THE EFFECT OF SPATIAL AND TEMPORAL FACTORS ON OCCUPANTS’ BLIND USE BEHAVIORS IN MULTIFAMILY RESIDENTIAL BUILDINGS

ABSTRACT Existing studies show that occupants’ behavior contribute to fluctuations in energy consumption of residential units within the same building configuration. Window blinds are one of the interior design elements that the occupants use to control indoor environmental conditions. The way that occupants adjust their blinds could affect the energy performance of buildings. Thus, the purpose of this research was to identify spatial and temporal explanatory variables that correlate with occupants’ use of the blinds and determine whether those variables relate to building design and surrounding sites. Data were collected by observing how occupants in apartment buildings located in a multifamily residential complex adjust their blinds. Descriptive statistics were used to define the effect of floor level, window orientation, day of observation, the hour of observation, and weather conditions on the blind status. In addition, a generalized linear mixed model was used to predict the effect of floor level and window orientation on the occupants’ adjustment of blinds. The results revealed that occupants’ use of the blinds correlated significantly with spatial factors, such as the apartment buildings’ floor level and windows’ orientation. Interesting blind use patterns were related to temporal factors, such as the day and hour of observation.

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Development of a numerical approach to assess the effect of coupled heat and moisture transfer on energy consumption of residential buildings in Moroccan context

Journal of Building Physics ◽

10.1177/17442591211056068 ◽

2021 ◽

pp. 174425912110560

Author(s):

Yassine Chbani Idrissi ◽

Rafik Belarbi ◽

Mohammed Yacine Ferroukhi ◽

M’barek Feddaoui ◽

Driss Agliz

Keyword(s):

Energy Consumption ◽

Building Materials ◽

Moisture Transfer ◽

Residential Buildings ◽

Building Design ◽

Energy Performance ◽

Climatic Conditions ◽

Heat And Moisture Transfer ◽

Coupled Heat And Moisture ◽

Heat And Moisture

Hygrothermal properties of building materials, climatic conditions and energy performance are interrelated and have to be considered simultaneously as part of an optimised building design. In this paper, a new approach to evaluate the energy consumption of residential buildings in Morocco is presented. This approach is based on the effect of coupled heat and moisture transfer in typical residential buildings and on their responses to the varied climatic conditions encountered in the country. This approach allows us to evaluate with better accuracy the response of building energy performance and the indoor comfort of building occupants. Annual energy consumption, cooling and heating energy requirements were estimated considering the six climatic zones of Morocco. Based on the results, terms related to coupled heat and moisture transfer can effectively correct the existing energy consumption calculations of the six zones of Morocco, which currently do not consider energy consumption due to coupled heat and moisture transfer.

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Modeling Nearly Zero Energy Buildings for Sustainable Development in Rural Areas

Energies ◽

10.3390/en13102593 ◽

2020 ◽

Vol 13 (10) ◽

pp. 2593 ◽

Cited By ~ 1

Author(s):

Reza Khakian ◽

Mehrdad Karimimoshaver ◽

Farshid Aram ◽

Soghra Zoroufchi Benis ◽

Amir Mosavi ◽

...

Keyword(s):

Energy Saving ◽

Rural Areas ◽

Residential Buildings ◽

Building Design ◽

Energy Performance ◽

Payback Period ◽

Zero Energy ◽

Multiple Parameters ◽

Shading Devices ◽

The Impact

The energy performance of buildings and energy-saving measures have been widely investigated in recent years. However, little attention has been paid to buildings located in rural areas. The aim of this study is to assess the energy performance of two-story residential buildings located in the mountainous village of Palangan in Iran and to evaluate the impact of multiple parameters, namely building orientation, window-to-wall ratio (WWR), glazing type, shading devices, and insulation, on its energy performance. To attain a nearly zero energy building design in rural areas, the building is equipped with photovoltaic modules. The proposed building design is then economically evaluated to ensure its viability. The findings indicate that an energy saving of 29% can be achieved compared to conventional buildings, and over 22 MWh of electricity can be produced on an annual basis. The payback period is assessed at 21.7 years. However, energy subsidies are projected to be eliminated in the near future, which in turn may reduce the payback period.

