-apartment buildings, a correction should be made to reflect the effect of apartment location when billing is calculated from space heating consumption instead of floor area. Location correction factors (LCFs) of seven typical cities based on building type and building age were analyzed by calibrated simulation method. The study finds that LCFs for older buildings are smaller than those of younger buildings, varying from 0.8% to 15.3% for seven typical cities. As for different regions, the greater the heating degree day is, the larger the location correction factor (LCF) is, with the deviation among 5.7–14.4%. LCFs can provide a billing-tool to make a fair allocation of heating costs, which may promote the reform of heat metering and billing in China.

Abstract Approval of the European Directive 2002/91/EU was followed by its reformulation in Directive 2010/31/EU, with reference to the Energy Performance of Buildings (EPBD). The partial transposition of this norm in Spain took place through Royal Decree 235/2013, which describes the Basic Procedure for the Energy Performance Certification of Buildings and acknowledges four different documents to certify the energy simulation of buildings: (i) CALENER VYP as the general method, and (ii) CE3, CEX and CERMA, as simplified methods. This study analyzes and compares these documents through the qualified opinions of a panel of 105 multidisciplinary professionals of the sector that determined the strengths and weaknesses. To this end a survey was drawn up, including aspects as diverse as: the background and professional characteristics of the experts, the types of residences studied, the characteristics of the documents, the means of processing documents, and the final results in terms of reports and energy certifications. Data analysis shows that most technicians prefer using programs with a simple interface—namely, the CEX. Although all the documents recognized are equally valid for energy certification, when certain types of residence are involved, there may be as much as a 26% difference in the determination of CO 2 emissions. This translates into a higher or lower level in the final energy certification obtained for a building.