Dóra Szalai

58851650500

Publications - 8

Integration of structural designers’ workflows into BIM

Kitti Karolyfi Dóra Szalai

Publication Name: Journal of Building Engineering

Publication Date: 2024-12-01

Volume: 98

Issue: Unknown

Page Range: Unknown

Description:

BIM has revolutionized architectural design workflows. In this process, the work of structural engineers relies on the work of many other disciplines, and their decisions are input data for them. However, these data are not always provided in a structured form. Live load and composite load values are typically such data, that may frequently change during the design process. This research explores BIM-based tools for interdisciplinary collaboration between architectural and structural disciplines, with a focus on managing design changes and ensuring that load data is available as early as possible in the design process. In this article, automatic load definition possibilities were explored and adapted to the BIM methodology by using Archicad, Revit, and Allplan. The software options and their logic differ greatly, therefore the proposed methodology can be applied most seamlessly in Archicad. It was demonstrated that by linking the composite structure database to the model, the loads from the built-in materials and the room functions can be generated and updated semi-automatically in response to design changes.

Open Access: Yes

DOI: 10.1016/j.jobe.2024.111141

Enhancing BIM Integration: A Comparative Analysis of Novel Composite Structure Documentation Methods

Kitti Karolyfi Dóra Szalai

Publication Name: Buildings

Publication Date: 2024-06-01

Volume: 14

Issue: 6

Page Range: Unknown

Description:

The proper selection and planning of building materials are crucial tasks in architectural design, as they fundamentally impact the functioning of the structure. In traditional design processes, this information is recorded in text form, typically using word processing software. However, this approach hinders the integration with modern, data-driven design methods and is incompatible with the increasingly popular building information modeling (BIM) processes. To address this, two new methods have been developed: one database-like method in the form of an Excel spreadsheet and the other as a dedicated web application. This article introduces and compares these methods based on pilot projects conducted by university students and an expert. Based on the results of the study conducted among students and expert, the database-like method proves to be the fastest. For students, creating a composite structure took an average of 14–20 min, while for experts, it took an average of 1.2 min. According to the evaluation of participants, the traditional method does not facilitate automatic communication with BIM, while both the database and web solutions promote it. The web-based solution, with its dedicated layout and functionality, offers additional advantages in this regard. The research underscores the importance of structured data in BIM and proposes new methods to streamline composite documentation processes during the design phase.

Open Access: Yes

DOI: 10.3390/buildings14061817

Building Diagnostics Options for Existing Buildings – Innovative Methods

Ádám Bukovics Kitti Karolyfi Dóra Szalai Zsolt Szűrös Rita Rebeka Ördög

Publication Name: Chemical Engineering Transactions

Publication Date: 2024-01-01

Volume: 114

Issue: Unknown

Page Range: 793-798

Description:

The increasing number of buildings, due to erosion and extraordinary effects, has increasingly made technological advancements focused on innovative methods possible. This has become more prominent alongside traditional practices such as visual inspection and destructive building diagnostic methods. Thanks to the continuous development of tools, technologies and methodologies, the accurate and detailed digital mapping of buildings (including all their aspects) is available. Among these solutions, the laser scanner point cloud is the most popular due to its high level of detail. The newly emerging and now widespread survey procedures based on laser, photogrammetric remote sensing reflect a real-time, current state of the buildings, which maximizes the accuracy of the Building Information Model (BIM) - Historic Building Information Model (HBIM) completed in the later phases and helps detect structural or surface defects. This study presents the analyzing techniques of point clouds to diagnose buildings, assess their condition, identify errors, and develop sustainability strategies. It also explores areas that require further research and development to enhance the effectiveness of these methods. In the first phase of the paper, the currently used point cloud generation technologies (e.g.: laser scanning, photogrammetry, light detection and ranging (LiDAR)) will be presented with their advantages and disadvantages. The research methodology was conducted using the VOSviewer software to visually analyze bibliometric networks from a dataset of scientific publications, focusing on trends in structural health monitoring and highlighting key areas such as damage detection, computer vision, and AI-based techniques. In the second phase of the study, the possibilities of the analysis of point clouds and image processing-based survey options for structural diagnostic purposes will be explained and presented. The evaluation of the three damage detection methodologies (Geometrical features, Color and intensity information, Combined Method) highlights their complexity, technological requirements, cost, practical applicability, and accuracy. During the analysis, the goal is to map and systematize innovative methods supported by digital tools for diagnostic tasks in existing buildings.

Open Access: Yes

DOI: 10.3303/CET24114133

INVESTIGATING THE GLOBAL WARMING POTENTIAL OF ROOF STRUCTURES USING PARAMETRIC BIM METHOD

Kitti Karolyfi Dóra Szalai

Publication Name: Iet Conference Proceedings

Publication Date: 2024-01-01

Volume: 2024

Issue: 8

Page Range: 89-94

Description:

The sustainability of buildings is becoming increasingly important in today's world. Ever stricter environmental regulations encourage designers to select appropriate materials and products by examining multiple alternative solutions. This article presents an analysis of the global warming potential (GWP) of the roof structure of a residential building depending on the roof shape and angle. Three different roof types (flat roof, gable roof, and shed roof) were examined with the application of commonly used composite structures. The applied range of roof angles was between 20ºand 45ºin 5-degree increments for the gable and shed roofs, while 0ºwas used for the flat roof. The analysis was conducted using the Archicad-Grasshopper live connection, which enabled rapid examination of the GWP by dynamically tracking changes in geometry and roof angle. According to the results, the roof shape constructed with a steel beam slab and a gable roof made of solid wood had the smallest environmental impact in terms of the first phase of the life cycle.