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Thermal Performance of a High-Rise Residential Building with Internal Courtyard in Tropical Climate

Environment-Behaviour Proceedings Journal ◽

10.21834/e-bpj.v3i7.1240 ◽

2018 ◽

Vol 3 (7) ◽

pp. 357

Author(s):

Lobna Hassan Ali Hassan Elgheriani ◽

Parid Wardi ◽

AbdulBasit Ali Ali Ahmed

Keyword(s):

Thermal Performance ◽

Indoor Environment ◽

Natural Ventilation ◽

Residential Buildings ◽

Residential Building ◽

Building Design ◽

Energy Performance ◽

Significant Feature ◽

High Rise ◽

Passive Design

Natural ventilation is an effectual passive design approach to create a better indoor thermal condition as well as energy efficiency. The primary goal of building design is providing a healthy and comfortable indoor environment titled as sustainable architecture. Literature suggests that the significant feature that alteration has to take place on for better energy performance is the envelope design. This paper aims to augment the Window to Wall Ratio (WWR), orientation and courtyard corridor size for improving the design of naturally ventilated courtyard high-rise residential buildings. Briefly, the findings indicate that contending with WWR, orientation and courtyard corridor size could increase the potential of improving its natural ventilation and thus, thermal performance.

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Effects of the geometry of residential buildings with a sunspace on their energy performance

Facta universitatis - series Architecture and Civil Engineering ◽

10.2298/fuace190227004v ◽

2019 ◽

Vol 17 (1) ◽

pp. 105-118

Author(s):

Ana Vukadinovic ◽

Jasmina Radosavljevic ◽

Amelija Djordjevic ◽

Nemanja Petrovic

Keyword(s):

Energy Consumption ◽

Aspect Ratio ◽

Shape Factor ◽

Residential Buildings ◽

Dynamic Modelling ◽

Building Design ◽

Energy Performance ◽

Total Consumption ◽

Heating And Cooling ◽

Heating Energy Consumption

The increase in energy consumption in building design and construction and the issues related to environmental protection have steered many current researchers toward examining the ways to reduce total CO2 emissions, which resulted in the development of various measures to increase energy efficiency. One measure for more cost-efficient and rational use of energy resources in individual residential buildings is the application of passive solar systems with a sunspace. This paper presents the effects of the shape factor of a residential building with a passive sunspace on the total consumption of heating and cooling energy. The total amount of energy required for building heating and cooling was calculated by means of dynamic modelling using EnergyPlus software. The simulations were run according to the meteorological parameters for the city of Nis. For simulation purposes, models of residential buildings with a passive sunspace and square- and rectangle-shaped floors were designed. The variations between the models include different building shape factor, floor geometry, surface area of the southern fa?ade, and glazing percentage, i.e. window-to-wall ratio (WWR). Examination of the models with WWR=20%, WWR=40%, and WWR=60% revealed that the elongated shape of a building with the aspect ratio of 2.25:1, with the longer side of the fa?ade facing south, is the most favourable in terms of heating energy consumption. For the same WWRs, the elongated shape of a building with the aspect ratio of 1.56:1, with the longer side of the fa?ade facing south, is the most favourable in terms of cooling energy consumption. As WWR increases, so does the amount of energy required to cool the building. The biggest increase in heating energy consumption was observed in buildings with the aspect ratio 1:2.25, with the shorter side facing south.

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Improving thermal stability and reduction of energy consumption by implementing Trombe wall construction in the process of building design: The Serbia region

Thermal Science ◽

10.2298/tsci180308167b ◽

2018 ◽

Vol 22 (6 Part A) ◽

pp. 2355-2365

Author(s):

Veliborka Bogdanovic ◽

Dusan Randjelovic ◽

Miomir Vasov ◽

Marko Ignjatovic ◽

Jelena Stevanovic

Keyword(s):

Energy Consumption ◽

Residential Buildings ◽

Building Design ◽

Energy Performance ◽

Wall Structure ◽

Climatic Data ◽

The South ◽

Trombe Wall ◽

Wall Construction ◽

The Impact

This paper analyzes the impact of Trombe wall construction on heating and cooling demands of building with form (rectangular single-store building of about one hundred square meters area) which is common for individual residential buildings in the Republic of Serbia. Trombe wall, as a representative of a passive solar design, was installed on the south wall of the building. Model of the building was made in the Google SketchUp software, while the results of energy performance were obtained using EnergyPlus and jEplus. Parameters of thermal comfort and climatic data for the area of city of Belgrade, Republic of Serbia, were taken into account. Coverage of the south fa?ade was varied, as well as the thickness of the thermal mass and orientation. Energy consumption of the object is discussed, based on obtained results of the analysis. According to comparative analysis of the above mentioned models it can be concluded that the application of the Trombe wall structure on south side may lead to savings of 33% on heating, but also the higher energy consumption for cooling. Total energy consumption on an annual basis is reduced by using this system.

