Energy Efficient Architecture

Major: Architecture of Buildings and Structures
Code of subject: 7.191.01.O.001
Credits: 3.00
Lecturer: Ph.D., As. Professor. Shuldan Larisa
Semester: 1 семестр
Mode of study: денна
Learning outcomes: PRN 4 Take into account energy-efficient and other innovative technologies, promote the ideas of sustainable development, humanization and harmonization of the environment in the adoption of complex architectural and urban planning decisions; PRN 5 Initiate participation in the development of competitive projects, develop and present conceptual architectural and urban planning solutions, apply creative methods of activity; PRN 6 Understand the social role of architectural activity, assume responsibility for the effectiveness and consequences of decision-making in the field of architecture and urban planning in compliance with the basics of professional ethics; PRN 7 To have knowledge of the regulatory framework of architectural and urban planning, to critically evaluate the socio-economic, ecological, ethical and aesthetic consequences in case of violation of state building regulations; PRN 10 Make informed decisions taking into account safety, sanitary-hygienic, environmental, engineering-technical and technical-economic regulatory requirements and indicators in architectural and urban planning.
Required prior and related subjects: prerequisites: architectural physics, basics of building residential and public facilities; requisites: modern concepts and innovations in arch. and urban planning, a course project on the topic of a master's qualification thesis.
Summary of the subject: In the content of the lectures, the basic topics of the discipline are consistently revealed: the general outline and problematic field of energy saving in architecture and urban planning; the state and prospects of scientific research and the development of the regulatory framework in Ukraine and the world; the role of rational use of energy resources in creating a comfortable environment for people and environmental protection; initial conditions for the design of energy-saving buildings. The main principles of improving the energy efficiency of architectural solutions are revealed: planning, compositional, urban planning; principles of shaping and design. An overview of traditional and innovative materials, as well as technologies for the transformation of renewable energy sources in architectural practice, was conducted. The rules for applying architectural and structural solutions for energy-saving buildings are explained. Energy saving techniques and measures are considered not only for the design of new buildings and complexes and energy modernization of existing ones, but also the peculiarities of their selection for the reconstruction and restoration of architectural and historical monuments. Considerable attention is paid to methods of substantiating the effectiveness of measures: calculation of the energy state of buildings, simulation modeling and directly to software products. Incentives have been identified and the obligation to carry out energy certification and certification of buildings has been emphasized. The analysis of international systems and standards for designing energy efficiency of buildings is presented critically All topics are logically interconnected. Some of the issues discussed in the discipline are not sufficiently covered in modern educational literature, and therefore are based on the author's scientific research. In particular, this concerns the development of a classification of solar and wind elements for use in architecture, design and urban planning and the improvement of methods for improving the energy efficiency of architectural solutions. Considerable attention is paid to the terminological base. The discipline follows an ascending scheme of presenting the material, which makes it possible to structure the study of the subject according to increasing complexity. All lecture material is accompanied by illustrative examples or sample calculations. Practical lessons develop and supplement each lecture topic, allow you to conduct a discussion and solve applied problems.
Assessment methods and criteria: Current control: conducting a selective oral survey at lectures and practical classes, checking practical tasks, evaluating the student's presentation-speech, participating in the discussion. The grade is the sum of the points scored by the student for the current work during the semester. Final control: test control at the National Security Service of Ukraine, differentiated assessment.
Recommended books: 1. Verbytskyi E. V. Energy conservation and energy efficiency. — K.: NTUU "KPI", 2014. - 106 p 2. Getun G.V. Architecture of buildings and structures. Book 1. Basics of design. Kyiv: Condor, 2012. 380 p.; Book 2. Residential buildings. K., 2017. 736 p. 3. Zerkalov D.V. Organization of the use of energy resources. Directory. - K.: Osnova, 2009. ? 273 p. 4. Linda S.M., Morklyanyk O.I. Typology of public buildings and structures: Textbook. Lviv: Publishing House of Lviv Polytechnic, 2015. 348 p. 5. Lysenko V. A., Sukhanov V. G., Zakorchemniy Yu. O., Veryovkina S. E. Architectural and constructive energy-efficient envelopes of buildings and structures. – Odesa: Optimum Publishing House, 2015. – 254 p.: illustrations. 6. Cherkes B.S., Linda S.M. Modern architecture: the last third of the 20th - the beginning of the 21st centuries: Study guide. Lviv: Publishing House of Lviv Polytechnic, 2014. 384 p.