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Journal articles on the topic 'Building Industry'

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Published: 4 June 2021
Last updated: 10 March 2023

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1

Yang, Yun Hui. "Green Building Development Features in China." Applied Mechanics and Materials 587-589 (July 2014): 725–30. http://dx.doi.org/10.4028/www.scientific.net/amm.587-589.725.

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China has the biggest building construction market in the world today and it is growing at an explosive rate. At present, more than 85% of China's newly constructed buildings and more than 95% of the existing buildings are high energy consumption buildings. 1 Green building is undoubtedly a great emerging market for the Chinese building industry, green and clean technology and products are becoming rapidly growing market in China. Both the new green building construction and existing building’s energy retrofit market will significantly grow in future. This paper discusses features of the green building development in China with respect to various aspects of the green building development situations, green building rating systems and its features so as to make further improvements. The discussion was refined based on literature reviews, requests for information from certification system owners, and interviews with certification system users and members of the industry advisory group.
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2

Kashid, Sumit D., and Dr A. R. Kolhe. "Effective Material Management For Building Construction Industry." Journal of Advances and Scholarly Researches in Allied Education 15, no. 2 (April 1, 2018): 561–65. http://dx.doi.org/10.29070/15/56897.

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3

Akieda, Shizuka. "Building a New Industry :." Seikei-Kakou 32, no. 7 (June 20, 2020): 250–51. http://dx.doi.org/10.4325/seikeikakou.32.250.

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4

James, T. "Body building [automobile industry]." Manufacturing Engineer 86, no. 1 (February 1, 2007): 20–23. http://dx.doi.org/10.1049/me:20070104.

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5

Sabory, Najib Rahman, Tomonobu Senjyu, Mir Sayed Shah Danish, Sayed Maqbool Sayed, Arash Ahmadi, and Edris Saeedi. "Post-2000 Building Industry in Kabul City from Sustainability Perspective." Sustainability 13, no. 14 (July 13, 2021): 7833. http://dx.doi.org/10.3390/su13147833.

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Buildings are one of the major consumers of energy and producers of greenhouse gases globally. Reducing energy consumption and greenhouse gas emissions from buildings helps decrease global warming and enhances the natural environment. This can only happen by transitioning from traditional to sustainable architecture and urban planning. For decades, sustainable architecture and urban planning have been applied in many countries’ building sectors, but others among the poor and least developed countries are left behind. Kabul, the capital of one of the least developed countries, Afghanistan, has experienced a remarkable growth rate in population and building since 2001. This rapid and uncontrolled growth of building construction caused problems from different perspectives, especially from the sustainability perspective. In this paper, the current state of the building industry in Kabul is evaluated from a sustainability perspective, especially those constructed after the year 2000. This assessment helps to rate and see how sustainable each type of building is. Analysis of the collected data clarifies that buildings’ sustainability level in Kabul city is significantly low. Based on the results, recommendations provide a better future for the building industry and ensure that existing and future buildings are sufficiently sustainable to protect the environment of Kabul city and of the globe.
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6

Anosike, M. N., and A. A. Oyebade. "Sandcrete Blocks and Quality Management in Nigeria Building Industry." Journal of Engineering, Project, and Production Management 2, no. 1 (January 31, 2012): 37–46. http://dx.doi.org/10.32738/jeppm.201201.0005.

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7

Ku, Namkug, Sol Ha, and Myoung-Il Roh. "Crane Modeling and Simulation in Offshore Structure Building Industry." International Journal of Computer Theory and Engineering 6, no. 3 (2014): 278–84. http://dx.doi.org/10.7763/ijcte.2014.v6.875.

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8

Rondinel-Oviedo, Daniel R., and Naomi Keena. "Embodied Carbon: A call to the building industry." IOP Conference Series: Earth and Environmental Science 1122, no. 1 (December 1, 2022): 012042. http://dx.doi.org/10.1088/1755-1315/1122/1/012042.

