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Air Ventilation Systems
Major: Building Energy Performans and Engineering Systems
Code of subject: 7.192.09.E.020
Credits: 3.50
Department: Heat and Gas Supply and Ventilation
Lecturer: D.Sc., Prof. Vasyl Zhelykh
Semester: 2 семестр
Mode of study: денна
Завдання: The study of an educational discipline involves the formation of competences in students of education:
– integral competence:
The ability to solve problems of a research and/or innovative nature in the field of construction and civil engineering.
– General competence:
ZK2. Conduct research at the appropriate level.
Special professional competence
SK3. Ability to develop and implement projects in the field of construction and civil engineering.
Learning outcomes: As a result of studying the academic discipline, the student should be able to demonstrate the following learning outcomes:
Know:
• requirements of the state building regulations (DBN) on the regulation of external climate parameters for the design of industrial ventilation systems;
• sanitary-hygienic and technological requirements of DBN for internal parameters of air in production premises.;
• clearly understand the place and role of modern ventilation systems of industrial premises in the general system of ensuring microclimate parameters;
• to know the design features of modern ventilation units), construction of air treatment processes on the I-d diagram, determination of the productivity of ventilation units;
• schemes and principles of operation of ventilation units, their selection and calculation;
Be able to:
• solve engineering, design, production and research-scientific tasks on ventilation of industrial premises;
• use the acquired theoretical and practical experience to solve specific practical tasks of an engineering nature.
As a result of studying the academic discipline, the student must be able to demonstrate the following program learning outcomes:
PH2. Make effective design and technical decisions, taking into account the features of the construction object, aspects of social and ethical responsibility, technical and economic justification, determination of the optimal mode of its operation and implementation of resource and energy saving measures.
RNS1.2. Apply knowledge to solve typical problems of synthesis and analysis in ventilation systems in a complex of DVT systems.
KOM1. Clear and unambiguous presentation of one's own knowledge, conclusions and arguments to specialists and non-specialists, in particular to students.
Required prior and related subjects: The previous ones
academic disciplines
Economics and construction management
Foreign language by professional direction
VIM technologies in engineering networks and structures
Heat and mass exchange
Environmental chemistry
Building thermal physics
Accompanying and following
academic disciplines
Institutes of energy certification and engineering networks
Special course on scientific research of the specialty
Workshop on preparation of scientific publications, conference materials, presentations, scientific reports
Educational and research practice
Energy audit of buildings and structures
Completion of master's qualification work
Summary of the subject: A brief description of the purpose of the facility; characteristic structural elements, the technological features of certain production facilities; design parameters external and internal air ventilation system design for warm and cold seasons; determining the thermal load space and a choice of heating facilities; select the type of local suction, the calculation of their performance; thermal balance compilation premises; calculation air shower for jobs in industrial premises; calculation of the total exchange ventilation with consideration of local ventilation systems; calculation of thermal air curtains for thermal industrial premises; development of ventilation systems separate production facilities; air balance calculation of production facilities in warm and cold seasons; aerodynamic calculation of ventilation systems, tidal and pneumatic; selection of ventilation equipment.
Опис: Initial (output) data for designing ventilation systems (VS)
1. Architectural - construction characteristics of the object
2. Characteristics of technological processes of industrial premises.
3. Calculation parameters of the external environment.
4. Calculated indoor air parameters.
Calculation of the thermal regime of the premises
1. Calculation of the main (transmission) heat losses.
2. Calculation of heat losses for heating air flows that penetrate into the room due to the leakage of its external fences.
3. Heat consumption for heating materials that are cold
enter the premises
4. Heat consumption for heating vehicles
5. Calculation of the thermal balance of the premises in the KhPR and determination of the thermal efficiency of its heating system (CO) with intermittent and continuous heating
6. Calculation of heat emissions from people
7. Calculation of heat emissions from electric lighting
8. Calculation of heat emissions from electric motors
9. Calculation of heat emissions from surfaces of heated equipment
10. Calculation of heat emissions from solar radiation
11. Calculation of the thermal balance of the room, its individual zones and workplaces
Calculation of the air condition of the premises
1. Basics of air mode.
2. Calculation of smoke productivity of local exhaust ventilation systems:
- open local smokes (umbrellas, suction panels, on-board slit smokes);
- semi-open local smokehouses (ventilated cabinets and chambers, protective smokehouses - casings and suction funnels);
- completely open local smokes
3. Calculation of local inflow ventilation:
- air showers;
- air curtains.