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LOW-COST AND NON-INVASIVE ENERGY RECOVERY TECHNIQUES FOR PUBLIC RESIDENTIAL BUILDINGS MADE WITH GREAT PANEL STRUCTURES IN ITALY

Journal of Green Building ◽

10.3992/1943-4618.14.3.23 ◽

2019 ◽

Vol 14 (3) ◽

pp. 23-46

Author(s):

Frida Bazzocchi ◽

Sara Ticci ◽

Vincenzo Di Naso ◽

Andrea Rocchetti

Keyword(s):

Energy Recovery ◽

Energy Savings ◽

Residential Buildings ◽

Low Cost ◽

Ventilation System ◽

Energy Performance ◽

Residential Units ◽

Technical Solutions ◽

Tunnel System ◽

Indoor Comfort

In Italy, a large stock of public housing was built during the 1970s and 1980s with industrialized/prefabricated techniques. These buildings have envelopes characterized by the presence of many thermal bridges and low transmittance values. In addition, they feature inefficient single heating systems in residential units and no cooling/ventilation systems. As a result, these buildings require urgent energy retrofitting actions, and it is therefore necessary to define procedures that will guarantee effective results. The possible interventions must be compatible with building construction techniques as well as be minimally invasive and inexpensive. There are only a limited number of technical solutions, considering that residents should not have to move out during the renovations. In most Italian climatic zones, current interventions are usually linked to external insulation and window replacement, leading to an improvement in energy performance and comfort only during winter. Internal comfort conditions tend to worsen in summer months because seasonal temperatures tend to increase by a few degrees. Therefore, solutions should be proposed that will improve both summer and winter conditions. This work proposes an energy recovery procedure applied to a representative building from the abovementioned period located in the Florence area and constructed with an industrialized system named the “tunnel system” (great panels structure). The procedure used in this study provides for the redevelopment of the envelope and the application of a simple mechanical ventilation system to achieve substantial energy savings and improved indoor comfort conditions.

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The Application of Courtyard and Settlement Layouts of the Traditional Diyarbakır Houses to Contemporary Houses: A Case Study on the Analysis of Energy Performance

Energies ◽

10.3390/en13030587 ◽

2020 ◽

Vol 13 (3) ◽

pp. 587 ◽

Cited By ~ 1

Author(s):

İdil Ayçam ◽

Sevilay Akalp ◽

Leyla Senem Görgülü

Keyword(s):

Energy Efficient ◽

Settlement Patterns ◽

Residential Buildings ◽

Vernacular Architecture ◽

Building Design ◽

Energy Performance ◽

Housing Sector ◽

Bioclimatic Design ◽

Energy Consuming

Conventional energy use has brought environmental problems such as global warming and accelerated efforts to reduce energy consumption in many areas, particularly in the housing sector. For this purpose, bioclimatic design principles and vernacular architecture parameters have started to be examined in residential buildings nowadays. Thus, the demand for less energy-consuming houses has started to increase. In this study, we aimed to specify the significance of traditional architectural parameters for houses in the hot-dry climatic region of Diyarbakır, Turkey. Within the scope of the study, a case was based on the urban fabric of the traditional houses in Historical Diyarbakir Suriçi-Old Town settlement and the Şilbe Mass Housing Area was discussed. The courtyard types, settlement patterns, and street texture of traditional Diyarbakır houses were modeled by using DesignBuilder energy simulation program for the case study. Annual heating, cooling, and total energy loads were calculated, and their thermal performances were compared. The aim is to create a less energy-consuming and sustainable environment with the adaptation of traditional building form-street texture to today’s housing sector. Development of a settlement model, which is based on traditional houses’ bioclimatic design for hot-dry region, was intended to be applied in the modern housing sector of Turkey. Moreover, adapting local forms, urban texture, and settlement patterns to today has significant potential for sustainable architecture and energy-efficient buildings. According to this study, the optimum form and layout of traditional houses, which are one of the climate balanced building designs, provide annual energy savings if integrated and designed in today’s building construction. As a result of this study, if the passive design alternatives such as building shape, layout, and orientation were developed in the first stage of the design, energy efficient building design would be possible. The study is important for the continuation of traditional sustainable design.

