scholarly journals BIM for Healthy Buildings: An Integrated Approach of Architectural Design based on IAQ Prediction

2020 ◽  
Vol 12 (24) ◽  
pp. 10417
Author(s):  
Alessandro D’Amico ◽  
Giacomo Bergonzoni ◽  
Agnese Pini ◽  
Edoardo Currà
Keyword(s):  
Numerical Model ◽  
Architectural Design ◽  
Building Materials ◽  
Building Design ◽  
Integrated Approach ◽  
Well Being ◽  
Fundamental Aspect ◽  
Control Instrument ◽  
Building Information ◽  
And Control

The relationship between users and the built environment represents a fundamental aspect of health. The factors that define the properties linked to health and well-being are increasingly becoming part of building design. In these terms, building information modelling (BIM) and BIM-based performance simulation take on a priority role. Among the key features for the design of Healthy Buildings, indoor air quality (IAQ) plays a central role. There are numerous indoor pollutants with significant health effects; volatile organic compounds (VOCs) are to be mentioned among these. The paper presents the proposal of an integrated workflow in the BIM process for the check and control of VOC emissions from building materials and their concentration in confined environments. The workflow is developed through the systematisation of IAQ parameters for the open BIM standard, the integration in the BIM process of a numerical model for the prediction of the VOCs concentration in the indoor environment, and the development of model checkers for performance verification. The results show a good adhesion between the numerical model and the implementation in BIM, providing the designer with a rapid control instrument of IAQ in the various phases of the building design. The present study is the first development focused on TVOC, but implementable concerning other aspects of IAQ, as needed for the effectiveness of performance building-based design for health and wellness issues.

scholarly journals Healthy BIM: the feasibility of integrating architecture health indicators using a building information model (BIM) computer system

2020 ◽  
Vol ahead-of-print (ahead-of-print) ◽  
Author(s):  
Louis Rice
Keyword(s):  
Architectural Design ◽  
Healthcare Providers ◽  
Optimal Strategies ◽  
Health Indicators ◽  
Building Design ◽  
Well Being ◽  
Construction Sector ◽  
Content Type ◽  
Important Relationship ◽  
Building Information

PurposeThe COVID-19 pandemic has forced billions of people into lockdown; foregrounding the important relationship between architecture and health. In this context, there is heightened urgency for the construction sector to improve the healthiness of buildings. Accordingly, the research identifies the feasibility of measuring various building health indicators (BHIs) through the use of a building information management (BIM) model. The research seeks to find optimal strategies for integrating the near ubiquitous use of BIM with a range of health indicators related to building design.Design/methodology/approachA systematic literature review was undertaken to identify potential BHIs for use in BIM models. The research then undertook a Delphi technique in order to test the hypothesis. In total, three rounds of questionnaire-based surveys were undertaken with expert participants.FindingsThe research identifies three different levels of BIM complexity in order to achieve the integration of health indicators. The most simple strategy suggests BHI can be directly measured using existing BIM models; the next level of sophistication requires “plug-in” software to BIM models; the final level would require additional sensors and detectors in a “smart” building.Practical implicationsThe research is significant for users of BIM, building designers, public health advisors, construction professionals, healthcare providers, social prescribers, architects and clients.Originality/valueThe integration of BHI into the architectural design process is an important step towards the construction sector improving health and well-being. The research provides for the first time a rigorous identification of the most viable mechanisms through which BIM may be used to measure the healthiness of a building.