4. Ventilation of cabins of bridge cranes.
5. Calculation of general air exchange of premises and air heating systems:
- air parameters in ventilation processes;
- equations and schemes of air balances of ventilated premises;
- determination of air exchanges of general exchange ventilation; calculated air exchange in different periods of the year;
- calculation of air exchange of premises according to multiples and norms
- provision of air exchange of premises by means of aeration;
- provision of air exchange of premises due to the natural encouragement of the movement of air flows.
Calculation of air distribution and air suction in ventilated rooms.
1. Selection of air distributors, their structural and aerodynamic characteristics.
2. Features of air distribution calculation.
3. Examples of air distribution calculation.
4. Ducts of uniform suction.
Ventilation and heating of individual industrial premises
1. Rooms with excess heat
2. Rooms with excess moisture
3. Premises with galvanic and etching technological processes.
4. Premises for painting products and parts.
5. Premises for welding products and parts.
6. Vehicle maintenance premises.
7. Premises related to conversion and transportation of loose materials.
8. Premises of woodworking production.
9. Premises for mechanical processing of metal products.
10. Large blocked premises.
Aerodynamic calculations of industrial ventilation systems
1. With the natural movement of air currents
2. Mechanical SVs of general purpose
3. Pneumatic transport and aspiration systems
Fire protection requirements in the design of WS
Assessment methods and criteria: Assessment of students' knowledge in the discipline of Designing ventilation systems is carried out in the form of current controls and semester control of knowledge, which is carried out at the end of the semester.
The current monitoring of student knowledge in the discipline of Designing ventilation systems includes the following assessment forms:
Assessment during practical work.
Survey of students' knowledge of theoretical material:
– 2.5 points for each class during the semester for full-time students;
– 2 points for each class during the semester for correspondence students;
Assessment during laboratory work.
Assessment for performance and defense of laboratory work:
– full-time study form 4 laboratory works – 20.0 points;
- correspondence form of education 2 laboratory works - 10.0 points;
Evaluation of independent (in particular, individual) work:
- evaluation of completed individual course work for full-time and part-time students - 100 points. Points are awarded for correct completion of individual course work and its defense;
- evaluation of completed individual control work for correspondence students - 16 points.
The semester control of knowledge includes the results of the current control of students' knowledge, conducted during the semester, and examination control.
Exam tasks are structured according to three levels of difficulty. The maximum number of points for the exam task is 50. The oral component is 10 points. The results of the current control are added to this number (maximum - 40 points). The maximum number of points for the semester control is 100. The actual number of points received by the student is transferred to the state final assessment.
Критерії оцінювання результатів навчання: Assessment of students' knowledge in the discipline of Designing ventilation systems is carried out in the form of current controls and semester control of knowledge, which is carried out at the end of the semester.
The current monitoring of student knowledge in the discipline of Designing ventilation systems includes the following assessment forms:
Assessment during practical work.
Survey of students' knowledge of theoretical material:
– 2.5 points for each class during the semester for full-time students;
– 2 points for each class during the semester for correspondence students;
Assessment during laboratory work.
Assessment for performance and defense of laboratory work:
– full-time study form 4 laboratory works – 20.0 points;
- correspondence form of education 2 laboratory works - 10.0 points;
Evaluation of independent (in particular, individual) work:
- evaluation of completed individual course work for full-time and part-time students - 100 points. Points are awarded for correct completion of individual course work and its defense;
- evaluation of completed individual control work for correspondence students - 16 points.
The semester control of knowledge includes the results of the current control of students' knowledge, conducted during the semester, and examination control.
Exam tasks are structured according to three levels of difficulty. The maximum number of points for the exam task is 50. The oral component is 10 points. The results of the current control are added to this number (maximum - 40 points). The maximum number of points for the semester control is 100. The actual number of points received by the student is transferred to the state final assessment.
Порядок та критерії виставляння балів та оцінок: Assessment of students' knowledge in the discipline "Non-traditional sources of energy" is carried out in the form of current controls and semester control of knowledge, which is carried out at the end of the semester.
