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Journal articles on the topic 'Building construction engineering'

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Author: Grafiati
Published: 10 December 2022
Last updated: 28 January 2023

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1

V.BHARATHI, V. BHARATHI, and Dr R. PARANTHAMAN Dr.R.PARANTHAMAN. "Application of Value Engineering in Construction Building." Indian Journal of Applied Research 4, no. 4 (October 1, 2011): 135–38. http://dx.doi.org/10.15373/2249555x/apr2014/258.

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2

Zhang, Zhi Jun. "Research on the Specialization and Theory of Building Engineering." Advanced Materials Research 989-994 (July 2014): 5472–75. http://dx.doi.org/10.4028/www.scientific.net/amr.989-994.5472.

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Architectural engineering, also known as building engineering, is the application of engineering principles and technology to building design and construction. Definitions of an architectural engineer may refer to an engineer in the structural, mechanical, electrical, construction or other engineering fields of building design and construction; a licensed engineering professional in parts of the United States; in informal contexts, and formally in some places, a professional synonymous with or similar to an architect. Structural engineering involves the analysis and design of physical objects (buildings, bridges, equipment supports, towers and walls). Those concentrating on buildings are responsible for the structural performance of a large part of the built environment and are, sometimes, informally referred to as “building engineers”.
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3

Peng, Hong Juan. "Discuss on Lightning Protection of Electrical Engineering." Applied Mechanics and Materials 416-417 (September 2013): 1808–12. http://dx.doi.org/10.4028/www.scientific.net/amm.416-417.1808.

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Electric is one of the important resources of daily life, has great significance for the development of the national economy and the improvement of living standards. With the rapid development of construction in China, building electrical engineering is becoming more and more prominent, especially the lightning protection engineering in building electrical. Compared with the traditional housing construction, modern building construction gradually tends to be high development of reinforced concrete structure, more prone to lightning disaster, modern buildings have power lines and electrical equipment perplexing, once the lightning disaster, will cause huge economic losses, but also may cause casualties, therefore, lightning protection, pay attention to building electrical engineering is necessary. This paper introduces the lightning harm and building lightning protection system, analysis of the lightning protection design problem in building electrical engineering, discusses the matters needing attention in construction technology of electrical protection.
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4

Schuetze, Thorsten. "Wood Constructions for Sustainable Building Renovation." Advanced Materials Research 1150 (November 2018): 67–72. http://dx.doi.org/10.4028/www.scientific.net/amr.1150.67.

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This paper discusses the potentials of different wood constructions for the renovation and extension of existing buildings for sustainable urban renewal. The renovation and extension of existing buildings with wood constructions can contribute significantly to sustainable urban redevelopment. The renovation of building envelopes, such as façades and roofs, with highly insulated wooden components, can reduce the transmission heat losses and related heating energy demand of existing buildings significantly. The extension of existing buildings contributes to the redensification of urban areas and can create synergies with the improvement of existing buildings’ performances. The manifold advantages of specific wooden constructions can be related to different aspects, such as construction type and material properties, building execution, design, logistic and sustainability. The results of this research discuss the architectural design and planning relevant properties of specific timber construction types, such as wood frame, cross-laminated timber (CLT), massive timber, and hybrid timber-concrete, considering the properties of different soft (such as spruce) and hard (such as beech) construction timber species. Timber constructions are compared with conventional massive constructions out of concrete and steel. The results confirm the significant advantages of timber constructions regarding all aspects.
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5

Zijlstra, Hielkje. "Analysing Buildings from Context to Detail in Time: The ABCD Research Method Case Study: Friesland Provincial Library in Leeuwarden." Advanced Materials Research 133-134 (October 2010): 283–88. http://dx.doi.org/10.4028/www.scientific.net/amr.133-134.283.

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Progress does not amount to destroying the future, but to preserving its essence, to generate the impetus to do it better today (Y. Ortega Y Gasset 1951). Working in the areas of history and construction technology, the spirit of these statement guided my research: developing a research method for buildings not listed (yet) as monuments but needed to be analysed before the next approach. When studying buildings it is essential to consider not only the art history, social and urban planning factors, but especially the construction engineering aspects. In this way, a deeper understanding of the underlying design and building methods used in our built environment can be developed. There have been many historical and architectural studies of buildings. The period since the Second World War has received particular interest. Unfortunately, most of these studies do not address the technical aspects of the construction of these buildings. However, these issues were covered by publications at the time these buildings were constructed. Technology provided me with the inspiration to develop a more comprehensive research method to assess buildings: Analysing Buildings from Context to Detail in time: ABCD research method. Technology, at academic level, should be considered in the analysis of a building. Here we are concerned with construction engineering, the study of the requirements associated with constructing buildings. The Analysing Building Construction in time research matrix (ABC matrix) can be used in practice. It incorporates the study outcomes which relate to the building itself. Contextual aspects as well as building aspects are included. They can be analysed at the three time levels to draw conclusions which are relevant to the future existence of the building. The case study of the Friesland Provincial Library in Leeuwarden will be worked out in the conference paper.
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6

Blackburne, Laura, Koorosh Gharehbaghi, and Amin Hosseinian-Far. "The knock-on effects of green buildings: high-rise construction design implications." International Journal of Structural Integrity 13, no. 1 (October 13, 2021): 57–77. http://dx.doi.org/10.1108/ijsi-06-2021-0062.

