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Study of building code and calculation of energy consumption for same building situated in two climates, Chengdu and Stockholmzhang, shan January 2015 (has links)
This report is aim to compared building standard of Chengdu city and Stockholm, as well as find out the suitable energy-saving scenario for two places. To simulate the total energy consumption of logistics building, energy software named design builder will be introduce to calculate. Some of other analysis will be implemented at the same time, including economic analysis, environment analysis and thermal comfort analysis.
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Reform of building codes, regulations, administration and enforcement in Kuwait : within the legal, administrative, technical & social frameworkAl-Fahad, Jasem Y. January 2012 (has links)
The majority of building code development and implementation practices are normally connected with the progress of construction community changing awareness, needs and perspectives, advanced technology in construction and new level of knowledge. Unproven practices and the technology of building code development and implementation in case of insufficient and outdated codes, the use of unproven advanced codes of other countries, or the infringement of the existing codes, in most cases, could lead to a large number of shortcomings of minimum requirements of public health, safety and general welfare, and poor quality of buildings. Every aspect of a building code development and implementation practice could be influenced by insufficiencies and infringements in building codes/regulations that could cause buildings failures. Generally, the success of a building code development and implementation practice is directly connected with the involved insufficiencies and infringements in the framework of building code (legal, Administrative, technical, & social), i.e. faults of building code development and implementation should be successfully resolved in order to come to an end of a building project assuring code's objectives (public health, safety and general welfare). One of the early research problems of building code development and implementation practice was conducted by Productivity Commission (2004) where the research organized and categorized the causes of shortcomings of BC according to four main functions of building code, including legal, administrative, technical, and social functions. Productivity Commission Research had been the starting point of research problems of building codes in Kuwait. For the past 20 years, many researchers have high numbers of categories, components and rankings to explain different types of insufficiencies and infringements in building codes/regulations. However, these categories and rankings produce inconsistent and overlapping cause and impact factors. In addition, researchers and practitioners at this point tend to focus on the technical and administrative sides related to the issues of building codes development and implementation, and neglecting the importance of legal and social sides. Legal issues like finding a law to prepare and enforce building codes, cover of insurance companies, building materials testing system, weak regulations related issues, building specifications, and clarity of regulation texts; as well as social issues like community awareness, issuing and enforcing legal court rules, deterrent punishments for violators, violations or cheatings in related issues, all of these were deemed not that critical by most reviewers. The research is specifically concerned with the insufficiencies and infringements in building codes/regulations which cause shortcomings of minimum requirements of public health, safety and general welfare, and how related cause and impact factors are selected and organized. Existing research highlights the need for further researches of how to relate between research and building regulations that are at present. There is evidence that construction industries around the world have little experience in this area (CIB TG37, 2001). The proposal within this research is to address this aspect of the debate by seeking to clarify the role of the four functions of building code; legal, administrative, technical, and social function as a frame of reference that stakeholder parties (building officials, design and construction professionals) might agree with and which should act as the basis for the selection and formation of occurrences of cause factors, and their iv impact on public health, safety and general welfare. The focus on the four functions of building code as a fault (cause) frame of reference potentially leads to a common, practical view of the (multi) dimensionality setting of fault (cause) within which cause factors may be identified and which, we believe, could be grounded across a wide range of practices specifically in this research of building code development and implementation. The research surveyed and examined the opinions of building officials, design and construction professionals. We assess which fault (cause) factors are most likely to occur in building and construction projects; evaluate fault (cause) impact by assessing which fault (cause) factors that building officials, design and construction professionals specifically think are likely to arise in the possibility of shortcomings of minimum requirements of public health, safety and general welfare. The data obtained were processed, analyzed and ranked. By using the EXCEL and SPSS for factor analysis, all the fault (cause) factors were reduced and groups into clusters and components for further correlation analysis. The analysis was able to prove an opinion on fault (cause) likelihood, the impact of the fault (cause) on the objectives of building code. The analysis indicates that it is possible to identify grouping of insufficiencies and infringements in building codes/regulations that is correspondent to the different parts of the framework of building code (legal, Administrative, technical, & social) these suggest three identified groups when viewing cause from the likelihood occurrence and four identified groups and their impact for each building code objective. The evidence related to the impact of building code objectives, view of cause, and provides a stronger view of which components of cause were important compared with cause likelihood. The research accounts for the difference by suggesting that a more selection and formation of cause and impact, offered by viewing cause within the context of a framework of building code, and viewing impact within the context of building code objectives (public health, safety and general welfare) allows those involved in building code development and implementation to have an understandable view of the relationships within cause factors, and between cause and impact factors. It also allows the various cause components and the associated emergent clusters to be more readily identified. The contribution of the research relates to the assessment of cause within a construction that is defined in the context of a fairly broad accepted view of the framework of building code (legal, Administrative, technical, & social). The fault (cause) likelihood construction is based on the building code framework proposed in this research and could facilitates a focus on roles and responsibilities, and allows the coordination and integration of activities for regular development and implementation with the building code goals. This contribution would better enable building officials and code writers to identify and manage faults (causes) as they emerge with BC aspects/parts and more closely reflect building and construction activities and processes and facilitate the fault (cause) administration exercise.