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A Study of Design Variables in Daylight and Energy Performance in Residential Buildings under Hot Climates

Energies ◽

10.3390/en13215836 ◽

2020 ◽

Vol 13 (21) ◽

pp. 5836

Author(s):

Ali Mohammed AL-Dossary ◽

Daeung Danny Kim

Keyword(s):

Saudi Arabia ◽

Energy Consumption ◽

Residential Buildings ◽

Residential Building ◽

Building Design ◽

Energy Performance ◽

Total Energy Consumption ◽

Design Variables ◽

Slow Progress ◽

Shading Devices

In Saudi Arabia, residential buildings are one of the major contributors to total energy consumption. Even though there are abundant natural resources, it is somewhat difficult to apply them to building designs, as design variables, due to slow progress and private issues in Saudi Arabia. Thus, the present study demonstrated the development of sustainable residential building design by examining the daylighting and energy performance with design variables. Focusing on the daylighting system, the design variables were chosen, including window-to-wall ratios (WWR), external shading devices, and types of glazing. The illuminance level by these design variables in a building was evaluated by using daylight metrics, such as spatial daylight autonomy and annual sunlight exposure. Moreover, the building energy consumption with these design variables was analyzed by using energy simulation. As a result, the daylighting was improved with the increase in WWRs and the tinted double glazing, while these design options can cause overheating in a residential building. Among types of glazing, the double pane windows with a low-E coating showed better energy performance. Based on the results, it is necessary to find the proper design variables that can balance the daylighting and energy performance in residential buildings in hot climates.

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Measuring energy heating performance of apartment buildings in Kosovo built after 2003

Facilities ◽

10.1108/f-12-2018-0153 ◽

2019 ◽

Vol 38 (5/6) ◽

pp. 395-420

Author(s):

Visar Hoxha

Keyword(s):

Residential Buildings ◽

Energy Performance ◽

European Countries ◽

Apartment Building ◽

Member States ◽

Content Type ◽

Construction Period ◽

Heating Performance ◽

Apartment Buildings ◽

New Construction

Purpose The purpose of this study is to quantify the energy heating performance of apartment buildings in Kosovo built after 2003 and compare it against the energy heating performance of buildings in member states of EU and selected European countries. Design/methodology/approach This paper takes a case study approach focussed on the assessment of the heating energy performance of the building. This approach facilitated a detailed calculation of the selected materials’ energy performance used in a representative building structure in Kosovo comparing with passive buildings standard and energy heating performance of buildings in member states of EU and selected European countries. Findings Results of quantitative research find that the energy heating performance of apartment buildings in Kosovo built after 2003 is far higher than that of passive buildings standard and is better than the average annual energy heating performance of apartment buildings in member states of the EU and selected European countries. Research limitations/implications The research provides new knowledge regarding energy heating performance in new residential buildings in Kosovo and compares the findings with earlier research and energy consumption in other selected European countries. The research provides great benefits for researchers and practitioners working in the field of energy management as it compares the energy performance of residential buildings across Europe. Originality/value This paper provides a perspective on investigating the energy performance of a building structure of a residential apartment building in Prishtina, Kosovo. By unveiling the level of energy consumption of a residential apartment building in Kosovo representative of the new construction period can help the facility managers to acknowledge the standards they must achieve to refurbish the old building stock to achieve at least the same standard as the buildings in the new construction period.

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Analysis on the Passive Design Optimization for Unit-Divided Apartment Building in Lhasa Based on Survey and Simulation

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.374-377.24 ◽

2011 ◽

Vol 374-377 ◽

pp. 24-30

Author(s):

En Li ◽

Jia Ping Liu

Keyword(s):

Large Scale ◽

Thermal Environment ◽

Residential Buildings ◽

Residential Building ◽

Building Design ◽

Living Standard ◽

Design Elements ◽

Central Heating ◽

Passive Design ◽

Local Measurements

During a time when environmental issues are one of the biggest problems in the world, the development and growth of developing cities can no longer be discounted. As a typical developing city, the building energy consumption of Lhasa had a large scale increase with the living standard enhancement of people. Through the local measurements, the information as indoor air temperature, the evaluation of the thermal environment and so on was collected. The result shows the existed residential buildings used the direct gain system and the attached solar space system spontaneously. However, the indoor thermal environment still needs to be improved. Considered that Lhasa was classified into central heating area, it will face the problem of huge increasing of the heating energy. The basic models of direct solar gain system were established for studying the affecting rules of passive design elements. The last result gives suggestion for the local residential building design.

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