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PurposeThe aims and objectives of this research are to establish whether or not the transition into green building in high-rise construction is practical. This is after considering several perspectives including financial, economic, environmental, and social. This subsequently leads to an evaluation on whether or not the continuation with a standard conventional build of high-rise buildings remains to be the most feasible option. Such objectives, therefore, aim to allow for validation of how and why high-rise construction designs are impacted through green buildings effects.Design/methodology/approachThrough six defined steps, the methodology commences with an introductory section of what it means to build green. This section is further broken down to evaluate what factors are involved in constructing a green building. Furthermore, the life cycle energy (LCE) is used as a framework to evaluate the knock-on effects of green buildings and subsequent high-rise construction design implications.FindingsThrough defining the ongoing relationship of green materials and sustainable design, various implications for high-rise constructions were discovered. First and foremost, it was determined that the LCE is the central consideration for any high-rise building design. In evaluating the LCE, and overall operating energy of the 50-year cycle of a building was carried out. As the results showed, the operating energy represents around 85% of the total energy that is consumed at the end of the 50 years cycle of the building. Precise LCE calculation can lead to a more efficient design for high-rise buildings. As a result, an increased understanding of the current status of green buildings within the construction industry is paramount. This understanding leads to a better insight into the contributing factors to green building in high-rise construction and the construction industry in general.Originality/valueThe potential contribution that can be gained from this research is the awareness that is raised in the research and development of green buildings in high-rise construction. This can be achieved by using certain materials such as new energy-efficient building materials, recycled materials and so on. This research will contribute to defining a new way of sustainable buildings, particularly for high-rise construction. The outcome of the research will be beneficial for practitioners such as design engineers and other related professions.
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7

Xiao, Yong Jian. "Study on Green Construction of Building Engineering." Applied Mechanics and Materials 539 (July 2014): 706–10. http://dx.doi.org/10.4028/www.scientific.net/amm.539.706.

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Green Construction occupies an increasingly important position in the future construction of our country, but also the construction of an important direction of construction. Implement a, green construction and green construction management has a close relationship. I mainly green construction management problems in the analysis, put forward some suggestions and countermeasures on the basis of the hope that they carry out a comprehensive analysis of the construction works have some help.
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8

Pan, Anqi. "Construction Technology of Concrete Structure in Civil Engineering Building." Academic Journal of Science and Technology 2, no. 3 (September 12, 2022): 131–33. http://dx.doi.org/10.54097/ajst.v2i3.1582.

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In civil engineering, concrete plays a vital role, but for the construction technology of concrete, it is necessary to have a perfect management and supervision system to ensure the quality and ensure the smooth progress of the project, so as to improve the implementation process of construction projects. At present, most of the construction projects in China are large-scale composite buildings using concrete materials. Therefore, the implementation of concrete structures and the quality of construction technology are directly related to the quality of the whole project. It can be seen that concrete engineering plays a vital role in the whole construction project. However, as far as the current building projects are concerned, there are still many problems in the construction of concrete projects. Cracks also occur in the high-rise buildings. Cracks also exist in the bottom of high-rise buildings and the bottom of some bridges, which makes the buildings have potential safety hazards. This has to worry people.
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9

Jain, Umang, and Dr J. N. Vyas. "Wind Analysis of Pre Engineered Building." International Journal for Research in Applied Science and Engineering Technology 10, no. 11 (November 30, 2022): 1974–81. http://dx.doi.org/10.22214/ijraset.2022.47722.

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Abstract: With the development of science and technology in the field of structural engineering, it is possible to adopt preengineered buildings in both industrial and residential construction sectors. For important buildings it is more suitable to use pre engineered building as these are more safe and take less time in construction in comparison of RCC structures. The main objective of this paper is pre-engineered steel structure will be design and analyzed for wind loads, dead loads, live loads and different load combinations on structure. The pre-engineered construction concept involves pre-engineering and quality construction systems which will help to minimize the cost and time.
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10

Zhu, Rong Jie, Ying Peng, and Yu Shui Chen. "The Study of Safety Management in Constructional Engineering." Applied Mechanics and Materials 357-360 (August 2013): 2542–45. http://dx.doi.org/10.4028/www.scientific.net/amm.357-360.2542.

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Being the unshakably important component of constructional engineering management, safety management drew the attention of all construction enterprises. However, hidden dangers still remain in many building projects. This thesis analyzes these major safety problems in constructional engineering management and gives effective measures that should be adopted in constructional engineering management in order to avoid accidents in building projects by improving the safety management level of constructional engineering.
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11

Chen, Qi, and Nan Sheng. "Application of Machine Learning Algorithm in Stadium Engineering Building Information Model Management System." Mobile Information Systems 2022 (August 29, 2022): 1–11. http://dx.doi.org/10.1155/2022/8454443.