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Evaluating the DBH Verification Method to Complex Buildings Designed According to New Zealand Compliance Documents C/AS1Han, Yuzhuo January 2011 (has links)
Performance-based fire engineering design is becoming a more common practice for fire safety design of large complex buildings and modifying existing buildings. However, different engineering assumptions and ambiguous acceptance criteria not only lead to inconsistent level of safety, but also cause inefficient Building Consent process and can result in expensive appeals.
In August 2006 the New Zealand Department of Building and Housing (DBH) has been developing a Verification Method (C/VM2) for demonstrating compliance with the Fire Safety requirements of the New Zealand Building Code (C Clauses).
This research evaluated the proposed C/VM2 on four complex buildings, including Multi-level Night Club, Hospital, Shopping Mall and Retail Warehouse. It has showed that the C/VM2 successfully implements a systematic and less ambiguous guidance for the future performance-based fire safety designs. However, continued analysis and development is necessary that a solely deterministic method may not be the best solution. A risk-based concept is suggested to be incorporated into the new generation of the C/VM2.
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Automated checking of building requirements on circulation over a range of design phasesLee, Jae Min 07 July 2010 (has links)
This study focuses on the development of a new, formal method for the automated checking of pedestrian circulation rules in Courthouse Design Guide.
Automated building rule checking is an automated process of design evaluation against design requirements. Since the early 1970's, when the electronic representation of building design became available, automated building rule checking, a computational process, has been a focus of study, and it continues to be a popular research area because it facilitates the design evaluation process by reducing the checking time and evaluation costs and by increasing the objectivity and the reliability of the evaluation. Thanks to the emergence of BIM (Building Information Model) authoring software, BIM became available to use in real building design, and several automated building code checking systems were developed based on BIM.
In practice, the use of a rule checking system in real design evaluation may be influenced by several factors. Among the factors that affect the accuracy and the reliability of automated checking such as checking algorithms and rule interpretation is the level of completeness of the BIM in the design process, which can cause limitations in the application of a rule checking algorithm to the model. Problems caused by the incompleteness of the BIM occurred in CORENET project, a project initiated by the Singapore government in 1999 for automation of building code checking, and GSA Courthouse Design Guide Automation project (GSA), initiated at Georgia Tech in 2007 also faced with the same problems caused by incompleteness of BIM in the development stage.
This thesis is a continuing research of GSA-Courthouse Design Guide Automation project (Simply, GSA project). The theoretical goals of this study are to provide a logical foundation upon which one can build an automated checking module for circulation rule checking and that is capable of outlining the rule-validation process independently from its diverse implementation. The theory for circulation rule checking is devised to represent the process of the validation of a building design in the development stage. The theory deals with issues of validation caused by the lack of data in the development of a building design.
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Estimated Benefits of Achieving Passivhaus and Net Zero Energy Standards in the Region of Waterloo Residential Sector and the Barriers and Drivers to Achieve ThemKraljevska, Elena January 2014 (has links)
As the third largest energy consumer, the residential sector in Canada is responsible for 17% of energy consumption and 15% of greenhouse gas emissions. With the increase in population, the number of new houses is expected to increase by 2.8 million from 2005 to 2020, and more energy is expected to be consumed despite the emergence of better insulated houses and more efficient heating methods. The primary objective of this study is to determine the prospects of reducing CO2 emissions from the residential sector in Waterloo Region by achieving a higher building standard, such as the Passivhaus (PH) and Net Zero Energy (NZE). The profile of the building envelope, including the initial CO2 emissions was compared against the requirements of the PH and NZE standards, using the Residential Energy Efficiency Project dataset (2007-2012). The second objective evaluates the barriers and drivers that influence the setting of higher building envelope standards. Ontario Building Codes (1975-2012) were analysed to determine the changes to insulation requirements over time, and Ontario Legislative Assembly debates (1970-2012) were reviewed to determine the barriers and drivers expressed in political debates. Content analysis was applied to the Legislative Assembly of Ontario’s documents to determine the frequency of nine word categories prior to each new building code. This study identified three main categories of drivers: awareness of environmental issues, resource limitation, and the implications of climate change; and three categories of barriers: financial, political and structural, and barriers related to information, promotion, and education. The findings of this study confirm that existing houses in Waterloo Region can achieve substantial reductions in CO2 emissions and energy usage by meeting higher building standards. Building code improvements have certainly played an important role in the evolution of Ontario houses, and the 2012 building code, achieves the R-2000 standard universally. More advanced standards show the potential for greater savings, but have only been adopted on a voluntary basis.
