1,915 research outputs found
Investigation into energy performance of a school building in a hot climate: Optimum of window-to-wall ratio.
Global attention is currently focussed on developing techniques to improve the thermal performance of
buildings to provide indoor comfort with minimum reliance on energy load. Several studies have investigated
building facade, materials used and other factors involved in building design. The aim of this
study is to examine the impact of thermal insulation, shading devices, window-to-wall ratio (WWR) and
a combination of these factors in a prototype school building design in the warm climate city of
Taif, Saudi Arabia. The study used various methods classified into two main phases. The first phase
involved on-site observation where both thermal imaging and regular cameras were used to examine
the influence of orientation on glazing as a baseline. The second phase involved advanced software
investigations with 2D AutoCAD, 3D Revit and computer modelling for energy evaluation and daylight
factor. A detailed framework was introduced to examine current school buildings and to improve the
future designs of prototype school buildings. The study revealed that a combination of applying thermal
insulation along with minimising WWR is required in existing buildings within hot and dry regions.
Furthermore, it was recommended that WWR should not exceed 35%, 25% and 20% for northwest,
southeast and southwest building facades, respectively
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The effect of the sun and its path on thermal comfort and energy consumption in residential buildings in tropical climates constitutes serious concern for designers, building owners and users. Passive design approaches based on the sun and its path have been identified as a means of reducing energy consumption, as well as enhancing thermal comfort in buildings worldwide. Hence, a thorough understanding regarding the sun path is key to achieving this. This is necessary due to energy need, poor energy supply and distribution, energy poverty and over-dependence on electric generators for power supply in Nigeria. These challenges call for a change in the approach to energy related issues, especially in terms of buildings. The aim of this study is to explore the influence of building orientation, glazing and the use of shading devices on residential buildings in Nigeria. This is intended to provide data that will guide designers in the design of energy efficient residential buildings. The paper used EnergyPlus software to analyze a typical semi-detached residential building in Lokoja, Nigeria, using hourly weather data for a period of 10 years. Building performance was studied as well as possible improvement regarding different orientations, glazing types and shading devices. The simulation results showed reductions in energy consumption in response to changes in building orientation, types of glazing and the use of shading devices. The results indicate a 29.45% reduction in solar gains and 1.90% in annual operative temperature using natural ventilation only. This shows a huge potential to reduce energy consumption and improve people’s wellbeing using proper building orientation, glazing and appropriate shading devices on building envelope. The study concludes that for a significant reduction in total energy consumption by residential buildings, design should focus on multiple design options rather than concentrating on one or few building elements. Moreover, the investigation confirms that energy performance modelling can be used by building designers to take advantage of the sun and to evaluate various design options
Energy Efficient Construction Methods in UK Dwellings
This paper examines the thermal performance of housing in the UK and the associated costs for different fabric construction methods of the envelope for a typical four bedroom detached house. The energy ratings were assessed using the UK Government’s Standard Assessment Procedure (SAP), which is based on the Building Research
Establishment Domestic Energy Model. The capital costs were estimated from data published by the Building Cost Information Services applied to Leicester UK area in 2011. Through alterations to the dwelling fabric alone, a reduction of 30.1% in carbon emissions of the base property could be achieved. Standard methods proved to be as effective as alternative methods at reducing carbon emissions by 22.6% for an average capital cost increase of 9.1% against the base property. This was equivalent to an extra cost of £13.7 for each kg of CO2 emissions reduction. It was found that alternative methods could reduce carbon emissions by 20.5% for an extra cost of 18.4% over the base property. The optimum construction method that would help achieve the UK government’s carbon emissions target was also discussed. The paper also discusses the methods for improving energy efficiency in existing dwellings, using a typical solid-wall terraced house with a new single storey extension, as a case study. In this study, it was found that by increasing refurbishment costs by only 4.7% could result in carbon emissions reduction by 21.7%
Towards Energy Efficient Buildings in Nigeria: Challenges and Opportunities