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Abstract The demand for building materials will increase drastically in the following decades due to urbanization and population growth. Buildings generate almost 40% of annual global carbon dioxide (CO2) emissions contributing to human-induced climate change. Of this fraction, 11% is associated with material production and building construction, and 28% is contributed to the operational activities of a building (heating, cooling, lighting). One primary measure of the climate impact of buildings is embodied carbon (EC). This paper aims to find the recent developments in relation to embodied carbon within the building industry. To achieve this goal, a literature review was conducted to study the EC concept concerning materials and construction. The article explores and presents the state-of-the-art of diverse research and development related to this concept, focusing primarily on (1) the carbon cycle and the building sector, (2) EC benchmarking, (3) bio-based materials, and (4) other low-carbon material alternatives such as the development of carbon capture technologies. The objective of this paper is to summarize current and emerging trends as well as research priorities and tools to inform designers and engineers and facilitate their decision-making during the design process. It also aims to facilitate in advancing the creation of regulations and policies toward natural-based material solutions and the development of low-carbon high-tech material technologies deemed central for a sustainable built environment.
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9

Nesterenko, O., N. Onishchenko, and A. Samokhvalova. "RISKS IN THE BUILDING INDUSTRY." Scientific Bulletin of Civil Engineering 97, no. 3 (2019): 154–58. http://dx.doi.org/10.29295/2311-7257-2019-97-3-154-158.

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10

Keshap, Rahul. "Building a New Industry Standard." CFA Institute Magazine 27, no. 4 (December 2016): 17. http://dx.doi.org/10.2469/cfm.v27.n4.6.

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11

Bansal, Pradeep. "Automation in the building industry." Science and Technology for the Built Environment 24, no. 1 (October 31, 2017): 1–2. http://dx.doi.org/10.1080/23744731.2017.1399651.

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12

Jauhari, Vinnie. "Building employability in hospitality industry." Worldwide Hospitality and Tourism Themes 5, no. 3 (June 7, 2013): 268–76. http://dx.doi.org/10.1108/whatt-02-2013-0009.

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13

Doka, Kenneth J., and Denise Smith-Fraser. "Building Coalitions with Private Industry:." Gerontology & Geriatrics Education 10, no. 1 (November 13, 1989): 81–90. http://dx.doi.org/10.1300/j021v10n01_08.

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14

Baker, Roger C. "Bridge building - academia to industry." Journal of Physics E: Scientific Instruments 20, no. 3 (March 1987): 239–41. http://dx.doi.org/10.1088/0022-3735/20/3/201.

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15

Kauskale, L., I. Geipele, N. Zeltins, and I. Lecis. "Environmental and Energy Aspects of Construction Industry and Green Buildings." Latvian Journal of Physics and Technical Sciences 54, no. 2 (April 1, 2017): 24–33. http://dx.doi.org/10.1515/lpts-2017-0010.

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Abstract Green building is an important component of sustainable real estate market development, and one of the reasons is that the construction industry consumes a high amount of resources. Energy consumption of construction industry results in greenhouse gas emissions, so green buildings, energy systems, building technologies and other aspects play an important role in sustainable development of real estate market, construction and environmental development. The aim of the research is to analyse environmental aspects of sustainable real estate market development, focusing on importance of green buildings at the industry level and related energy aspects. Literature review, historical, statistical data analysis and logical access methods have been used in the research. The conducted research resulted in high environmental rationale and importance of environment-friendly buildings, and there are many green building benefits during the building life cycle. Future research direction is environmental information process and its models.
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16

Cidell, Julie. "Building Quality, Building Green: Conventions Theory and Industry Transformation." Urbani izziv 23, s 2 (2012): s186—s194. http://dx.doi.org/10.5379/urbani-izziv-en-2012-23-supplement-2-016.

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17

Bui, Thao Thi Phuong, Suzanne Wilkinson, Niluka Domingo, and Casimir MacGregor. "Zero Carbon Building Practices in Aotearoa New Zealand." Energies 14, no. 15 (July 23, 2021): 4455. http://dx.doi.org/10.3390/en14154455.

