72 research outputs found
Design for sustainable architecture and environments
This paper describes some of the research outcomes of a Knowledge Transfer Partnership (KTP) project partly funded by Department of Trade and Industry, UK. One of the aims of the project was to plan and develop designs for a range of autonomous eco-buildings through research into autonomous eco-building systems and techniques in order to identify best practice and the most appropriate systems for low-carbon buildings. The design of the Community Hall offering accommodations for a multi functional hall, café and exhibition, and offices, has been developed through partnership with mainstream design and construction companies in the region. Following a successful planning application and external fund raising exercise, the construction of the building is due to start shortly. The structure will be constructed using locally sourced materials and is designed to be ‘renewable’ whilst exceeding all the requirements of the current Building Regulations. It examines the potential of non traditional construction techniques and materials. The total environmental impact of the design as the result of environmental loads occurring during the life span of the building is estimated and compared with conventional practice. The building incorporates rain water collection, waste treatment, composting toilets and photovoltaics
Towards a framework for sustainability in UK retail architecture
The issues of environmental sustainability; fossil fuel use, resource use and pollution have until very recently remained a low priority to the vast majority of retail clients. The traditional barriers of capital cost, lack of precedent and perceived need have been replaced by the more urgent drivers of brand management and business risk. This emerging client need for more sustainable buildings requires that a methodology is adopted to enhance the end product for all stakeholders whilst avoiding possible criticism of "greenwash". However, despite the number of initiatives available, environmental analysis of retail projects in the UK have been limited to site environmental impact assessmenrte quired for planning approval and written sustainability statementss ubmitted as supporting information, and only required for large projects and at the discretion of the planning authority. These documents are rarely referred to once the planning stage has been passed and substitution of materials form routine cost saving measures through the Design and Build procurement route. Moreover, the layered nature of speculative development; where the client is a developer aiming to sell to an investor and the tenant is responsible for their own fit-out and plant, limits the level of innovation and continuity of thought between all stakeholders. This research was therefore conceived to address the need for an appropriate methodology to ensure that sustainability is considered in the design of retail facilities. The aim was to develop a framework methodology for incorporating sustainability in the design, construction and management of retail facilities. The following objectives were pursued: (a) To define the criteria of sustainability in architectureth roughl iteraturer eview; (b) to understandth e specific problemsa ssociated with sustainabilityi n retail architecturet hrough literature review, cases tudy interviews and survey data; (c) to assessth e extent to which existing tools satisfy the criteria for sustainability; (d) to develop a framework using the findings of the research through design and action research strategy and test the resulting framework though industry disseminationa ndh ypotheticacl ases tudies. 3 The results of the research outlined by the objectives above resulted in the development of a framework methodology. Using intuitive discursive analysis as the most readily adaptable process with the use of risk identification and mitigation as a design management technique, the resulting framework provides a matrix based documentation tool to facilitate development of the brief from the design of the facility, through procurement stages and providing a plan for sustainable management at handover of the facility to the client. The research concludes that improving the sustainability of retail facilities is a real possibility but that it is also dependant on client acceptance of responsibility to wider society and the environment. This research supports the need for a structured and integrated approach for design, development and delivery of retail facilities at all scales and how the interface between shell development and retail tenant is critical to real improvements in sustainability. The developed framework methodology requires further testing and refinement in a wider variety of applications to fully explore the potential benefits to be gained.EThOS - Electronic Theses Online ServiceGBUnited Kingdo
Assessment of CO2 emissions reduction in a distribution warehouse
Building energy use accounts for almost 50% of the total CO2 emissions in the UK. Most of
the research has focused on reducing the operational impact of buildings, however in recent years
many studies have indicated the significance of embodied energy in different building types. This paper
primarily focuses on illustrating the relative importance of operational and embodied energy in a
flexible use light distribution warehouse. The building is chosen for the study as it is relatively easy to
model and represents many distribution centres and industrial warehouses in Europe.
A carbon footprinting study was carried out by conducting an inventory of the major installed
materials with potentially significant carbon impact and material substitutions covering the building
structure. Ecotect computer simulation program was used to determine the energy consumption for
the 25 years design life of the building. This paper evaluates alternative design strategies for the
envelope of the building and their effects on the whole life emissions by investigating both embodied
and operational implications of changing the envelope characteristics. The results provide an insight to
quantify the total amount of CO2 emissions saved through design optimisation by modelling embodied
and operational energy
The carbon-reduction potential of straw-bale housing
The role of straw bale as a construction material for reducing the whole-life impacts of housing is examined. The embodied and operational CO2 emissions in a recently completed UK social housing project are compared using alternative domestic external wall constructions and the effects on the resulting CO2 emissions. It is estimated that over 15 tonnes of CO2 may be stored in biotic materials of each of the semi-detached houses, of which around 6 tonnes are sequestered by straw and the remaining by wood and wood products. This suggests the carbon lock-up potential of renewable construction materials is capable of reducing the case study house's whole-life CO2 emissions of the house over its 60-year design life by 61% when compared with the case without sequestration. The practical implications of construction, detailing, maintenance, cost and self-build potentials of straw-bale construction are also considered. The potential for load-bearing straw-bale walls is examined through the whole-life performance of straw-bale construction with alternative conventional external walling systems
Towards a low carbon construction practice
Towards a low carbon construction practic
Understanding user satisfaction evaluation in low occupancy sustainable workplaces
This paper presents the findings of a post-occupancy evaluation (POE) applied to a building
in the UK. The design of the building was generated through an externally funded research project
over two years from 2005 to 2007. The construction of the building was completed in 2010.