The current control of students' knowledge in the discipline "Non-traditional energy sources" includes the following forms of assessment:
Evaluation during practical work:
- Survey of students' knowledge of theoretical material
– 2.5 points for each class during the semester for full-time students;
– 2 points for each class during the semester for correspondence students;
Assessment during laboratory work.
Assessment for performance and defense of laboratory work:
– full-time study form 4 laboratory works – 20.0 points;
– correspondence form of education 2 laboratory works – 10.0 points;
Evaluation of independent (in particular, individual) work:
- evaluation of completed individual course work for full-time and part-time students - 100 points. Points are awarded for correct completion of individual course work and its defense;
- evaluation of completed individual control work for correspondence students - 16 points.
The semester control of knowledge includes the results of the current control of students' knowledge, conducted during the semester, and examination control.
Exam tasks are also structured according to three levels of difficulty. The maximum number of points for the exam task is 50. The oral component is 10 points. The results of the current control are added to this number (maximum - 40 points). The maximum number of points for the semester control is 100. The actual number of points received by the student is transferred to the state final assessment.
Recommended books: 1. Електронний навчально-методичний комплекс Cистеми вентиляції повітря .
2. Інструкція до лабораторної роботи СВП-1 Дослідження розподілу статичного тиску в первинній тисковій камері секційного панельного джерельного повітророзподільника з курсу Проектування систем вентиляції для студентів спеціальності 192 Будівництво та цивільна інженерія, /Укл.: В.М. Желих, О.М. Довбуш, Г.М. Клименко, О.І.Дзерин, Д.І.Гарасим – Львів: Видавництво Національного університету "Львівська політехніка”, 2024. – 10 с.
3. Інструкція до лабораторної роботи СВП-2 Дослідження ефективності відсмоктуючої панелі з курсу Проектування систем вентиляції для студентів другого (магістерського) рівня вищої освіти спеціальності 192 Будівництво та цивільна інженерія. /Укл.:В.М. Желих, В.Й.Лабай, Г.М.Клименко, О.І. Дзерин. О.М.Довбуш – Львів, 2024. – 14 с.
4. Дослідження ефективності витяжного зонта: Інструкція до лабораторної роботи СВП-3 з курсу Проектування систем вентиляції для студентів другого (магістерського) рівня вищої освіти спеціальності 192 Будівництво та цивільна інженерія. /Укл.:В.М. Желих, Г.М.Клименко, М.Є.Касинець, І.Є. Сухолова, , О.М.Довбуш – Львів, 2024. – 10 с.
5. Інструкція до лабораторної роботи СВП-4 Дослідження ефективності бортового відсмоктувача з курсу Проектування систем вентиляції для студентів спеціальності 192 «Будівництво та цивільна інженерія, /Укл.: В. М. Желих, О. М. Довбуш, Г. М. Клименко, О.І.Дзерин, Д.І.Гарасим – Львів: Видавництво Національного університету "Львівська політехніка”, 2018. – 6 с.
6. Методичні вказівки до курсової роботи з курсу Систем вентиляції повітря для студентів спеціальності 192 Будівництво та цивільна інженерія, / Укл.: В.М. Желих, О.М. Довбуш, Г.М. Клименко, О.І.Дзерин, Д.І.Гарасим. – Львів: Видавництво Національного університету "Львівська політехніка”, 2018. – 53 с.
7. Конспект лекцій.
Рекомендована література
Базова
1. Жуковський С.С. Вентилювання приміщень: навч. посібник / С.С. Жуковський, О.Т. Возняк, О.М. Довбуш, З.С. Люльчак. – Львів: Вид-во НУ ЛП, 2007. – 476 с.
2. Жуковський С.С. Системи енергопостачання і забезпечення мікроклімату будинків та споруд / С.С. Жуковський, В.Й Лабай // Навчальний посібник для ВЗО. – Львів: Астрономо-геодезичне товариство, 2000. – 259 с.
3. Ткачук А.Я., Довгалюк В.Б. Аеродинаміка вентиляції. - Київ; ІВНВКП «Укргеліотех», 2009. - 376 с.
4. Жуковський С.С., Лабай В.Й. Аеродинаміка вентиляції. Львів: Видавництво Національного університету «Львівська політехніка», 2003. – 372 с.