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A cidade real e a legal na cidade de São Paulo: as tipologias das construções informais no provimento autônomo de habitações populares na região dos distritos de Casa Verde, Limão e Vila Nova Cachoeirinha. / The real and the legal city in the city of São Paulo: irregular building types in self-provision of low-income housing in the districts of Casa Verde, Limão and Vila Nova Cachoeirinha.Nunes, Evaldo Grasso 05 July 2010 (has links)
As cidades do mundo, atualmente, abrigam mais da metade da população do planeta. A cidade de São Paulo possui a maior população urbana do continente sul americano, e está entre as cinco maiores cidades do mundo. A fim de organizar o espaço urbano com vistas ao desenvolvimento e controlar a construção das edificações para que mantenham condições aceitáveis de habitabilidade e segurança para si e para o seu entorno, a cidade de São Paulo vem criando leis urbanas, como Zoneamento de 1972 e de 2004, com o objetivo de ordenar o uso e a ocupação do solo, e os Códigos de Obras, como os de 1934, 1975 e 1992, que fixaram os parâmetros de construção das edificações. No entanto, grande parte de sua população constrói suas moradias de forma irregular ou clandestina, sem levar em conta as regras urbanas impostas por essas leis. Este trabalho irá investigar as causas dessa informalidade, em especial as habitações produzidas pela população de mais baixo poder aquisitivo, e procurará trazer soluções para o problema. / At the present moment in the cities of the world lives more than the half of the population of the planet. The city of São Paulo has the largest urban population of the South American continent, and is among the five largest cities in the world. In order to organize the urban space taking into account the development and to control the construction of buildings to maintain acceptable conditions of habitability and safety for the population and the environment, the city of São Paulo has issued laws such as Urban zoning of 1972 and 2004 to organize the use and utilization of the land, and the Building code, as the 1934, 1975 and 1992, to set parameters for construction of buildings. However, a lot of its population build their houses in a irregular or illegal manner, without taking into account the urban regulations imposed by these laws. This work investigates the causes of these irregularities, in particularly the houses build by the more poor population and tries to produce solutions to the problem.
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A cidade real e a legal na cidade de São Paulo: as tipologias das construções informais no provimento autônomo de habitações populares na região dos distritos de Casa Verde, Limão e Vila Nova Cachoeirinha. / The real and the legal city in the city of São Paulo: irregular building types in self-provision of low-income housing in the districts of Casa Verde, Limão and Vila Nova Cachoeirinha.Evaldo Grasso Nunes 05 July 2010 (has links)
As cidades do mundo, atualmente, abrigam mais da metade da população do planeta. A cidade de São Paulo possui a maior população urbana do continente sul americano, e está entre as cinco maiores cidades do mundo. A fim de organizar o espaço urbano com vistas ao desenvolvimento e controlar a construção das edificações para que mantenham condições aceitáveis de habitabilidade e segurança para si e para o seu entorno, a cidade de São Paulo vem criando leis urbanas, como Zoneamento de 1972 e de 2004, com o objetivo de ordenar o uso e a ocupação do solo, e os Códigos de Obras, como os de 1934, 1975 e 1992, que fixaram os parâmetros de construção das edificações. No entanto, grande parte de sua população constrói suas moradias de forma irregular ou clandestina, sem levar em conta as regras urbanas impostas por essas leis. Este trabalho irá investigar as causas dessa informalidade, em especial as habitações produzidas pela população de mais baixo poder aquisitivo, e procurará trazer soluções para o problema. / At the present moment in the cities of the world lives more than the half of the population of the planet. The city of São Paulo has the largest urban population of the South American continent, and is among the five largest cities in the world. In order to organize the urban space taking into account the development and to control the construction of buildings to maintain acceptable conditions of habitability and safety for the population and the environment, the city of São Paulo has issued laws such as Urban zoning of 1972 and 2004 to organize the use and utilization of the land, and the Building code, as the 1934, 1975 and 1992, to set parameters for construction of buildings. However, a lot of its population build their houses in a irregular or illegal manner, without taking into account the urban regulations imposed by these laws. This work investigates the causes of these irregularities, in particularly the houses build by the more poor population and tries to produce solutions to the problem.