The file attached to this record is the author's final peer reviewed version.The need to enhance people’s wellbeing by reducing CO2 emission has necessitated global efforts towards reducing energy consumption by buildings, which is responsible for nearly 45% of world’s energy consumption. Energy efficient design approaches have clear consequences on environmental protection and the wellbeing of urban populations. It is a viable means of reducing overdependence on electric generators and possible future retrofit of existing housing stock in Nigeria. Efforts towards achieving energy efficient buildings in this part of the world are not without challenges. Previous studies have revealed opportunities and possible challenges to energy efficiency in buildings in Nigeria. However, there seems to be scarce academic field data on this subject in the Nigerian context. Hence, this paper aims to identify benefits and possible hindrances to the realization of energy efficient buildings in Nigeria. This study adopted semi-structured interview involving 12 architects in Lokoja, Nigeria as the main approach for generating relevant data on this subject. Some of the limitations revealed by the interviewees include poverty, lack of awareness, lack of interest in local technologies and building materials, activities of non-professionals in the building industry and lack of effective regulatory bodies. This paper shows that there is enormous potential to improve people’s wellbeing and reduce carbon footprints if we can overcome the possible hindrances to achieving energy efficient buildings in Nigeria. The study concludes that energy efficiency in buildings can be achieved in Nigeria through strong awareness creation and collaboration among the stakeholders in the building industry
Optimising Residential Courtyard in Terms of Social and Environmental Performance for Ghadames Housing, Libya
The file attached to this record is the author's final peer reviewed version. The Publisher's final version can be found by following the DOI link.Vernacular architecture comes from a wealth of knowledge and experience of humans who were able to adjust to the surroundings and adapt to even extreme climate conditions. In fact many old traditional settlements may fail to functionally provide high indoor quality according to the modern building standards. However, these buildings are still seen as a good example of serving the purpose of locals’ social life and their ability to effectively respond to outdoor climate. Therefore, this work recognises the need to develop the courtyard concept to meet the social and environmental requirements of today’s housing conditions taking the advantage of traditional architecture of Ghadames. The work carried out methods of descriptive and simulation analysis to investigate the environmental performance of existing and proposed residential courtyards employing natural ventilation system in terms of thermal comfort conditions. The optimisation process of the courtyard design not only relied on methods of observation but also householders and professionals’ views were considered. Householders and professionals agreed that courtyard houses might be often linked to lower social classes but still serve most of social and climate purposes. The dynamic thermal simulation showed that indoor comfort temperature in a traditional courtyard was found to be at 34˚C. An optimisation design process was conducted to a courtyard building resulted in reducing the indoor comfort temperature to about 28˚C. Further results showed that the new design has improved the daylighting performance at 2.9% of average daylight factor. The work also outlined the applicability of using locally sourced building materials and their capacity to achieve high thermal performance particularly with reference to the use of organic date-palm fibre. It can conclude that the proposed design has integrated the passive climate design strategies to help achieving acceptable indoor comfort conditions and also sustainable features to further enhance locals’ social life
Nicotine exposure caused significant transgenerational heritable behavioral changes in Caenorhabditis elegans
Passive and active exposure to tobacco smoking among youth is directly associated with immediate as well as long-term health deterioration. Despite all public health policies and efforts, the percentage of teenage smokers is still relatively high, especially in developing countries. Very few, if any, studies have been done on the transgenerational effect of nicotine exposed during the more sensitive, early developmental stages. We employed C. elegans as a biological model to study the multigenerational impact of chronic nicotine exposure. Nicotine treatment was limited to N2 hermaphrodites of the F0 generation. Exposure was limited to the larval period L1-L4 (~31 hours) after which worms were transferred to a fresh NGM plate. N2 hermaphrodites at L4 developmental stage were used for behavioral analysis across three generations: F0, F1, and F2. Our results show that nicotine was associated with changes in sinusoidal locomotion, speed, and body bends in L4 larvae in all three tested generations. These behavioral alterations were not restricted to F0, but were observed in F1 and F2 generations which were never exposed to nicotine. Our study is the first to reveal that nicotine addiction is heritable using C. elegans as a model organism. These results underscored the sensitivity of early development stages, with hope to spread more awareness to encourage the avoidance of nicotine exposure, especially at a young age
