Private school at 115B Mykhaylo Hrushevskoho St. in Kalush
Students Name: Kiryk Olha Vasylivna
Qualification Level: magister
Speciality: Industrial and Civil Construction
Institute: Institute of Civil Engineering, Infrastructure and Life Safety
Mode of Study: full
Academic Year: 2025-2026 н.р.
Language of Defence: ukrainian
Abstract: Kiryk O.V., Vashkevych R.V. (supervisor). Private school at 115B Mykhaylo Hrushevskoho St. in Kalush ? Lviv Polytechnic National University, Lviv, 2025. Extended abstract. The work develops architectural, structural, design, organizational and technological solutions for the construction of a new three-story private school in Kalush on Mykhailo Hrushevsky Street. The building has an underground floor under the entire volume and is designed in accordance with the requirements of current state building codes. The architectural section analyzes the initial data, natural and climatic conditions, as well as geological and engineering factors, and develops the site master plan along with the building’s spatial and planning solutions. The designed facility complies with fire, sanitary, and environmental safety standards, has a consequence (liability) class of CC2 and a fire resistance rating of II. The use of certified materials, energy-efficient enclosing structures, and natural and artificial lighting systems is envisaged. In the calculation and design section, the building was modeled using the LIRA-CAD software package, the load on the main structural elements (floor slabs, columns, foundations, staircases) was calculated, the stress-strain state was determined, and the necessary reinforcement was selected. The results confirm that the structures meet the requirements for strength, rigidity, and crack resistance. The maximum foundation settlement and building tilt are within the normative values, which ensures reliable operation of the foundation. The organizational and technological section develops a technological map for the installation of a monolithic floor slab, determines the sequence of core operations, selects construction machinery and mechanisms (Caterpillar 320 excavator, D6T bulldozer, GROVE GMK 3055 crane, Schwing S32X concrete pump), and outlining safety and occupational health measures during concreting. The standard construction period is estimated at 7 months. The developed project ensures high energy efficiency, durability of structures (estimated service life — 100 years), and comfortable terms of service. The obtained results can be applied in the development of similar public buildings. Object of research: Structural, architectural and technological-organizational solutions for a three-story private school building with an underground floor in the city of Kalush. Subject of research: Design and calculation methods for monolithic reinforced concrete building elements (slabs, columns, foundations), as well as technologies for their construction using modern materials, equipment, and specialized software such as LIRA-CAD and Autodesk Revit. Purpose of the work: To develop a comprehensive set of design solutions for the new construction of a private school, ensuring the building’s reliability, durability, and energy efficiency; to perform structural engineering calculations and define the technology for carrying out key construction processes in accordance with current standards. Result of the work: In the course of the work, a complete architectural, construction, and structural design for a three-story school building was developed, a computational model of the structure was created in the LIRA-CAD software package, the strength and rigidity of the structures were verified, the choice of materials and technological processes was justified, the duration of construction was determined, and the necessary mechanisms were selected. The solutions obtained confirmed the compliance of the project with regulatory requirements and the possibility of its practical implementation. Keywords: private school, architectural and construction project, monolithic reinforced concrete frame, LIRA-CAD, floor slab, foundation, construction, technological map. List of references 1. DBN V.2.2-3:2018 “Buildings and structures. Educational institutions.” 2. DBN V.1.1-7:2016 “Fire safety of construction objects.” 3. DSTU 8855:2019 “Buildings and structures. Determination of the class of consequences (liability)”. 4. DSTU-N B V.2.6-203:2015 “Guidelines for the performance of work in the manufacture and installation of building structures”. 5. DBN A.3.1-5:2016 “Organization of construction production.” 6. DBN A.3.2-2:2009 “Occupational health and safety in construction.” 7. DSTU B A.3.1-22:2013 “Determination of the duration of construction.”