Open Access: Yes

DOI: 10.1049/icp.2024.2687

Modernization of Windows and Doors in Protected Buildings: Possibilities and Their Environmental Impacts

Tamás Horváth Kitti Karolyfi András Veöreös Dóra Szalai Zsolt Szűrös Rita Rebeka Ördög

Publication Name: Chemical Engineering Transactions

Publication Date: 2024-01-01

Volume: 114

Issue: Unknown

Page Range: 1051-1056

Description:

During the renovation of protected buildings, strict regulations must be met. Buildings of different ages and protection categories require different structural solutions, including the modernization of windows and doors. In addition to heritage protection aspects, environmental awareness, sustainability, energy efficiency regulations, and the objectives of Fit for 55 and the Green Deal are given a prominent role. The research examines how the different categories of protection appear in Hungary in connection with the replacement of windows and doors and what regulations apply to their renovation. A case study of a historic building examines the effects of the interventions, with particular regard to the reduction of CO2 emissions, with the help of life cycle assessment (LCA) based on a BIM model, using machine and manual calculations. The results show that it is worth staying with the original solid wood material because changing the material – for example, to modern PVC or aluminum triple-layer windows – involves a greater environmental impact. The methodology of the analysis can be used as an analogy for the renovation of other similar buildings and can serve as a basis for issuing different tenders.

Open Access: Yes

DOI: 10.3303/CET24114176

INNOVATIVE ANALYSIS METHODS OF ENERGY PERFORMANCE OF BUILDINGS

Tamás Horváth Kitti Karolyfi Dániel Hegedűs Árpád Hajdu Olivér Tóth Dóra Szalai

Publication Name: Iet Conference Proceedings

Publication Date: 2024-01-01

Volume: 2024

Issue: 8

Page Range: 53-57

Description:

In the current era of architecture, sustainability and energy efficiency are becoming increasingly important, while at the same time, advanced technological tools and analytical methods are reshaping the design and construction of buildings. Architects must think responsibly and globally, as buildings account for a significant proportion of the world's energy use. As architects, we have a responsibility to create ecologically optimal facilities for the long term. With this in mind, we would like to present applications that trace the chronological milestones in the development of energy analysis. This paper provides a detailed overview of the different methods of energy analysis. The methods include software developed specifically for energy analysis, an analysis add-on built into modeling software, and among the more innovative technologies, we have also examined parametric design and methodologies based on artificial intelligence algorithms. We have tried to select these methodologies and software in a diversified way to get a more comprehensive picture of how they work. The main aim of this paper is to compare the conclusions drawn from case studies of our previous energy research and from the studies of these energy software, partly subjectively and partly with an objective perspective that tightens subjectivity. As such, a set of criteria we have defined will guide the structure of this analysis. In this article, we will try to highlight the advantages and disadvantages of each method, and we will also try to consider the importance of 3D model-based analysis.

Open Access: Yes

DOI: 10.1049/icp.2024.2681

Application of Parametric Design and Artificial Intelligence in Energy Analysis of Buildings – A Review

Tamás Horváth Kitti Karolyfi Dániel Hegedűs Árpád Hajdu Olivér Tóth Dóra Szalai

Publication Name: Chemical Engineering Transactions

Publication Date: 2023-01-01

Volume: 107

Issue: Unknown

Page Range: 19-24

Description:

In an era where sustainability and energy efficiency are paramount in architecture, advanced technological tools, and analytical methodologies are restructuring the design and construction of buildings. Energy analysis methods, including parametric modeling and artificial intelligence, offer architects unprecedented capabilities to comprehensively assess and optimize energy performance throughout a building's lifecycle. This paper reviews a wide range of energy analysis methods, including dedicated software tools, in-built applications, parametric tools, and artificial intelligence. It highlights the benefits and limitations of each method, emphasizing model-based methodologies. Dedicated software simplifies energy studies but requires manual data input, limiting flexibility and scalability. In-built applications, such as ArchiCAD or Autodesk Revit, enable automatic energy analysis but rely on detailed models. Parametric tools like Rhinoceros-Grasshopper enable flexible design variations but demand specialized knowledge. Artificial intelligence-driven tools like CoveTool and Autodesk Forma leverage AI algorithms for rapid energy modeling but are still evolving. In this review article, we would like to highlight the importance of energy analysis in building design and the need for architects to learn about new technologies. All these are necessary for a sustainable future.

Open Access: Yes

DOI: 10.3303/CET23107004

Integration of BIM in architecture and structural engineering education through common projects

Tamás Horváth J. Szép Kitti Karolyfi Dóra Szalai

Publication Name: Acta Technica Jaurinensis

Publication Date: 2021-11-24

Volume: 14

Issue: 4

Page Range: 424-439

Description:

Building Information Modeling (BIM) is one of the most significant developments in architecture and civil engineering in recent years, therefore it becomes increasingly important to promote its integration into university education. Currently, several universities worldwide offer BIM courses in architecture and civil engineering programs, while many others are under the process of integrating BIM into their curricula. The goal of this research is the implementation of BIM into higher education (Széchenyi István University, Hungary) by integrating the architectural, structural, and mechanical engineering disciplines. An important advantage of the university is that the architecture and civil engineering programs belong to the same faculty, which allows students to work together on common projects. A new course was performed in the previous semester, in which the students are designing contemporary buildings as case studies. In this paper, the results of the integration process are presented and evaluated based on the trainers’ and students’ experiences.

Open Access: Yes

DOI: 10.14513/actatechjaur.00641