Nicotine exposure caused significant transgenerational heritable behavioral changes in Caenorhabditis elegans
Passive and active exposure to tobacco smoking among youth is directly associated with immediate as well as long-term health deterioration. Despite all public health policies and efforts, the percentage of teenage smokers is still relatively high, especially in developing countries. Very few, if any, studies have been done on the transgenerational effect of nicotine exposed during the more sensitive, early developmental stages. We employed C. elegans
as a biological model to study the multigenerational impact of chronic nicotine exposure. Nicotine treatment was limited to N2 hermaphrodites of the F0 generation. Exposure was limited to the larval period L1-L4 (~31 hours) after which worms were transferred to a fresh NGM plate. N2 hermaphrodites at L4 developmental stage were used for behavioral analysis across three generations: F0, F1, and F2. Our results show that nicotine was associated with changes in sinusoidal locomotion, speed, and body bends in L4 larvae in all three tested generations. These behavioral alterations were not restricted to F0, but were observed in F1 and F2 generations which were never exposed to nicotine. Our study is
the first to reveal that nicotine addiction is heritable using C. elegans as a model organism. These results underscored the sensitivity of early development stages, with hope to spread more awareness to encourage the avoidance of nicotine exposure, especially at a young age
Focus on lived spaces and Identity: the Paradigm of the urban design with residential high-rises in England
Residential high‐rises find more and more often their place in central parts of the big British cities. Due to intrinsic characteristics of the typology, they are bound to be observed, evaluated and discussed. Therefor the purpose of this research is through observation of nine prominent high‐rise buildings in Manchester, Birmingham and London, subjected to rigorous analysis, to evaluate their ability to maintain identity and to be decisive part of the lived spaces around them. The research achieves this goal through four research questions: how is the design addressing the creation of strong identity of the researched buildings; are the identity‐creating features of the design contradicting major placemaking principles; what characteristics have the lived spaces around the residential high‐rises; what messages send the design of the lived
spaces? The methodology relies on observational survey of the researched areas with the help of structured questions, to evaluate the external qualities of the residential high‐rises and their surroundings. Visual information can construct the basis to identify the shortcomings and the downsides of the examined project examples. It can provide insight on how can be improved imageability, legibility and the sense of place. In this connection, the results show that even though it was found that the high‐rises with their abstract form, memorable design and creative use of materials and architectural techniques maintain strong identity, the functional quality of the lived spaces around them is low, there are missing squares, gardens and playgrounds in close proximity and the only experience provided for the users is street life, which however exciting is too limited to only few activities such as eating, drinking, shopping or just walking and looking at limited typology of spaces. The implications of this research are that the British planners will address these problems and future projects will have better placemaking component
Towards resilient low-middle income apartments in Amman, Jordan: A thermal performance investigation of heating load
Energy security constitutes a major challenge for Jordan’s sustainable development. Space heating in Jordan represents ~61% of total residential energy consumption and dominantly involves portable un-flued kerosene and LPG stoves. Fuel combustion of such heaters generates poor indoor air quality and emits GHGs. Moreover, recent housing condition surveys show that the majority of dwellings in Jordan are very energy inefficient. This paper assesses the thermal performance of existing urban low-middle income apartments in Amman. This aim was approached through surveying 106 sample units and using EnergyPlus engine to calculate thermal performance of two representative apartments. Findings showed that ~75% of the apartments had thermally poor external envelopes. Analysis revealed that ~64% of heat loss can be attributed to exposed walls and roofs. The present research found that ‘thrift retrofitting’ will be inevitable in any effort in Jordan to deliver resilient low-middle income apartments
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