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In the light of climate change, the drive for zero carbon buildings is known as one response to reduce greenhouse gas emissions. Within New Zealand, research on climate change mitigation and environmental impacts of buildings has received renewed attention. However, there has been no detailed investigation of zero carbon building practices. This paper undertakes an exploratory study through the use of semi-structured interviews with government representatives and construction industry experts to examine how the New Zealand construction industry plans and implements zero carbon buildings. The results show that New Zealand’s construction industry is in the early stage of transiting to a net-zero carbon built environment. Key actions to date are focused on devising a way for the industry to develop and deliver zero carbon building projects. Central and local governments play a leading role in driving zero carbon initiatives. Leading construction firms intend to maximise the carbon reduction in building projects by developing a roadmap to achieve the carbon target by 2050 and rethinking the way of designing and constructing buildings. The research results provide an insight into the initial practices and policy implications for the uptake of zero carbon buildings in Aotearoa New Zealand.
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18

Liao, Chen Ya, Da Lu Tan, and Yun Xuan Li. "Research on the Application of BIM in the Operation Stage of Green Building." Applied Mechanics and Materials 174-177 (May 2012): 2111–14. http://dx.doi.org/10.4028/www.scientific.net/amm.174-177.2111.

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Today the construction of green buildings is in full swing, and the concept of green goes deeply into the hearts of the people. However, practitioners in the construction industry often place the emphasis of green building construction on the stage of design and construction. They hardly realize that green building's operation stage is the most important part in the whole life cycle of the building. To build real green building, it also needs sustainable development in the operation stage. The appearing of BIM (Building Information Model) technique effectively solved this problem. Using BIM technique in operation stage can effectively promote work efficiency of the operation organization, improve quality of service to customers, reduce the occurrence of emergencies in building's operation stage, improve safety performance, reduce resources waste and then construct real green buildings.
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19

Dewagoda, Kaveesha Gihani, S. Thomas Ng, and Mohan M. Kumaraswamy. "Design for Circularity: The Case of the Building Construction Industry." IOP Conference Series: Earth and Environmental Science 1101, no. 6 (November 1, 2022): 062026. http://dx.doi.org/10.1088/1755-1315/1101/6/062026.

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Abstract The role of design in transitioning towards a circular economy (CE) is strategic in the building construction industry as the potential for creating, developing, and sustaining circular value throughout the whole building life cycle is largely determined by the building design. Circular building design approaches that are being commonly deployed are often based on technical perspectives that assume buildings to be static products of the building construction industry. However, buildings are complex and dynamic with components and materials having their own individual life cycles, interacting dynamically with each other over space and time in a continual state of change. Moreover, changing stakeholder needs and expectations and other external factors add further layers of complexity in developing and sustaining the circular value created by the initial building design. Therefore, a holistic approach that accounts for the above contributors and integrates the building dynamism across its life cycle including stakeholder involvement, was ideated, based on the extant literature gap and the industrial need. The study conceptualised a holistic ‘design for circularity’ (DfC) framework based on a comprehensive literature review. The literature review was followed by 07 preliminary semi-structured interviews of relevant experts, so as to address relevant industry needs in developing this framework further. The findings enable the formulation of an overarching design centred framework to not only create, but also to develop and sustain circular value throughout the whole building life cycle, as presented in this paper.
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20

Kanters, Jouri. "Circular Building Design: An Analysis of Barriers and Drivers for a Circular Building Sector." Buildings 10, no. 4 (April 16, 2020): 77. http://dx.doi.org/10.3390/buildings10040077.

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Circular building design could significantly reduce the environmental impact of buildings and the pressure on natural resources. However, most buildings today are not designed according to the principles of the circular economy. Most literature has focused on either methods for quantifying the lifecycle analysis of buildings and materials, or on innovative circular building materials, but not much is known about the design process of circular buildings and how architects are dealing with translating the principles of the circular economy to the building sector. A series of semi-structured interviews with architects and consultants that have engaged in circular building design has been conducted to identify the barriers and drivers of the transformation towards a circular building sector. Interviews were analysed using qualitative coding analysis. The conservativeness of the building industry, the lack of political priority and the dependency throughout the building industry were found to be the main barriers, while a supportive client with a well-defined assignment and idea was considered to be the main driver. The contribution of this paper to key actors in the building sector is to identify the main barriers and drivers for a circular building sector.
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21

Chau, K. W. "Estimating industry-level productivity trends in the building industry from building cost and price data." Construction Management and Economics 11, no. 5 (September 1993): 370–83. http://dx.doi.org/10.1080/01446199300000041.

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22

Novotný, Miloslav, Karel Šuhajda, Jindřich Sobotka, and Jan Gintar. "Use of EMW Radiation in the Building Industry." Advanced Materials Research 1041 (October 2014): 297–302. http://dx.doi.org/10.4028/www.scientific.net/amr.1041.297.