GREEN BUILDING AND BIODIVERSITY: FACILITATING BIRD FRIENDLY DESIGN WITH BUILDING INFORMATION MODELS

2016 ◽  
Vol 11 (2) ◽  
pp. 116-130 ◽  
Author(s):  
Karen Kensek ◽  
Ye Ding ◽  
Travis Longcore
Keyword(s):  
Building Materials ◽  
Green Building ◽  
Building Design ◽  
Visual Programming ◽  
Information Modeling ◽  
Indoor Environmental Quality ◽  
Information Models ◽  
Building Information ◽  
The Impact ◽  
Bird Collisions

Green buildings should respect nature and endeavor to mitigate harmful effects to the environment and occupants. This is often interpreted as creating sustainable sites, consuming less energy and water, reusing materials, and providing excellent indoor environmental quality. Environmentally friendly buildings should also consider literally the impact that they have on birds, millions of them. A major factor in bird collisions with buildings is the choice of building materials. These choices are usually made by the architect who may not be aware of the issue or may be looking for guidance from certification programs such as LEED. As a proof of concept for an educational tool, we developed a software-assisted approach to characterize whether a proposed building design would earn a point for the LEED Pilot Credit 55: Avoiding Bird Collisions. Using the visual programming language Dynamo with the common building information modeling software Revit, we automated the assessment of designs. The approach depends on parameters that incorporate assessments of bird threat for façade materials, analyzes building geometry relative to materials, and processes user input on building operation to produce the assessment.

scholarly journals ENERGY EFFICIENCY OF A PUBLIC BUILDING RENOVATION AND RECONSTRUCTION USING BASE MODEL PASSIVE HOUSE AND BIM TECHNOLOGY

2016 ◽  
Vol 7 (3) ◽  
pp. 114-125 ◽  
Author(s):  
Romas Rasiulis ◽  
Leonas Ustinovichius ◽  
Darius Migilinskas ◽  
Jovita Cepurnaite ◽  
Arvydas Virbickas
Keyword(s):  
Building Design ◽  
High Energy ◽  
Information Modeling ◽  
The European Union ◽  
Passive House ◽  
Sustainable Building ◽  
Heating And Cooling ◽  
Building Information ◽  
And Control ◽  
Made In

Modern constructions, either private houses or public buildings, nowadays must be built meeting all the requirements of the European Union [EU] standards and must be highly energy efficient. Still, there are a lot of old inefficient buildings with high energy costs that require renovation. These buildings can be renovated applying a passive house model that helps to minimize buildings’ heating and cooling energy expenses. Moreover, the decisions made in the stages of early design and preconstruction are essential for the sustainability in a building facility. It is possible to perform various analyses with Building Information Modeling (BIM) in order to have an optimized sustainable building design. BIM system can be used to evaluate and control the costs (e.g. renovation, efficiency) as well as to monitor the conditions during the life-cycle of the building.

scholarly journals Potential use of BIM for automated updating of building materials values

2018 ◽  
Vol 15 (1) ◽  
pp. 35-43
Author(s):  
Claudio Alcides Jacoski ◽  
Lissandro Machado Hoffmeister
Keyword(s):  
Building Materials ◽  
Building Design ◽  
Information Modeling ◽  
Budget Process ◽  
Construction Design ◽  
Computing Services ◽  
Monitoring Process ◽  
Building Information ◽  
The Creation ◽  
Ifc Standard

This study proposes an artifact motivated by improved assertiveness in building design budgets. Building Information Modeling (BIM), with the structure of the parametric objects created in a file format with the Industry Foundation Classes (IFC) extension, can provide the data for the object, facilitating the design's control and monitoring process. Through the adoption of the IFC standard in the creation of these objects, the exchange of information between the tools of different software providers becomes viable, allowing interoperability between systems. This is a desired situation in the construction industry, which incurs significant losses due to this problem. An important condition that can significantly contribute to the update of the information of the objects and the budget process is the incorporation of the possibility of updating the value information (price) of the BIM objects that are shared in repositories (object libraries). In this context, this study presents an alternative to updating and retrieving the values of BIM objects based on the IFC standard. An artifact (web environment) was produced linked to a model to meet the proposed objective. This method is presented by computing services, enabling the automated retrieval of the object value between the owners, the price repository and also the designers. The performed tests reveal the practicality of its implementation, with no extensive knowledge of the IFC structure being necessary. It suffices to simply follow the fill out pattern of the custom properties in IFC, defined during the creation of the object. The submission of the construction design to the repository allows for the retrieval of the values and the quantification of objects present in the design. This process is carried out in a simple manner, maintaining the synchrony and traceability of the object with the designer and the owners of the objects making up the architectural and complementary design.