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BIM (building information modeling) is a building information modeling technology. It is a modeling technology that has quietly emerged in the architectural design and construction industry and will gradually replace the traditional CAD drawing technology. In addition to carrying geometric information of graphics, it can also carry buildings and building components. The engineering and nonengineering information of the building space has a higher degree of visualization and a stronger sense of three-dimensionality, and all the building information can be put into a model. The model can provide dynamic information on engineering construction cost management processes and can be processed by a computer in real time. The purpose of this paper is to study the new method of stadium project building information model management after the introduction of deep learning technology. This article first introduces the artificial neural network under machine learning algorithms by building a neural network model and combining it with the engineering construction information model and then integrating machine learning algorithms into the construction information model technology so that the originally three-dimensional model can further information integration. Compared with the original building information model, the data processing is more efficient and the management level has greatly improved. The experimental results of this paper show that machine learning algorithms can optimize the construction information model of stadium engineering and increase the efficiency of project management by 20%.
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12

Yin, Hai Ping, Gao Li, and Sheng Li. "Research on Controlling and Management Measures with Engineering Technology in Freeway Construction Project." Advanced Materials Research 1003 (July 2014): 203–6. http://dx.doi.org/10.4028/www.scientific.net/amr.1003.203.

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Based on the study on the recent years construction of freeway,the paper figures out the engineering technology quality control on constructing spot.The engineering technology quality control on constructing spot include:quality thinking,building construction site lab,checking on spot,encouragement and punishment,and so on.
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13

Kuang, Guo Fang, and Zhao Feng Sun. "The Novel Model of Building and Energy Engineering with New Building Materials Based on IPv6 Technology." Advanced Materials Research 738 (August 2013): 141–44. http://dx.doi.org/10.4028/www.scientific.net/amr.738.141.

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New building materials variety and yield is developing with hitherto unknown speed, construction engineering development if the effective use of new building materials will be excellent performance of new technology. Novel building materials can significantly reduce the weight of buildings, to promote the light construction structure created the conditions. IPv6 is not only a good solution to the problem of the lack of IP address, but also due to the introduction of encryption and authentication mechanisms to make it a better improvement in the network. The paper presents the novel model of building and energy engineering based on IPv6 technology. Experimental results show that the proposed method has high efficiency.
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14

Liu, Lixin. "Research on Engineering Technology of High-rise Building." 城市建设理论研究—建筑结构 5, no. 1 (2020): 6–8. http://dx.doi.org/10.26789/jzjg.2020.01.003.

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With the continuous development of China’s construction industry, the technical level of high-rise housing construction engineering is constantly improved. Strengthening the technical level of construction engineering, can improve the quality of the project, and also can reduce the project cost. The paper mainly explains the problems, technical points and quality control measures in high-rise housing construction engineering.
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15

Shu, Bin, Erbao Li, and Xianji Meng. "Discussion on Electrical Design of Passive Residential Building." Frontiers Research of Architecture and Engineering 1, no. 1 (January 31, 2018): 19. http://dx.doi.org/10.30564/frae.v1i1.6.

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As the national buildings in each climate zone and passive low energy consumption building demonstration projects expand, there has been a wave of innovation across the construction industry. China is also becoming a hot zone for energy-efficient and high-performance passive buildings. Along with the traditional passive building structure, steel structure passive construction, assembled PC structure passive construction such as the emergence of various types of passive construction, as well as a variety of new building materials, doors and Windows, and air conditioning air equipment, put forward a new challenge for building electrical engineering design personnel and requirements.
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16

Daryati, Daryati. "Evaluasi Pelaksanaan Bimbingan dalam Praktik Keterampilan Mengajar Terhadap Mahasiswa Fakultas Teknik Universitas Negeri Jakarta." Jurnal PenSil 7, no. 2 (August 24, 2018): 105–13. http://dx.doi.org/10.21009/jpensil.v7i2.8504.

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Research aim is to understand the extent of relevance teaching matter in the studying to become with matter teaches at smk the technical expertise building.Research done to suggest course education building technique engineering faculty jakarta state university in determining teaching matter who would be taught, so teaching matter in learned on a course education building technique engineering faculty jakarta state university relevant to the matter teaches in learn in schools.The research in course education building technique engineering faculty jakarta state university. Time research on november 2017 - december 2017 .Research methodology uses the method descriptive qualitative .Technique data collection used analysis the content and direct interview . The results of the study is showed the value of relevance matter teaching lecture majors in course of study education technique building of engineering faculty jakarta state university with matter teaching in smk program expertise technique building as big as 93,33 % the subjects drawing technique, 88,89 % for the mechanics technique, 91,67 % for the construction of buildings, 100 % for the science of measuring land, to draw interiors and exterior not relevant, 42,11 % to draw the construction of buildings 1 and 2, 81,82 % for construction reinforced concrete, 84,21 % for the construction of masonry, 45,45 % for finishing building, for the implementation of wooden construction, finishing wood and technology wooden construction not relevant.
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17

Soraya, Mita, Henita Rahmayanti, and R. Eka Murtinugraha. "Model Pendidikan Karakter Peduli Lingkungan Di Sekolah Penerima Adiwiyata S1 Pendidikan Vokasi Konstruksi Bangunan Fakultas Teknik Universitas Negeri Jakarta." Jurnal PenSil 8, no. 1 (April 10, 2019): 7–15. http://dx.doi.org/10.21009/jpensil.v8i1.8502.