After a period of occupancy, a POE of the building was carried out in 2015. The POE offered
an opportunity to investigate the effect of occupant behaviour on the performance of the building
and their level of comfort and satisfaction. We adopted a field survey method to evaluate the comfort
and satisfaction of users by asking them a series of questions to analyse how they felt in different
parts of the building throughout the course of the year. In our analysis, the users were prompted
to provide a subjective measure of the building regarding a range of internal conditions such as air
temperature, humidity, air movement, air quality, daylight, artificial light, and noise. The analysis
supports the notion that in naturally-ventilated buildings some users may find the building to be
hot in summer while cold in winter. The high level of control the users have over the operation of
the building contributes to their comfort and satisfaction. The users demonstrated a tendency to be
satisfied despite environmental factors and to forgive some aspects of the building which are not
performing as they should. The paper offers a perspective on statistical user satisfaction in a low
occupancy building and attempts to explain the role of workplace wellbeing on occupant perception
of comfort in this case
The monitored performance of four social houses certified to the Code for Sustainable Homes Level 5
This paper presents the energy and water use of 4 social houses certified to the Code for Sustainable Homes Level 5 in Gainsborough, UK. The houses were monitored over 2 years, from July 2012 to September 2014. As the houses have the same construction and energy efficiency characteristics, the study offered a unique opportunity to investigate the effects of occupant behaviour on the dwellings performance. Electricity, gas and water consumptions were measured through data logging and meter readings. Surveys and interviews were conducted throughout to gain insights into tenants understanding and interactions with low energy features in their homes. Significant differences were observed in the amount of energy and water used. The annual space heating consumptions differentiated by a factor of 2.2 per square metre of floor area. Hot water heating demands varied by a factor of 3.5 per square metre of floor area or by 2.5 per person per year. Mains water consumptions varied by a factor of 2.2 litres per person per day in 2013
Carbon dioxide reduction in the building life cycle: a critical review
The construction industry is known to be a major contributor to environmental pressures due to its high energy consumption and carbon dioxide generation. The growing amount of carbon dioxide emissions over buildings’ life cycles has prompted academics and professionals to initiate various studies relating to this problem. Researchers have been exploring carbon dioxide reduction methods for each phase of the building life cycle – from planning and design, materials production, materials distribution and construction process, maintenance and renovation, deconstruction and disposal, to the material reuse and recycle phase. This paper aims to present the state of the art in carbon dioxide reduction studies relating to the construction industry. Studies of carbon dioxide reduction throughout the building life cycle are reviewed and discussed, including those relating to green building design, innovative low carbon dioxide materials, green construction methods, energy efficiency schemes, life cycle energy analysis, construction waste management, reuse and recycling of materials and the cradle-to-cradle concept. The review provides building practitioners and researchers with a better understanding of carbon dioxide reduction potential and approaches worldwide. Opportunities for carbon dioxide reduction can thereby be maximised over the building life cycle by creating environmentally benign designs and using low carbon dioxide materials
Mind the gap: A comparison of socio-technical limitations of national house rating systems in the UK and Australia
This paper reviews the national house rating tools in the UK and Australia, evaluates the energy performance of eight different case study houses, and quantifies the magnitude of the performance gap between as-designed energy performance and as-occupied (actual) energy use. To identify contributing factors to the performance gap, post-occupancy evaluations were conducted, and all case study houses were monitored over two years. It was observed that there are performance gaps in all case study houses, however, the gap can be negative (i.e. more actual energy use than simulated) or positive (i.e. less actual energy use than simulated). Results show that the actual heating loads were less than simulated in 5 of the 8 houses (2 UK and 3 AU), and only 1 house (AU) had an actual cooling load more than simulated. The heating discrepancies ranged from 73% to 180% for the UK houses, and 19%–172% for the AU houses. For the cooling loads, actual energy use in the AU house was up to 4.8 times higher than the simulated.
To understand the underlying causes, several influencing factors (including internal temperature conditions, climate, house form and urban context, construction quality, and processes and assumptions of national house rating tools) were analysed. It was found that a key challenge relates to a limited definition of the energy system (household energy use), focusing on technical issues and largely ignoring or simplifying existing and changing socio-cultural issues. Additionally, the paper argues for the need for extending the system boundary beyond individual buildings to neighbourhood, community and city scales. At both a building scale and community scale, deeper understandings of socio-cultural issues that impact on, and are impacted by, energy metabolism, are required
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