Organization and Conduct of Surveillance of Radiation Safety of the Population in Preparation and Holding of 2018 FIFA World Cup in Saint Petersburg

2020 ◽  
pp. 67-70
Author(s):  
N.S. Bashketova ◽  
G.A. Gorskii ◽  
R.K. Fridman ◽  
A.V. Eremin
Keyword(s):  
Building Materials ◽  
Radiation Safety ◽  
Integrated Approach ◽  
Radiation Monitoring ◽  
Radiation Hazard ◽  
Sports Facilities ◽  
Sporting Events ◽  
World Cup ◽  
Fifa World Cup ◽  
And Control

The purpose of the study was a hygienic assessment and generalization of practical experience of the St. Petersburg Rospotrebnadzor Office and the Center for Hygiene and Epidemiology in St. Petersburg acquired within the framework of the established powers in supervision and control of radiation safety of the population and combating radiation terrorism when preparing and holding mass events of 2018 FIFA World Cup in St. Petersburg. Materials and methods. We used the materials on planning and implementing measures to ensure radiation safety of the population and reports of the St. Petersburg Rospotrebnadzor Office and the Center for Hygiene and Epidemiology in St. Petersburg for 2016–2018. Results. We made a hygienic assessment of comprehensive measures for supervision and control over ensuring radiation safety of the population in preparation for mass sporting events, summarized the practice and efficient results of organizing and conducting monitoring of the radiation situation, radiation monitoring at infrastructure facilities, including radiological studies during the construction and reconstruction of sports facilities, and radiation control of baggage X-ray inspection systems used at the sites of sporting events for additional security measures. A scheme of organizing radiation monitoring of building materials and products delivered to sports facilities under construction was developed to eliminate excessive costly spectrometric studies while guaranteeing effectiveness of radiation monitoring. We demonstrated that an important step in the integrated approach to ensuring radiation safety was the control over introduction of additional safety measures immediately at the facilities operating on radioactive substances and posing radiation hazard in St. Petersburg, taking into account the category of their potential radiation hazard, as well as the preparedness of specialized Rospotrebnadzor units to promptly respond to emergency situations. Activities of the Regional Interdepartmental Operational Headquarters for Security showed absolute efficiency of interdepartmental cooperation between federal and municipal executive authorities.

ADOPTING BIM IN ARCHITECTURAL DESIGN OFFICES

2016 ◽  
Vol 3 (1) ◽  
Author(s):  
Yeliz Tulubas-Gokuc ◽  
David Arditi
Keyword(s):  
Architectural Design ◽  
New Technologies ◽  
Building Design ◽  
Integrated Model ◽  
Ease Of Use ◽  
Information Modeling ◽  
Perceived Ease Of Use ◽  
Construction Companies ◽  
Building Information ◽  
Design Firms

Developments in technology such as Building Information Modeling (BIM) have recently created serious competitive pressures on architectural design firms and building construction companies. Design firms and construction companies need to adopt these new technologies to survive and thrive in this environment. Despite the advantages of BIM in building design, its adoption by architectural design firms has been slow due to obstacles such as lack of familiarity with BIM, lack of training in BIM, and lack of supporting resources such as hardware and software. The problems faced in adopting BIM were investigated by only few researchers who focused on the acceptance or penetration of BIM into construction firms. The objective of this research is to develop an integrated model to understand the adoption of BIM in architectural design firms. The model involves (1) the fit between the tasks to be performed by design professionals and the technology provided by BIM, (2) the fit between the organizational competency in the design firm and the capabilities offered by BIM, and (3) the fit between the designers’ knowledge/skills in BIM and the sophistication of the BIM product. After a thorough review and synthesis of technology adoption models and theories, this paper proposes an integrated model to understand the adoption of BIM by architectural design firms. The model argues that using BIM depends on BIM’s properties as well as the tasks at hand, the organizational competency of the company, and the perceived ease of use.