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This paper discusses theory and application of microwave radiation and experimental optimization of microwave radiation to eliminate moisture content in wood elements. Owing to its properties, microwave radiation has been used in the construction industryin modern times, in particular to dry wet masonry of buildings. Effects of electromagnetic radiation on building structures lead to relatively sharp decreases in moisture content from damp building structures or elements. The influence of electromagnetic radiation on building structures lead to oscillation of water molecules contained in the material, which cause a phase transformation of water into vapour. Consequently, the vapour evaporates from the moist material, thereby drying the element exposed to radiation.The article describes experiments carried out at the Faculty of Civil Engineering of the Faculty of Technology in Brno that demonstrate successful decrease of water content in building materials using microwave radiation. First, the understanding of microwave radiationwill be discussed.Following an analysis of research results an optimum intensity of microwave radiation sources as well as the necessary length of the irradiation of microwave radiation have been determined with respect to the particular type of building material and the success rate of elimination of moisture.
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23

Chukwudi, Obi Ifeanyi. "ORGANIC PLASTICS: MATERIAL FOR SICK BUILDING SYNDROME CONTROL AND PREVENTION IN BUILDING CONSTRUCTION." International Journal of Research -GRANTHAALAYAH 6, no. 6 (June 30, 2018): 193–99. http://dx.doi.org/10.29121/granthaalayah.v6.i6.2018.1365.

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Plastics are organic materials, which consist of synthetic or natural high-molecular compounds (polymers). Due to the large variety of plastic, its different types have different properties, which make it possible to widely use this material in all fields of industry from packaging to the construction industry. The second highest consumer of organic plastics materials after packaging is the construction industry. Thanks to great versatility, cost effectiveness, durability, strength to weight ratio and low maintenance plastics appear to be economically attractive in the construction sector and are used in the manufacturing of wide range of materials in the construction industry. Plastics most times are not easily seen in buildings, but they are widely used in construction and building industry for a vast and wide range of materials, which include insulation, piping, interior design, piping and conduit (rain water, electrical conduits, and sewage pipes, gas distributions and plumbing). Piping and Conduit for instance can consume around 35% of plastic production and are one of the largest consumers of polymers in construction. The purpose of this research is to study plastic as a construction material that can be used to control the formation of Sick building syndrome in buildings, and also as a material that can often be used in the construction industry.
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24

Kendall, Stephen. "Developments Toward A Residential Fit-Out Industry." Open House International 36, no. 1 (March 1, 2011): 86–94. http://dx.doi.org/10.1108/ohi-01-2011-b0010.

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This paper outlines some of the background of and constraints facing the emergence of a new industry, focused not on buildings as such but on residential fit-out – the integrated kit-of-parts “behind your front door.” Residential application of the distinction between base building (support) and fit-out (infill), although sharing the same principles as the well-established office building and shopping mall sectors, is particularly important because it affects a very large market whose potential is not yet exploited but is arguably nascent. It is well understood that industrial manufacturing processes – now becoming “product service systems” in the consumer sector – are most effective and dynamic where individual users are directly served, as seen in the automotive and electronics/communications sectors. Construction of base buildings understood as “infrastructures for living” is capable of stimulating the evolution of a fit-out industry that will itself accelerate innovation and distribution of new domestic fit-out services and systems. In general, the creation of a genuine fit-out industry is not a technical or industrial design problem. Material subsystems and components like partitioning, bathroom and kitchen equipment, as well as “plug-and-play” piping and wiring are available or are being invented and approved in regulatory regimes internationally. While some smart products are still needed, the problem now is essentially a business proposition. By shifting to the provision of benefits rather than simply manufacturing products, companies may find a competitive advantage in a sector of the building industry now poised for an innovation leap. In the US and other developed countries, this is particularly compelling given the sustainability agenda, smart growth and increased demand for consumer-oriented production. In this perspective, the trend toward base building architecture allows the building industry to effectively come to terms with new and creative modes of industrial production.
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Liu, Su Fang, Hai Yang Ren, and Ye Niu. "Discussion on Development Trend in the Construction Industry - Green Low Carbon Buildings." Applied Mechanics and Materials 641-642 (September 2014): 1021–24. http://dx.doi.org/10.4028/www.scientific.net/amm.641-642.1021.