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Abstract Research aim is to understand the extent of relevance teaching matter in the studying to become with matter teaches at smk the technical expertise building.Research done to suggest course education building technique engineering faculty jakarta state university in determining teaching matter who would be taught, so teaching matter in learned on a course education building technique engineering faculty jakarta state university relevant to the matter teaches in learn in schools.The research in course education building technique engineering faculty jakarta state university. Time research on november 2017 - december 2017 .Research methodology uses the method descriptive qualitative .Technique data collection used analysis the content and direct interview . The results of the study is showed the value of relevance matter teaching lecture majors in course of study education technique building of engineering faculty jakarta state university with matter teaching in smk program expertise technique building as big as 93,33 % the subjects drawing technique, 88,89 % for the mechanics technique, 91,67 % for the construction of buildings, 100 % for the science of measuring land, to draw interiors and exterior not relevant, 42,11 % to draw the construction of buildings 1 and 2, 81,82 % for construction reinforced concrete, 84,21 % for the construction of masonry, 45,45 % for finishing building, for the implementation of wooden construction, finishing wood and technology wooden construction not relevant. Keywords: relevance 2013 curriculum , teaching matter , the eye studying to become.
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18

Wu, Rui, Huan Du, and Qi Wu. "Research on Value-Engineering-Based Construction Costs of Energy-Saving Buildings." Applied Mechanics and Materials 744-746 (March 2015): 2310–13. http://dx.doi.org/10.4028/www.scientific.net/amm.744-746.2310.

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With the energy crisis being ever increasingly serious, energy-saving buildings have become a breakthrough for the development of the construction industry. Firstly, this article analyzes the current status of building energy saving in mainland China, and elaborates the necessity of building energy saving in the viewpoint of the entire lifecycle cost by using the value engineering principle. Secondly, this article analyzes the incremental cost of energy-saving buildings and describes the components of the incremental cost. Thirdly, this article analyzes in detail the impact of the incremental cost in the construction phase of buildings by illustrating examples. Finally, this article lists measures and suggestions for cost management to achieve the optimal economic benefits for the entire lifecycle with a minimum incremental cost in the construction phase, resulting in smooth development of energy saving buildings.
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19

Li, Zengyu, and Weibing Hu. "The Discussion on Construction Engineering Technology on Ultra High-rise Building." World Construction 4, no. 4 (December 28, 2015): 55. http://dx.doi.org/10.18686/wcj.v4i4.13.

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<p>With the speeding up of urbanization and increasing of urban population, the urban land resources are increasingly scarce. Emergence of ultra high-rise building is an inevitable trend. At present, our construction industry is in the rapid development period, where the proportion of ultra high-rise buildings in urban architecture of many big cities constantly increases. The improving ultra high-rise engineering technology is an important part of the construction industry in our country. This paper will analyze the ultra high-rise construction technology of building work in detail.</p>
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20

Li, Zengyu, and Weibing Hu. "The Discussion on Construction Engineering Technology on Ultra High-rise Building." World Construction 4, no. 4 (December 28, 2015): 55. http://dx.doi.org/10.18686/wc.v4i4.23.

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<p>With the speeding up of urbanization and increasing of urban population, the urban land resources are increasingly scarce. Emergence of ultra high-rise building is an inevitable trend. At present, our construction industry is in the rapid development period, where the proportion of ultra high-rise buildings in urban architecture of many big cities constantly increases. The improving ultra high-rise engineering technology is an important part of the construction industry in our country. This paper will analyze the ultra high-rise construction technology of building work in detail.</p>
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21

Chen, Xiang, Xue Feng Zhou, and Yong Zhang. "Research on Building Engineering Materials Supplier Selection Based on ANP Method." Key Engineering Materials 474-476 (April 2011): 2089–94. http://dx.doi.org/10.4028/www.scientific.net/kem.474-476.2089.

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It is an inevitable problem that how to select appropriate partner in case of constructing supply chain network taking contractor or owner as main body in the building engineering construction. Based on reference of existing research results of supplier evaluation index system and combining with main evaluation index of building construction, the paper built evaluation index system of building engineering materials supplier and introduced ANP that combining qualitative and quantitative method to select optimal supplier. Supplier selection example of some large scale building material supplier selection based on Super Decision verifies the feasibility of ANP selection method proposed in the paper.
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22

Dong, Chen, Ding Shaopeng, Chen Ming, and Shao Chenyue. "The Simulation and Research of Steel-Work Construction Based on Fuzor." E3S Web of Conferences 136 (2019): 03023. http://dx.doi.org/10.1051/e3sconf/201913603023.

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BIM can achieve analogue simulate the real information of buildings through digital information, aiming to find engineering problems in advance, correct errors timely and reduce waste. At present, BIM has been widely used in the design and construction stage of the construction industry. As a plug-in of AutodeskRevit, Fuzor software can find the problems in the design and construction more intuitive and real, and synchronize the changes. In this massage, the author will take the construction simulation application of 11#experimental building in Fuzor as an example to study the application of Fuzor in constructional engineering.
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23

Liu, Qing Jie, and Qi Li Su. "Risk Management of Building Engineering Based on SVM." Advanced Materials Research 529 (June 2012): 347–51. http://dx.doi.org/10.4028/www.scientific.net/amr.529.347.

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As the rapid development of China’s national economy, China’s construction industry shows a rapid growth. Because construct project has the feature of large investment and long construction time, there are many unforeseen factors in the construction process. The project participants may face many risks. This paper firstly analyses risk factors of construction project, secondly describes the mathematical models—SVM, and then on the basis of the method builds the model of construction project risk prediction. Lastly it uses example to prove the feasibility of the model, and it also provides an effective method for the construction project risk management.
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24

Verma, Aakash, and Dr Rajeev Chandak. "Analysis and Design of Pre-Engineered Building with Different Parameters." International Journal for Research in Applied Science and Engineering Technology 10, no. 3 (March 31, 2022): 1794–802. http://dx.doi.org/10.22214/ijraset.2022.40982.