scholarly journals Exploring a sustainable building’s impact on occupant mental health and cognitive function in a virtual environment

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Ming Hu ◽  
Madlen Simon ◽  
Spencer Fix ◽  
Anthony A. Vivino ◽  
Edward Bernat
Keyword(s):  
Mental Health ◽  
Cognitive Function ◽  
Virtual Environment ◽  
Building Design ◽  
Well Being ◽  
Attentional Focus ◽  
Event Related Potential ◽  
Sustainable Building ◽  
Experimental Project ◽  
And Control

AbstractEven though people spend the majority of their time indoors, the role of buildings in shaping human experience is still not well understood. The objective of this experimental project is to develop, test, and validate a data-driven neuroscience approach to understand the built environment’s impact on occupant cognitive function and mental health. The present study utilized virtual environments and electroencephalogram (EEG) and event-related potential (ERP) approaches, to provide objective neurophysiological information about how sustainable buildings (SBs) impact people’s affective and cognitive functioning differently compared to conventional building (CBs). The long-term goal is to assess the validity of sustainable building design protocols in promoting and increasing mental health and well-being and the mechanism used to accomplish these increases. The findings showed test subjects demonstrated increased visual system engagement and modulated attentional focus and control processing in the SB compared to the CB environments. The findings can be explained by the cognitive load theory, which is consistent with the interpretation of greater focus on the present environment and reduced internal mental processing (cf. mindfulness), based on the observed increased theta/delta activities and greater engagement of visual systems and corresponding decreases in frontal activity in the SB environment. In addition, the combination of virtual environment (VE) and EEG/ERP has the potential to advance design methods by soliciting occupants’ responses prior to completion of the projects. Building design is more than aesthetics; expanding the horizon for neuroscience would eventually result in a new knowledge base for building design, particularly sustainable building design, since the sustainability of the building often needs to be quantified.

scholarly journals Using BIM to calculate accurate building material quantities for early design phase Life Cycle Assessment

2021 ◽  
Author(s):  
◽  
Brian Berg
Keyword(s):  
Decision Making ◽  
Life Cycle Assessment ◽  
Life Cycle ◽  
Design Process ◽  
Building Material ◽  
Building Materials ◽  
Building Design ◽  
Embodied Energy ◽  
Design Phase ◽  
Building Information

<p>This research simplifies the calculation of the Initial Embodied Energy (iEE) for commercial office buildings. The result is the improved integration of Life Cycle Assessment (LCA) assessments of building materials into the early stages of the building design process (sketch design). This maximises the effectiveness of implementing design solutions to lower a building’s environmental impact.  This thesis research proposes that building Information Models (BIM) will make calculating building material quantities easier, to simplify LCA calculations, all to improve their integration into existing sketch design phase practices, and building design decisions. This is achieved by developing a methodology for using BIM LCA tools to calculate highly detailed material quantities from a simple BIM model of sketch design phase building information. This is methodology is called an Initial Embodied Energy Building Information Model Life Cycle Assessment Building Performance Sketch (iEE BIM LCA BPS). Using this methodology calculates iEE results that are accurate, and represent a sufficient proportion (complete) of a building’s total iEE consumption, making them useful for iEE decision-making.  iEE is one example of a LCA-based indicator that was used to test, and prove the feasibility of the iEE BIM LCA BPS methodology. Proving this, the research method tests the accuracy that a BIM model can calculate case study building’s building material quantities. This included developing; a methodology for how to use the BIM tool Revit to calculate iEE; a functional definition of an iEE BIM LCA BPS based on the environmental impact, and sketch design decisions effecting building materials, and elements; and an EE simulation calibration accuracy assessment methodology, complete with a function definition of the accuracy required of an iEE simulation to ensure it’s useful for sketch design decision-making.  Two main tests were conducted as part of proving the iEE BIM LCA BPS’ feasibility. Test one assessed and proved that the iEE BIM LCA BPS model based on sketch design information does represent a sufficient proportion (complete) of a building’s total iEE consumption, so that are useful for iEE decision-making. This was tested by comparing the building material quantities from a SOQ (SOQ) produced to a sketch design level of detail (truth model 3), to an as-built level of detail, defined as current iEE best practices (truth model 1). Subsequent to proving that the iEE BIM LCA BPS is sufficiently complete, test two assessed if a BIM model and tool could calculate building material quantities accurately compared to truth model 3. The outcome was answering the research question of, how detailed does a BIM model need to be to calculate accurate building material quantities for a building material LCA (LCA) assessment?  The inference of this thesis research is a methodology for using BIM models to calculate the iEE of New Zealand commercial office buildings in the early phases of the design process. The outcome was that a building design team’s current level of sketch design phase information is sufficiently detailed for sketch design phase iEE assessment. This means, that iEE and other LCA-based assessment indicators can be integrated into a design team’s existing design process, practices, and decisions, with no restructuring required.</p>