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With the development of society, the concept of building energy conservation and reuse become more and more popular. As the result, it is important to develop energy-saving buildings and advocate low carbon life, so that it will push ahead the efficient use of building energy, and moreover, the energy saving in the daily life of the society. Nowadays, the public society has pay close attention to the green low carbon buildings as it is consistent with this trend. Starting from the concept and features of green low carbon building, this article discussed the approach of achieving the low carbon buildings according to the engineering design. In the end, this article also addressed the significance of implementing green low carbon buildings.
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26

Liu, Hui. "Research on The Development Mechanism of Prefabricated Building Industry Chain." BCP Business & Management 21 (July 20, 2022): 255–59. http://dx.doi.org/10.54691/bcpbm.v21i.1246.

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With the acceleration of urbanization in China, the shortcomings of traditional construction methods are becoming more and more obvious. Under the situation of increasingly tight natural resources, low-cost, low-pollution prefabricated buildings are more in line with the concept of sustainable development in my country. As a product of aggregation, the industrial chain can provide convenience for the development of prefabricated buildings, but the current research on the industrial chain of prefabricated buildings lacks the perspective of sustainable construction. This paper analyzes the research of domestic and foreign scholars by combining the prefabricated building with the industrial chain, and studies the governance mechanism of the prefabricated building industry chain from the perspective of sustainable development. Promote the healthy development of the prefabricated construction industry chain and drive the development of the national economy.
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27

Wang, Junmin. "State-Building as Market-Building in China." European Journal of Sociology 47, no. 2 (August 2006): 209–40. http://dx.doi.org/10.1017/s0003975606000075.

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By examining the history of the development of the tobacco industry, a key state industrial sector in China's reform era, this article shows how market-building processes and state-building processes have produced and reproduced each other in economic transitions from planned toward market economies. First, the market competition between state-owned tobacco firms and non-state tobacco firms in the early 1980s resulted in the establishment of a vertical bureaucracy, through a statemonopoly institution. Second, new market dynamics resulted in the transfer of monopoly power from the central government to the local governments. During this process the horizontal bureaucracies governing the tobacco industry in localities were driven into market competitors, while the vertical bureaucracy was greatly undermined. The evidence from the Chinese tobacco industry shows that the project of market-building for postcommunist countries is not a unilateral process. To obtain a complete understanding of transitional economies of postcommunist countries, I suggest that the key is the interaction between state-building and market-building, with a focus on how the specific market dynamics have rebuilt the state structures.
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28

Liu, Lifang, and Yuhang Zhai. "Application of Lightweight Thermal Insulation Building Materials for Green Building Design." Journal of Chemistry 2022 (September 8, 2022): 1–7. http://dx.doi.org/10.1155/2022/7044427.

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In order to focus on the application of green environmental protection lightweight thermal insulation materials, an in-depth study is carried out on the basis of joint architectural design. The application of green environmental protection materials in the construction industry was successfully analyzed through methods such as layout design method, optimization design method, and scientific optimization of material selection. In the process of urbanization development in our country, the number of urban population has increased sharply, and the demand for buildings has also increased. Therefore, it is necessary to rapidly promote green building design while the construction industry is developing rapidly and complete the upgrading and transformation of the building in terms of form design. We pay attention to the needs of buildings in terms of shading and lighting, and improve the conditions of building shading and lighting through green building technology. As a result, on the basis of maintaining the residual heat of the building, the diffuse radiation of the ultraviolet rays of the sun is realized, which effectively improves the utilization efficiency of natural energy and reduces the consumption of internal energy. Architectural design under the concept of green building design not only can it meet the current functional requirements of people for architecture but also imperceptibly promote the stable development of our country’s construction industry. After the research on the application of green environmental protection materials, the integration and application of green building design concepts in architectural design is of great significance not only to meet people's health and ecological needs of buildings but also to promote social stability and sustainable development.
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29

Sun, Yuting, and Bee Hua Goh. "Contribution Index Based on Green Building Certification Systems." Construction Economics and Building 15, no. 2 (May 30, 2015): 31–48. http://dx.doi.org/10.5130/ajceb.v15i2.4348.