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Abstract: With the development of science and technology in the field of structural engineering and also in civil engineering, it is possible to observe the adaptation of pre-engineered buildings in both industrial and residential construction sectors. In this paper, pre-engineered steel building will be design with different parameter using software Staadprov8i and analyzed with different loads on building i.e. dead load, live load, collateral load, wind load and load combinations on building .The main objective of this work is to understand the concepts of PEB and find the least possible weight of structure and various displacement or significance of forces in each direction which will help the structure to be safe and stable. The pre-engineered construction concept involves pre-engineered structure and quality construction systems which will help to minimize the use of cost and time. Keywords: Pre-engineering steel building, industrial building and staadprov8i software etc
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25

Singh, Neha. "Case Study Retrofitting an Existing Building for Griha Green Building Certification." International Journal for Research in Applied Science and Engineering Technology 10, no. 7 (July 31, 2022): 182–91. http://dx.doi.org/10.22214/ijraset.2022.45062.

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Abstract: The infrastructure business in India is rapidly increasing. Infrastructure is the most major hindrance to the growth of Indian businesses in India. Existing buildings account for 45 percent of worldwide energy use in the current condition. These constructions' greenhouse gas emissions are mostly to blame for global warming, acid rain, and other environmental difficulties. We can reduce our dependency on limited natural resources like power, water, and materials which use in building while simultaneously enhancing our contribution to environmental quality by incorporating green building themes into the design, construction, and maintenance of buildings, and restoration of our houses. It is a common misconception that only new buildings can be certified as green building, however this is not true. Existing buildings may be made certified green by taking certain step. With each existing building's effort in adopting the existing green building strategies, an enormous effect in combating global warming will be anticipated in return. GRIHA provides green building certification at various levels. There are several ways for meeting these objectives with the cooperation of humans and the use of modern technology and procedures. In retrofitting existing building for GRIHA certification, aspects like site availability, energy efficiency, water efficiency, renewable energy, natural lighting are taken into account. The present paper presents the retrofitting required to transform an existing building to a certified green building with ease and cost effectiveness.
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26

Liu, Jin Ming. "A Construction Technology for Buildings Horizontal Movement." Advanced Materials Research 790 (September 2013): 219–22. http://dx.doi.org/10.4028/www.scientific.net/amr.790.219.

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With the development of infrastructure--the gradual perfection of the urban layout and the broadening of the roads--some buildings have become obstacles in overall city planning. But for economic and cultural reasons, these buildings should continue to exist. Therefore, in this paper a technique for moving monolithic buildings is described. The technologys for moving the monolithic building includes: the construction of the track for moving; separating the buildings upper structure from the basic structure; hauling the building along the tracks; fixing the building on the new foundation.
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27

Heng, LI, and LI Hong-yu. "Applications of BIM in Construction Engineering in China:A Review." E3S Web of Conferences 143 (2020): 01007. http://dx.doi.org/10.1051/e3sconf/202014301007.

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Based on the CNKI database from 2002-2019, this paper conducts the comprehensive literature survey on the BIM applications in construction engineering. Aiming to pros and cons summarized from the current research examples, the BIM shows great potential and the related study is a rapidly evolving field in construction engineering. In general, the diversity of BIM application studies is involved in construction engineering, such as, design and construction of new building, operation and maintenance of the existing buildings. BIM can be a powerful tool if it was properly taken advantage. However, the BIM application in design is more emphasized than that in the other aspects, which hinders the popularization of its application. Therefore, suggestions for future research are given accordingly: (i) constructing a feasible and flexible system according to the different applications; (ii) expanding the research content based on proposed system; (iii) establishing a method of evaluation of BIM application.
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28

Jain, Umang, and Dr J. N. Vyas. "Wind and Seismic Analysis of Pre-Engineered Building." International Journal for Research in Applied Science and Engineering Technology 10, no. 12 (December 31, 2022): 1164–71. http://dx.doi.org/10.22214/ijraset.2022.47832.

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Abstract: With the development of science and technology in the field of structural engineering, it is possible to adopt preengineered buildings in both industrial and residential construction sectors. For important buildings it is more suitable to use pre engineered building as these are more safe and take less time in construction in comparison of RCC structures. In this paper, pre-engineered steel structure will be design and analyzed for wind and seismic analysis with different parameters using software Staadprov8i and analyzed with different loads on building i.e. dead load, live load, wind load, seismic load and load combinations on structure. The main objective of this work is to understand the concepts of PEB and find the least possible weight of structure and various displacement or significance of forces in each direction which will help the structure to be safe and stable. The pre-engineered construction concept involves pre-engineering and quality construction systems which will help to minimize the use of cost and time.
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29

Tang, Nan. "Discussion on Test and Detection Technology of Building Engineering Materials." Insight - Material Science 3, no. 2 (October 23, 2020): 40. http://dx.doi.org/10.18282/ims.v3i2.351.