5. Міністерство освіти і науки України Вінницький національний технічний університет Г. С. Ратушняк, Р. В. Степанковський Регулювання витрати аеродинамічних потоків в системах вентиляції. Монографія; Вінниця ВНТУ 2015 . 31с.
6. Опалення, вентиляція і кондиціювання повітря. Робочі креслення: ДСТУ Б А.2.4-41:2009. – К. : Мінрегіонбуд України, 2009. – 31 с.
7. ДСТУ Н Б В.1.1-27:2010 Будівельна кліматологія.
8. Опалення, вентиляція та кондиціонування : ДБН В.2.5-67:2013 – К. : Мінрегіон України, 2013. – 141 с. 58.
9. ДСТУ Б А.2.4-8-95 (ГОСТ 21.205-93). Умовні позначення елементів санітарно-технічних систем.
10. ДСН 3.3.6.042-99. Державні санітарні норми мікроклімату виробничих приміщень.
Допоміжна
1. Основи охорони праці / К. Н Ткачук. М. О. Халімовський, В. В. Зацарний та ін. // За ред. К. Н. Ткачука і М. О. Халімовського. ? К.: Основа, 2006. – 448 с.
2. Желих, В. М. Визначення полів температури та швидкості повітря в приміщенні з використанням термосифонного геліоколектора / В. М Желих, Х. Р. Лесик // Енергоефективність в будівництві та архітектурі : наук.-техн. зб. / Київ нац. ун-т буд-ва і архіт. ; відп. ред. П. М. Куліков. - Київ : КНУБА, 2013- Вип. 4. - С. 104-108.
3. Желих В.М. Вплив вільних конвективних потоків на організацію повітрообміну в приміщеннях невеликого об’єму. В Желих, Т Щеглюк, Ю Юркевич Вісник Національного університету “Львівська політехніка”2004/2/18, С. 158-162.
4. Желих В.М. Оцінка впливу рухомості повітря на параметри мікроклімату приміщень з інфрачервоним опаленням ВМ Желих, НА Сподинюк, 2007 Журнал Науковий вісник НЛТУ України. Т17.вип.3.С 1’45-149.
Уніфікований додаток: Lviv Polytechnic National University ensures the realization of the right of persons with disabilities to obtain higher education. Inclusive educational services are provided by the Service of accessibility to learning opportunities "Without restrictions", the purpose of which is to provide permanent individual support for the educational process of students with disabilities and chronic diseases. An important tool for the implementation of the inclusive educational policy at the University is the Program for improving the qualifications of scientific and pedagogical workers and educational and support staff in the field of social inclusion and inclusive education. Contact at:
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E-mail: nolimits@lpnu.ua
Websites: https://lpnu.ua/nolimits https://lpnu.ua/integration
Академічна доброчесність: The policy regarding the academic integrity of the participants of the educational process is formed on the basis of compliance with the principles of academic integrity, taking into account the norms "Regulations on academic integrity at the Lviv Polytechnic National University" (approved by the academic council of the university on June 20, 2017, protocol No. 35).
Air Ventilation Systems (курсова робота)
Major: Building Energy Performans and Engineering Systems
Code of subject: 7.192.09.E.023
Credits: 2.00
Department: Heat and Gas Supply and Ventilation
Lecturer: D.Sc., Prof. Vasyl Zhelykh
Semester: 2 семестр
Mode of study: денна
Завдання: The study of an educational discipline involves the formation of competences in students of education:
- integral:
The ability to solve problems of a research and/or innovative nature in the field of construction and civil engineering.
- general:
Special professional competence
SK3. Ability to develop and implement projects in the field of construction and civil engineering.
Special professional competences of a professional direction
SKP1.2 The ability to use information and computer tools and programs in the design of heat supply and ventilation systems of buildings and structures.
SCP1.4. Ability to plan and carry out scientific studies of heat supply and ventilation systems of buildings and structures.