The Captive- and Short-Column Effects

2005 ◽  
Vol 21 (1) ◽  
pp. 141-160 ◽  
Author(s):  
L. Teresa Guevara ◽  
Luis E. García
Keyword(s):  
Architectural Design ◽  
Detrimental Effect ◽  
Building Design ◽  
Integrated Approach ◽  
Structural Configuration ◽  
Structural Explanation ◽  
Short Column ◽  
Short Columns ◽  
Multidisciplinary Perspective ◽  
Earthquake Effects

Captive-column and short-column conditions are a significant source of serious earthquake damage. These conditions originate in the architectural design of the building. For this reason, this paper first presents the architectural reasons why these conditions occur and explains in nontechnical language their detrimental effect on building response. The effects are presented from a multidisciplinary perspective—engineering, architecture, and construction—because their solution can only be achieved by an integrated approach to building design that recognizes the interaction of these three disciplines. The accidental modification to the original structural configuration leading to a captive column by restricting its freedom to deform laterally due to the presence of nonstructural elements that partially confine it is presented. The case of short columns subjected to earthquake effects is also discussed. Examples of damage due to these effects in numerous earthquakes are presented, and the architectural decisions leading to captive and short columns are reviewed. The structural explanation of the behavior is discussed. Experimental research related to short and captive columns is presented. Recommendations to handle this type of problem are given.

scholarly journals Modelling VOC Emissions from Building Materials for Healthy Building Design

2020 ◽  
Vol 13 (1) ◽  
pp. 184
Author(s):  
Alessandro D’Amico ◽  
Agnese Pini ◽  
Simone Zazzini ◽  
Daniela D’Alessandro ◽  
Giovanni Leuzzi ◽  
...  
Keyword(s):  
Indoor Air ◽  
Indoor Environment ◽  
Building Materials ◽  
Numerical Models ◽  
Building Design ◽  
Well Being ◽  
Absolute Number ◽  
Progressive Increase ◽  
Good Correspondence ◽  
Guide Value

The profound qualitative changes of indoor air and the progressive increase in the absolute number of pollutants, combined with the scientific awareness of the health impacts deriving from spending more than 90% of one’s time inside confined spaces, have increased the attention onto the needs of well-being, hygiene, and the health of users. This scientific attention has produced studies and analyses useful for evidence-based insights into building performance. Among the main pollutants in the indoor environment, Volatile Organic Compounds (VOCs) play a central role, and the use of box-models using the mass balance approach and Computational Fluid Dynamics (CFD) models are now consolidated to study their concentrations in an indoor environment. This paper presents the use of both types of modelling for the prediction of the VOC concentration in the indoor environment and the proposal of a guide value for the Indoor Air Quality (IAQ)-oriented building design, specifically related to the indoor VOC concentration due to building materials. Methodologically, the topic is addressed through environmental sampling, the definition of the parameters necessary for the numerical models, the simulations with the box-model and the CFD, and the comparison between the results. They show a good correspondence between the modelling tools used, highlighting the central role of ventilation and allowing a discussion of the relationship between regulatory limits of emissivity of materials and Indoor Air Guide Values for the concentration of pollutants.

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