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<p>The quality of building materials is one of the key factors in building engineering, which has a very significant impact on the overall construction quality of building engineering. Combined with the actual needs of current construction projects and the constantly updated and developed new building materials and technologies, the inspection of construction materials also needs to be strengthened and improved. In this paper, the possible problems and the original problems of material testing in construction engineering will be discussed, aiming at providing some theoretical reference for material testing in construction engineering.</p>
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30

Li, Li, and Li Xin Wang. "Application of BIM Technology in Green Building Engineering Construction." Advanced Materials Research 860-863 (December 2013): 1301–5. http://dx.doi.org/10.4028/www.scientific.net/amr.860-863.1301.

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BIM is a direct application of information technology in construction industry. It covers the whole life cycle of engineering construction, including project planning, design, construction, operation and maintenance. BIM improves the engineering quality, saves cost and improves production efficiency. In this paper, we will discuss the application of BIMs collaborative integrated function in engineering construction project and BIMs future application.
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31

Yan, Baohua. "Application of BIM technology in safety management of construction engineering." Journal of Physics: Conference Series 2023, no. 1 (September 1, 2021): 012003. http://dx.doi.org/10.1088/1742-6596/2023/1/012003.

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Abstract In recent years, my country has made great breakthroughs in technical construction technology. B.IM is a new technology that has emerged [1] The most emerging solution has solved the role of safety management in construction projects. In the process of construction engineering, safety management bears the brunt of construction safety. It all depends on how well its foundation is built. However, for the safety of construction engineering, China still has a higher defense against BI M technology. It is just from a planning design. From the construction to the management stage, a unified and coordinated process. In order to better realize the construction project, the B IM technology is adopted, which seems to be a simple 3D 4D file. In fact, BM is not only convenient to use, but also extremely safe. The building information model is used by the digital building director to express that the construction of buildings in the world is simpler and more convenient than the traditional design for the use of traditional computer-aided design. Compared with traditional design, BIM can provide accurate information. Responsibilities of each participant of the project during their respective operation and work, responsible for the information they possess to add reasonable application of this building information model.
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Mandičák, Tomáš, Peter Mesároš, and Matúš Tkáč. "Construction project management through BIM and knowledge technology." Pollack Periodica 15, no. 1 (April 2020): 177–86. http://dx.doi.org/10.1556/606.2020.15.1.17.

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Abstract Construction project management is difficult process and important part of efficiency and productivity in construction industry. Currently, construction industry is increasing demands on technology, environmental and social construction parameters in the context of maintaining the balance of economic efficiency and sustainability of the construction and realization of buildings. Progressive technology as knowledge systems and building information modeling are the supporting tool for achieving this. Building information modeling is a progressive intelligent 3D model-based process that gives architecture, engineering, and construction professionals the insight and tools to more efficiently in planning, designing and buildings and infrastructure managing. Knowledge and building information modeling technology include a lot of functions and opportunities for better and easier way to achieve project goal and affect to construction project management process. Research discusses the issue of construction project management trough building information modeling and knowledge technology. The main aim of the paper is to analyze impact of these technologies on efficiency in construction project management.
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33

Zhao, Chunyang, Wanlai Zhang, Mingyue Zhang, and Chunmei Zhang. "Energy saving construction technology analysis of building engineering." IOP Conference Series: Earth and Environmental Science 676, no. 1 (February 1, 2021): 012026. http://dx.doi.org/10.1088/1755-1315/676/1/012026.

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34

Ustyan, N. A. "Geocontainers in road building and hydraulic engineering construction." Magazine of civil engineering 22, no. 4 (June 24, 2011): 22–25. http://dx.doi.org/10.5862/mce.22.3.

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35

SAVILLE, A. D., and A. B. LUMBY. "Multinational Corporations the Building, Construction and Engineering Industries." South African Journal of Economics 63, no. 2 (June 1995): 108–24. http://dx.doi.org/10.1111/j.1813-6982.1995.tb00235.x.

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36

Bauml, Steven. "Engineering and Construction: Building a Stronger Global Industry." Journal of Management in Engineering 13, no. 5 (September 1997): 21–24. http://dx.doi.org/10.1061/(asce)0742-597x(1997)13:5(21).

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Kletter, Tobias, Abin Biswas, and Simone Reber. "Engineering metaphase spindles: Construction site and building blocks." Current Opinion in Cell Biology 79 (December 2022): 102143. http://dx.doi.org/10.1016/j.ceb.2022.102143.

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38

Xu, Dong Ming, Kai Wen Yang, and Yi Jun Shi. "Research of Construction Process Quality Control in Building Engineering." Applied Mechanics and Materials 438-439 (October 2013): 1637–40. http://dx.doi.org/10.4028/www.scientific.net/amm.438-439.1637.

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By analyzing the points of construction process quality control in the building construction project and the relationship among quality control, cost control and schedule control, the main factors affecting the construction process quality control in the building construction project are given out, and a practical system is established. This system includes pre-construction quality planning, quality control, drawings reviewing technical tests, building products quality control, responsibility for quality and other aspects. The practical application of this system in some building construction projects proved its effectiveness in the project quality control.
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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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Shi, Xiaoxing, and Li Wang. "Distribution Technique of Green Material List for High-Rise Building Engineering in BIM Technology." Mathematical Problems in Engineering 2022 (July 7, 2022): 1–8. http://dx.doi.org/10.1155/2022/6960596.