Learning outcomes: As a result of studying the academic discipline, the student should be able to demonstrate the following learning outcomes:
Know:
• requirements of the state building regulations (DBN) on the regulation of external climate parameters for the design of industrial ventilation systems;
• sanitary-hygienic and technological requirements of DBN for internal air parameters in production premises.;
• clearly understand the place and role of modern ventilation systems of industrial premises in the general system of ensuring microclimate parameters;
• to know the design features of modern ventilation units), construction of air treatment processes on the I-d diagram, determination of the productivity of ventilation units;
• schemes and principles of operation of ventilation units, their selection and calculation;
Be able to:
• solve engineering, design, production and research-scientific tasks on ventilation of industrial premises;
• use the acquired theoretical and practical experience to solve specific practical tasks of an engineering nature.
As a result of studying the academic discipline, the student must be able to demonstrate the following program learning outcomes:
PH02. Make effective design and technical decisions, taking into account the features of the construction object, aspects of social and ethical responsibility, technical and economic justification, determination of the optimal mode of its operation and implementation of resource and energy saving measures.
PH07. Develop measures for labor and environmental protection during research and production activities.
UM 1. Specialized skills/problem-solving skills necessary for conducting research and/or carrying out innovative activities with the aim of developing new knowledge and procedures
AiV 1. Management of work or learning processes that are complex, unpredictable and require new strategic approaches.
Required prior and related subjects: The previous ones
academic disciplines
Economics and construction management
Foreign language by professional direction
VIM technologies in engineering networks and structures
Heat and mass exchange
Environmental chemistry
Building thermal physics
Accompanying and following
academic disciplines
Institutes of energy certification and engineering networks
Special course on scientific research of the specialty
Workshop on preparation of scientific publications, conference materials, presentations, scientific reports
Educational and research practice
Energy audit of buildings and structures
Completion of master's qualification work
Summary of the subject: A brief description of the purpose of the facility; characteristic structural elements, the technological features of certain production facilities; design parameters external and internal air ventilation system design for warm and cold seasons; determining the thermal load space and a choice of heating facilities; select the type of local suction, the calculation of their performance; thermal balance compilation premises; calculation air shower for jobs in industrial premises; calculation of the total exchange ventilation with consideration of local ventilation systems; calculation of thermal air curtains for thermal industrial premises; development of ventilation systems separate production facilities; air balance calculation of production facilities in warm and cold seasons; aerodynamic calculation of ventilation systems, tidal and pneumatic; selection of ventilation equipment.
Опис: Initial (output) data for designing ventilation systems (VS)
1. Architectural - construction characteristics of the object
2. Characteristics of technological processes of industrial premises.
3. Calculation parameters of the external environment.
4. Calculated indoor air parameters.
Calculation of the thermal regime of the premises
1. Calculation of the main (transmission) heat losses.
2. Calculation of heat losses for heating air flows that penetrate into the room due to the leakage of its external fences.
3. Heat consumption for heating materials that are cold
enter the premises
4. Heat consumption for heating vehicles
5. Calculation of the thermal balance of the premises in the KhPR and determination of the thermal efficiency of its heating system (CO) with intermittent and continuous heating
6. Calculation of heat emissions from people
7. Calculation of heat emissions from electric lighting
8. Calculation of heat emissions from electric motors
9. Calculation of heat emissions from surfaces of heated equipment
10. Calculation of heat emissions from solar radiation
11. Calculation of the thermal balance of the room, its individual zones and workplaces
Calculation of the air condition of the premises
1. Basics of air mode.
2. Calculation of smoke productivity of local exhaust ventilation systems:
- open local smokes (umbrellas, suction panels, on-board slit smokes);
- semi-open local smokehouses (ventilated cabinets and chambers, protective smokehouses - casings and suction funnels);
- completely open local smokes
3. Calculation of local inflow ventilation:
- air showers;
- air curtains.
4. Ventilation of cabins of bridge cranes.
5. Calculation of general air exchange of premises and air heating systems:
- air parameters in ventilation processes;
- equations and schemes of air balances of ventilated premises;
- determination of air exchanges of general exchange ventilation; calculated air exchange in different periods of the year;
- calculation of air exchange of premises according to multiples and norms
- provision of air exchange of premises by means of aeration;
- provision of air exchange of premises due to the natural encouragement of the movement of air flows.
Calculation of air distribution and air suction in ventilated rooms.