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Microeconomic reform of the building and development process: the development and outcomes of building regulation reform in Australia 1990-2003Wallace, Gabrielle, not supplied January 2006 (has links)
As a component of the regulatory structure controlling building construction and land development in Australia, the system of building regulation was reformed during a period of significant restructuring of the Australian economy. The microeconomic reforms aimed to find efficiencies in government and industry sectors, and with respect to the latter, facilitate the development of competitive trade structures across national and global markets. The research provides a critical narrative account of the development and outcomes of the microeconomic reform of building regulation between 1990 and 2003. The microeconomic reform process is examined in the context of the vastly differing approaches of two Australian states, Victoria and New South Wales, with respect to the national reform agenda which was initiated and led by the Commonwealth government in response to the increasing globalization of the national economy. An understanding of what happened and why and how t he states differed with respect to the national reform agenda enabled the outcomes of the reforms to be examined for their impact upon government, industry and the community. The regulation of building construction is a constitutional responsibility of the state governments and has traditionally been controlled by local government. However, control is increasingly being centralized at the national level, in response to international pressures to adopt performance-based regulations, standards and governance systems that accord to neoliberal ideology. This has resulted in a reduction of state and local government involvement in certain building control functions with a commensurate increased role for the private sector; an increase in the complexity and quantity of regulatory instruments; a reduction in government accountability for the standard of building construction; the development of structures to facilitate competitive intranational and international trade in construction-related goods and services and a reduction in the quality and standard of buildings. The principal benefits of the reforms have accrued to industry and to government and the least benefits have accrued to the community/consumer.
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Spreadsheet Based Tool for Building Energy Codes: Analysis, Comparison and ComplianceJanuary 2011 (has links)
abstract: Buildings in the United States, account for over 68 percent of electricity consumed, 39 percent of total energy use, and 38 percent of the carbon dioxide emissions. By the year 2035, about 75% of the U.S. building sector will be either new or renovated. The energy efficiency requirements of current building codes would have a significant impact on future energy use, hence, one of the most widely accepted solutions to slowing the growth rate of GHG emissions and then reversing it involves a stringent adoption of building energy codes. A large number of building energy codes exist and a large number of studies which state the energy savings possible through code compliance. However, most codes are difficult to comprehend and require an extensive understanding of the code, the compliance paths, all mandatory and prescriptive requirements as well as the strategy to convert the same to energy model inputs. This paper provides a simplified solution for the entire process by providing an easy to use interface for code compliance and energy simulation through a spreadsheet based tool, the ECCO or the Energy Code COmpliance Tool. This tool provides a platform for a more detailed analysis of building codes as applicable to each and every individual building in each climate zone. It also facilitates quick building energy simulation to determine energy savings achieved through code compliance. This process is highly beneficial not only for code compliance, but also for identifying parameters which can be improved for energy efficiency. Code compliance is simplified through a series of parametric runs which generates the minimally compliant baseline building and 30% beyond code building. This tool is seen as an effective solution for architects and engineers for an initial level analysis as well as for jurisdictions as a front-end diagnostic check for code compliance.   / Dissertation/Thesis / Rocky Mountain Institute- Model Manager Tool / ECCO Spreadsheet Tool / M.S. Built Environment 2011
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A Comparison of American, Canadian, and European Home Energy Performance in Heating Dominated – Moist Climates Based on Building CodesBerkland, Stephanie M 01 January 2014 (has links) (PDF)
This research compares the energy performance of a code-built residential building within the moist climate zone classification in Canada, Europe, and the Northeastern United States. The primary objectives are to reveal how specific differences in code requirements in similar climates influence a building’s energy profile, offer a means to quantify and evaluate the extent of energy savings as a result of each requirement, and provide a comparison of each location’s building culture and how this affects the standards in place.
Using the building energy simulation tool, DesignBuilder EnergyPlus Simulation, a model single-family home was created and input energy code requirements for each location. An evaluation of each location’s building culture is examined through such factors as the training of building professionals, commonly used materials and products, energy reduction goals, and cultural attitudes.
The results of this study point to the need for more advanced building practices, stricter code mandates, and higher performing products based on energy savings achieved from buildings built to different standards in equivalent climate zones. This has the potential to drive the development and use of better performing building materials and assemblies in the future.
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