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The current green material list allocation technique for high-rise building engineering has the issue of an unsatisfactory green material selection procedure, which results in excessive building energy consumption. Based on BIM technology, a green material list allocation technique for high-rise building engineering is proposed. Using the task-scheduling algorithm, extract the structural characteristics of high-rise buildings, select the appropriate basic form, optimize the green material selection process in conjunction with material demand, construct the building carbon-trading framework with BIM technology, simplify the construction process, adjust the physical host state, and design the list allocation mode. The average building energy consumption of the green material list allocation technique of high-rise building engineering in this study and the other two ways is 189.54 (kWh), 223.06 (kWh), and 232.68 (kWh), respectively, according to the experimental data. It has been demonstrated that the green material list allocation technique of high-rise construction engineering, when linked with BIM Technology, is more practicable.
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41

Korniyenko, Sergey. "Complex analysis of energy efficiency in operated high-rise residential building: Case study." E3S Web of Conferences 33 (2018): 02005. http://dx.doi.org/10.1051/e3sconf/20183302005.

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Energy conservation and human thermal comfort enhancement in buildings is a topical issue of modern architecture and construction. The innovative solution of this problem makes it possible to enhance building ecological and maintenance safety, to reduce hydrocarbon fuel consumption, and to improve life standard of people. The requirements to increase of energy efficiency in buildings should be provided at all the stages of building's life cycle that is at the stage of design, construction and maintenance of buildings. The research purpose is complex analysis of energy efficiency in operated high-rise residential building. Many actions for building energy efficiency are realized according to the project; mainly it is the effective building envelope and engineering systems. Based on results of measurements the energy indicators of the building during annual period have been calculated. The main reason of increase in heat losses consists in the raised infiltration of external air in the building through a building envelope owing to the increased air permeability of windows and balcony doors (construction defects). Thermorenovation of the building based on ventilating and infiltration heat losses reduction through a building envelope allows reducing annual energy consumption. Energy efficiency assessment based on the total annual energy consumption of building, including energy indices for heating and a ventilation, hot water supply and electricity supply, in comparison with heating is more complete. The account of various components in building energy balance completely corresponds to modern direction of researches on energy conservation and thermal comfort enhancement in buildings.
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Fu, Ying. "Research on PKIM Energy Construction Engineering Software System Based on Building BIM Technology." Wireless Communications and Mobile Computing 2022 (April 26, 2022): 1–7. http://dx.doi.org/10.1155/2022/2546708.

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In order to study building BIM technology PKIM energy building engineering software system, firstly, the building collaborative platform based on BIM technology and PKPM professional software BIM technology application is constructed. Then, it introduces that PKPM connects all aspects of construction projects through the core 3D data model and takes the lead in realizing the BIM concept of information datalization, data modeling, and model generalization, thus realizing the full utilization of building model data in the whole life cycle. Finally, this paper introduces the seismic analysis method of structure based on BIM platform, taking a complex building with a transfer storey structure as an example. The experiment shows that the BIM model can be used to analyze and calculate the building performance, such as sunshine, energy consumption, daylighting, and evacuation of people, and complete the green building design. The BIM model can also generate professional construction drawings of buildings, structures, and equipment.
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43

Fu, Ying. "Research on PKIM Energy Construction Engineering Software System Based on Building BIM Technology." Wireless Communications and Mobile Computing 2022 (April 26, 2022): 1–7. http://dx.doi.org/10.1155/2022/2546708.

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In order to study building BIM technology PKIM energy building engineering software system, firstly, the building collaborative platform based on BIM technology and PKPM professional software BIM technology application is constructed. Then, it introduces that PKPM connects all aspects of construction projects through the core 3D data model and takes the lead in realizing the BIM concept of information datalization, data modeling, and model generalization, thus realizing the full utilization of building model data in the whole life cycle. Finally, this paper introduces the seismic analysis method of structure based on BIM platform, taking a complex building with a transfer storey structure as an example. The experiment shows that the BIM model can be used to analyze and calculate the building performance, such as sunshine, energy consumption, daylighting, and evacuation of people, and complete the green building design. The BIM model can also generate professional construction drawings of buildings, structures, and equipment.
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44

Zhou, Binghao, Gerong Zhang, Cheng Zeng, and Miao Zhang. "Analysis of the Application of Grouting Technology in Building Civil Engineering." Architecture and Design Review 2, no. 1 (July 20, 2020): 5. http://dx.doi.org/10.18282/adr.v2i1.899.

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<p>Due to the continuous development of social economy, people's demand for materials is also increasing. In the context of increasing attention to the quality of material life and quality, people's attention and requirements for building safety have also increased. Cracks in buildings are the most common problems of civil engineering in the current construction, which will seriously affect the aesthetics and safety of buildings, thereby bringing hidden safety hazards to people's production and life. It is very necessary to improve the safety of construction civil engineering. In the construction process, the use of grouting technology can effectively avoid the occurrence of cracks. This article discusses and analyzes the application of grouting technology in order to provide some methods and suggestions for future construction projects.</p>
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45

Wen, Yafeng. "Research on the intelligent construction of prefabricated building and personnel training based on BIM5D." Journal of Intelligent & Fuzzy Systems 40, no. 4 (April 12, 2021): 8033–41. http://dx.doi.org/10.3233/jifs-189625.