1. Selection of air distributors, their structural and aerodynamic characteristics.
2. Features of air distribution calculation.
3. Examples of air distribution calculation.
4. Ducts of uniform suction.
Ventilation and heating of individual industrial premises
1. Rooms with excess heat
2. Rooms with excess moisture
3. Premises with galvanic and etching technological processes.
4. Premises for painting products and parts.
5. Premises for welding products and parts.
6. Vehicle maintenance premises.
7. Premises related to conversion and transportation of loose materials.
8. Premises of woodworking production.
9. Premises for mechanical processing of metal products.
10. Large blocked premises.
Aerodynamic calculations of industrial ventilation systems
1. With the natural movement of air currents
2. Mechanical SVs of general purpose
3. Pneumatic transport and aspiration systems
Fire protection requirements in the design of WS
Assessment methods and criteria: Assessment of students' knowledge in the discipline of Designing ventilation systems is carried out in the form of current controls and semester control of knowledge, which is carried out at the end of the semester.
The current monitoring of student knowledge in the discipline of Designing ventilation systems includes the following assessment forms:
Assessment during practical work.
Survey of students' knowledge of theoretical material:
– 2.5 points for each class during the semester for full-time students;
– 2 points for each class during the semester for correspondence students;
Assessment during laboratory work.
Assessment for performance and defense of laboratory work:
– full-time study form 4 laboratory works – 20.0 points;
- correspondence form of education 2 laboratory works - 10.0 points;
Evaluation of independent (in particular, individual) work:
- evaluation of completed individual course work for full-time and part-time students - 100 points. Points are awarded for correct completion of individual course work and its defense;
- evaluation of completed individual control work for correspondence students - 16 points.
The semester control of knowledge includes the results of the current control of students' knowledge, conducted during the semester, and examination control.
Exam tasks are structured according to three levels of difficulty. The maximum number of points for the exam task is 50. The oral component is 10 points. The results of the current control are added to this number (maximum - 40 points). The maximum number of points for the semester control is 100. The actual number of points received by the student is transferred to the state final assessment.
Критерії оцінювання результатів навчання: Assessment of students' knowledge in the discipline of Designing ventilation systems is carried out in the form of current controls and semester control of knowledge, which is carried out at the end of the semester.
The current monitoring of student knowledge in the discipline of Designing ventilation systems includes the following assessment forms:
Assessment during practical work.
Survey of students' knowledge of theoretical material:
– 2.5 points for each class during the semester for full-time students;
– 2 points for each class during the semester for correspondence students;
Assessment during laboratory work.
Assessment for performance and defense of laboratory work:
– full-time study form 4 laboratory works – 20.0 points;
- correspondence form of education 2 laboratory works - 10.0 points;
Evaluation of independent (in particular, individual) work:
- evaluation of completed individual course work for full-time and part-time students - 100 points. Points are awarded for correct completion of individual course work and its defense;
- evaluation of completed individual control work for correspondence students - 16 points.
The semester control of knowledge includes the results of the current control of students' knowledge, conducted during the semester, and examination control.
Exam tasks are structured according to three levels of difficulty. The maximum number of points for the exam task is 50. The oral component is 10 points. The results of the current control are added to this number (maximum - 40 points). The maximum number of points for the semester control is 100. The actual number of points received by the student is transferred to the state final assessment.
Порядок та критерії виставляння балів та оцінок: Assessment of students' knowledge in the discipline "Non-traditional sources of energy" is carried out in the form of current controls and semester control of knowledge, which is carried out at the end of the semester.
The current control of students' knowledge in the discipline "Non-traditional energy sources" includes the following forms of assessment:
Evaluation during practical work:
- Survey of students' knowledge of theoretical material
– 2.5 points for each class during the semester for full-time students;
– 2 points for each class during the semester for correspondence students;
Assessment during laboratory work.
Assessment for performance and defense of laboratory work:
– full-time study form 4 laboratory works – 20.0 points;
– correspondence form of education 2 laboratory works – 10.0 points;
Evaluation of independent (in particular, individual) work:
- evaluation of completed individual course work for full-time and part-time students - 100 points. Points are awarded for correct completion of individual course work and its defense;
- evaluation of completed individual control work for correspondence students - 16 points.
The semester control of knowledge includes the results of the current control of students' knowledge, conducted during the semester, and examination control.
Exam tasks are also structured according to three levels of difficulty. The maximum number of points for the exam task is 50. The oral component is 10 points. The results of the current control are added to this number (maximum - 40 points). The maximum number of points for the semester control is 100. The actual number of points received by the student is transferred to the state final assessment.