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Green Building Certification Systems (GBCS) are carried out in many countries due to the rising awareness of the importance of sustainability in the building industry. The intention should have motivated participants to construct and operate buildings sustainably, however, there is not yet a method developed to investigate the motivation of the participants. Based on the GBCS, this paper proposes the contribution index as a standard global method to analyze the performance of participants in the green building industry. Three contribution indices, namely Frequency Contribution Index (FCI), Intensity Contribution Index (ICI) and Comprehensive Contribution Index (CCI) that concern each different category of participant, have been formulated. Three further analyses based on the index were undertaken to investigate some features of the industry. A case study of Singapore was conducted to show how the contribution index could be used to extract industry patterns and trends and assess the participants’ performance in the green building industry. Interviews with experts provide some suggested applications and support for the findings.
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Liu, Bing, and Zhi Liang Zhang. "Energy Analysis and Energy Saving Applications of Hotel Typed Large Public Building." Advanced Materials Research 356-360 (October 2011): 2459–64. http://dx.doi.org/10.4028/www.scientific.net/amr.356-360.2459.

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Building engineering in China is divided into civil building and industry building. Civil building engineering includes residential building and public building. There are many types of public building: shopping malls, office buildings, hotels and so on. In this thesis, architecture test and investigation are processed for the large public building such as hotel type, which focus on its characteristic features of energy consumption. Then energy conservation schemes are propounded and applied in real buildings.
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31

Moeen, Mahka, Rajshree Agarwal, and Sonali K. Shah. "Building Industries by Building Knowledge: Uncertainty Reduction over Industry Milestones." Strategy Science 5, no. 3 (September 2020): 218–44. http://dx.doi.org/10.1287/stsc.2020.0103.

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Scholars have long been interested in new industry emergence, highlighting that it could often be impeded by uncertainty across four dimensions: technology, demand, ecosystem, and institutions. Building on the insight that uncertainty stems from partial knowledge, we develop a conceptual framework that utilizes a temporal and a process perspective for knowledge generation and aggregation. Industry emergence through key milestones—commercialization, firm takeoff, and sales takeoff—is made possible by knowledge-generation processes by diverse actors within and across uncertainty dimensions, and knowledge-aggregation processes with appending, selecting, and collective mechanisms at play. Our conceptual framework integrates across disciplinary perspectives to shed light on both the development of an industry poised for future growth, and the bottlenecks that may delay or even impede industries from emergence.
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32

Bozhanova, Viktoriia, and Oleksandra Kononova. "Peculiarities of building industry strategic management." Strategy of Economic Development of Ukraine, no. 45 (December 16, 2019): 36–55. http://dx.doi.org/10.33111/sedu.2019.45.036.055.

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33

Bušina, Filip. "Personnel management in the building industry." Kwartalnik Kolegium Ekonomiczno-Społecznego. Studia i Prace, no. 3 (November 29, 2014): 11–30. http://dx.doi.org/10.33119/kkessip.2014.3.1.

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The aim of the text is to present various approaches towards personnel management in the building industry. The difference in the analysed approaches is partially caused by the fact that sectors within building industry also differ substantially. The paper is divided into five sections dealing among others with personnel management and its efficiency, tools used to measure and improve personnel management efficiency and characteristics of specific problems of personnel management. The principle methods of inquiry used in the text include literature study and case study. The author stresses the fact that construction industry is demanding in terms of personnel management, as it has to deal with special requirements stemming from employment area, including: the seasonal nature of the building works, spasmodic nature of works on individual projects, required qualification of workers in the building industry, building technology and system operations. The author concludes that due to constantly changing environment the building industry uses flexible personnel work systems and that the challenge is to adapt the personnel management system efficiency to the variable environment and make the building industry personnel management flexible.
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34

Deans, Robert. "Regulation, manufacturing and building industry consensus." Regenerative Medicine 7, no. 6s (November 2012): 78–81. http://dx.doi.org/10.2217/rme.12.98.

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35

Lipkovich, E. I. "Agricultural machine-building industry: urgent tasks." Traktory i sel hozmashiny 80, no. 11 (November 15, 2013): 3–10. http://dx.doi.org/10.17816/0321-4443-65676.