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With the promotion of BIM Technology, prefabricated building is developed rapidly in China. However, BIM technology has been only partially applied to prefabricated building, and there is still a gap between prefabricated building and intelligent construction. This paper focus on BIM 5D, together with relevant information technologies, all of which will be highly integrated and applied to prefabricated building, with the mission to get related information and enable the rapid flow of information, as well as bringing human perception, memory, knowledge and wisdom into prefabricated building, driving the development of prefabricated buildings to intelligence and leanness. Intelligent construction is an innovated construction model based on the combination of latest information technology and engineering construction. Thus, it is particularly important to train personnel with corresponding knowledge structure, knowledge system and professional ability for intelligent construction. This paper also discusses about how to train personnel on prefabricated building and intelligent construction.
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46

Gao, Chutian, Ming Guo, Zexin Fu, Dengke Li, Xian Ren, Mengxi Sun, Yuquan Zhou, and Peng Cheng. "Representative Construction Engineering Drawings Combining SLAM and Ground-Based LiDAR." Journal of Physics: Conference Series 2112, no. 1 (November 1, 2021): 012017. http://dx.doi.org/10.1088/1742-6596/2112/1/012017.

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Abstract Obtaining architectural engineering drawings is a crucial aspect of upgrading and repairing structures. Traditional elevation measuring is ineffective and results in a poor rate of restoration. The current building elevation measurement solutions based on 3D scanning technology all obtain building 3D point cloud data from a single type of laser scanner. These two methods can’t get both indoor and outdoor scenes at the same time. This paper presents a scanning strategy that combines SLAM with Ground-based LiDAR to solve this problem. The point cloud data for the building’s indoor and outdoor scenes are obtained independently, and the Ground-based LiDAR point cloud data is registered locally using the iterative closest point(ICP) algorithm. The SLAM point clouds and the Ground-based LiDAR point clouds are then registered as a whole to develop an overall model of the building using point constrained error equations. For various reasons, the building can be trimmed into a planar point cloud model depending on the application. Finally, engineering drawings for the construction of the building can be drawn. The method’s viability was demonstrated by using it in a 3D scanning project of a scenic site in Beijing. This technology improves model information interpretability, scanning efficiency, and provides powerful data assistance for building rehabilitation and repair. It is extremely important in the disciplines of urban planning, rehabilitation, and historic preservation. After performing a more optimal preprocessing, more than 90% classification accuracy was achieved across 18 low-power consumer devices for scenarios in which the in-band features-to-noise ratio (FNR) was very poor.
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47

Jin, Jia Sheng. "Explore on Green Construction of the Construction Engineering." Applied Mechanics and Materials 291-294 (February 2013): 1011–15. http://dx.doi.org/10.4028/www.scientific.net/amm.291-294.1011.

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Green construction is a relative concept. For different countries and regions, according to the social economic, technical level, plan specific contents of technical innovation and the corresponding technical, economic indicators, in order to guide the development of the green construction. This paper expounds the connotation of green construction, the necessity of developing green construction, and probes into the construction of green in building engineering construction principle, carry out countermeasures and suggestions about how to put forward and speed up the construction of carrying out green in the construction engineering.
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Li, Chang Qi, Fan Xiang, and Yang Ping. "Integration Utilize Research of Building Waste in Energy Saving of Buildings." Advanced Materials Research 168-170 (December 2010): 2165–70. http://dx.doi.org/10.4028/www.scientific.net/amr.168-170.2165.

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The construction reject is in the building construction, the service, the demolition process produces, mainly is the solid reject, including the waste cement block, the asphalt cement block, in the construction process scatters the waste material, each kind of packing material and other rejects which the mortar and the concrete, the broken brick dregs, the metal, the bamboo lumber, the decoration repair produces and so on. In view of the fact that the construction trash composition characteristic and it produces in the construction project scene actual situation, its recycling took the building material, is constructs the waste disposal use the effective method. This article has carried on the comprehensive investigation and the summary to the domestic and foreign construction trash government present situation and the comprehensive utilization technology, has analyzed the construction reject ingredient and the characteristic, has conducted the system analysis research to our country construction reject comprehensive utilization and the construction energy conservation question, and proposed suits our country national condition the construction reject circulation in the construction energy conservation comprehensive utilization.
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49

Vysochanska, M., and Y. Kosovskyi. "International «green» construction assessment systems." Balanced nature using, no. 2 (April 4, 2022): 9–13. http://dx.doi.org/10.33730/2310-4678.2.2022.261242.

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Green building has received a great deal of attention at the beginning of the 21st century due to growing concerns about the ecological state of the environment. The growing demand for green buildings has led to the need for some evaluation, namely, the certification of these buildings according to a set of defined criteria. This has led to the emergence of numerous systems for evaluating green building. This article compares the 3 most common green building evaluation systems to determine their similarities and differences for future use. Currently, there are 6 evaluation criteria as a basis for comparison in each of the studied evaluation systems. This article shows that the most common evaluation criteria are energy efficiency, water efficiency, waste management, environmental impact, safety and comfort. This review contributes to both theoretical and practical assessment of green building.
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Boyer, Marjorie Nice, and John Fitchen. "Building Construction before Mechanization." Technology and Culture 29, no. 3 (July 1988): 677. http://dx.doi.org/10.2307/3105296.

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