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The production organization issue for five urgent technical means of engineering industry enterprises in Russian Federation is considered. The new economic assessment procedure of constructive, engineering and technological solutions is given, that can be used at designing of multipurpose machine and tractor unit based on mobile power unit of 5th generation.
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Akhmetov, Fril Mirzanurovich, and Kamil Faritovich Islamov. "Building information modeling in construction industry." Строительное производство, no. 1 (2020): 115–18. http://dx.doi.org/10.54950/26585340_2020_1_115.

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37

VAYSBERG, L. A., A. N. KOROVNIKOV, and T. M. BALDAEVA. "Innovative Screens for Building Materials Industry." Stroitel'nye Materialy 750, no. 7 (2018): 52–55. http://dx.doi.org/10.31659/0585-430x-2017-750-7-52-55.

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38

BUTKEVICH, G. R. "Industry of Nonmetallic Building Materials. Prospection." Stroitel'nye Materialy 776, no. 11 (2019): 32–36. http://dx.doi.org/10.31659/0585-430x-2019-776-11-32-36.

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39

Bushell, Robyn. "Tourism Research: Building a Better Industry." Journal of Travel Research 36, no. 2 (November 1997): 88. http://dx.doi.org/10.1177/004728759703600215.

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Nový, Martin, Jana Nováková, and Miloš Waldhans. "Project management in building industry management." Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis 60, no. 7 (2012): 189–98. http://dx.doi.org/10.11118/actaun201260070189.

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The article deals with contents of the project management on general level first. It mentions the most widespread project management standards, which have historically developed in global scale, their parts and objectives. Further, it describes position of the building industry in national economy, its specific features distinguishing it from the other industrial production, contents of the building industry management and project management of structures. The importance of the role of project manager is documented by characteristics of construction projects, their course, contents of sub-phases, and individual types of managing activities. Attention is devoted to project planning – determination of realization costs, necessary resources, sequence and time course of individual works. The most frequently used graphic methods of schedule presentation – Gantt chart, network chart and frequency bar chart are applied on examples of constructions. These charts can be focused in time sequence on individual types of resources – workforce, finance, materials, energies, and machinery. In conclusion, necessity to manage the project management procedures is emphasized as a part of skills of a construction engineer in the role of preparation manager or construction project realization manager.
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41

HECHT, JEFF. "Building a Fiber-Optic Communication Industry." Optics and Photonics News 12, no. 3 (March 1, 2001): 22. http://dx.doi.org/10.1364/opn.12.3.000022.

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Bradley, David. "The building blocks of smart industry." Materials Today 41 (December 2020): 4–5. http://dx.doi.org/10.1016/j.mattod.2020.10.012.

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Kala, Zdeněk. "Sensitivity Analysis in Advanced Building Industry." Procedia - Social and Behavioral Sciences 2, no. 6 (2010): 7682–83. http://dx.doi.org/10.1016/j.sbspro.2010.05.177.

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de Vries, B., and L. J. Somers. "Message exchange in the building industry." Automation in Construction 4, no. 2 (June 1995): 91–100. http://dx.doi.org/10.1016/0926-5805(94)00032-i.

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Lush, David. "Building services and the construction industry." Museum Management and Curatorship 13, no. 1 (March 1994): 49–56. http://dx.doi.org/10.1080/09647779409515386.

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Gröger, Christoph. "Building an Industry 4.0 Analytics Platform." Datenbank-Spektrum 18, no. 1 (January 17, 2018): 5–14. http://dx.doi.org/10.1007/s13222-018-0273-1.

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Bennett, John. "Japan's Building Industry: The New Model." Construction Management and Economics 11, no. 1 (January 1993): 3–17. http://dx.doi.org/10.1080/01446199300000060.

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Weiler, Betty. "Tourism Research: Building a Better Industry." Tourism Recreation Research 22, no. 2 (January 1997): 70–71. http://dx.doi.org/10.1080/02508281.1997.11014808.

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Mengot, Roy. "BUILDING SYSTEMS ENGINEERING TRAINING IN INDUSTRY." INCOSE International Symposium 2, no. 1 (July 1992): 555–58. http://dx.doi.org/10.1002/j.2334-5837.1992.tb01542.x.

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Var, Turgut, and Muzaffer Uysal. "Building credibility for a credible industry." Annals of Tourism Research 19, no. 2 (January 1992): 373–75. http://dx.doi.org/10.1016/0160-7383(92)90094-6.

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