Recommended books: 1. Електронний навчально-методичний комплекс Cистеми вентиляції повітря .
2. Інструкція до лабораторної роботи СВП-1 Дослідження розподілу статичного тиску в первинній тисковій камері секційного панельного джерельного повітророзподільника з курсу Проектування систем вентиляції для студентів спеціальності 192 Будівництво та цивільна інженерія, /Укл.: В.М. Желих, О.М. Довбуш, Г.М. Клименко, О.І.Дзерин, Д.І.Гарасим – Львів: Видавництво Національного університету "Львівська політехніка”, 2024. – 10 с.
3. Інструкція до лабораторної роботи СВП-2 Дослідження ефективності відсмоктуючої панелі з курсу Проектування систем вентиляції для студентів другого (магістерського) рівня вищої освіти спеціальності 192 Будівництво та цивільна інженерія. /Укл.:В.М. Желих, В.Й.Лабай, Г.М.Клименко, О.І. Дзерин. О.М.Довбуш – Львів, 2024. – 14 с.
4. Дослідження ефективності витяжного зонта: Інструкція до лабораторної роботи СВП-3 з курсу Проектування систем вентиляції для студентів другого (магістерського) рівня вищої освіти спеціальності 192 Будівництво та цивільна інженерія. /Укл.:В.М. Желих, Г.М.Клименко, М.Є.Касинець, І.Є. Сухолова, , О.М.Довбуш – Львів, 2024. – 10 с.
5. Інструкція до лабораторної роботи СВП-4 Дослідження ефективності бортового відсмоктувача з курсу Проектування систем вентиляції для студентів спеціальності 192 «Будівництво та цивільна інженерія, /Укл.: В. М. Желих, О. М. Довбуш, Г. М. Клименко, О.І.Дзерин, Д.І.Гарасим – Львів: Видавництво Національного університету "Львівська політехніка”, 2018. – 6 с.
6. Методичні вказівки до курсової роботи з курсу Систем вентиляції повітря для студентів спеціальності 192 Будівництво та цивільна інженерія, / Укл.: В.М. Желих, О.М. Довбуш, Г.М. Клименко, О.І.Дзерин, Д.І.Гарасим. – Львів: Видавництво Національного університету "Львівська політехніка”, 2018. – 53 с.
7. Конспект лекцій.
Рекомендована література
Базова
1. Жуковський С.С. Вентилювання приміщень: навч. посібник / С.С. Жуковський, О.Т. Возняк, О.М. Довбуш, З.С. Люльчак. – Львів: Вид-во НУ ЛП, 2007. – 476 с.
2. Жуковський С.С. Системи енергопостачання і забезпечення мікроклімату будинків та споруд / С.С. Жуковський, В.Й Лабай // Навчальний посібник для ВЗО. – Львів: Астрономо-геодезичне товариство, 2000. – 259 с.
3. Ткачук А.Я., Довгалюк В.Б. Аеродинаміка вентиляції. - Київ; ІВНВКП «Укргеліотех», 2009. - 376 с.
4. Жуковський С.С., Лабай В.Й. Аеродинаміка вентиляції. Львів: Видавництво Національного університету «Львівська політехніка», 2003. – 372 с.
5. Міністерство освіти і науки України Вінницький національний технічний університет Г. С. Ратушняк, Р. В. Степанковський Регулювання витрати аеродинамічних потоків в системах вентиляції. Монографія; Вінниця ВНТУ 2015 . 31с.
6. Опалення, вентиляція і кондиціювання повітря. Робочі креслення: ДСТУ Б А.2.4-41:2009. – К. : Мінрегіонбуд України, 2009. – 31 с.
7. ДСТУ Н Б В.1.1-27:2010 Будівельна кліматологія.
8. Опалення, вентиляція та кондиціонування : ДБН В.2.5-67:2013 – К. : Мінрегіон України, 2013. – 141 с. 58.
9. ДСТУ Б А.2.4-8-95 (ГОСТ 21.205-93). Умовні позначення елементів санітарно-технічних систем.
10. ДСН 3.3.6.042-99. Державні санітарні норми мікроклімату виробничих приміщень.
Допоміжна
1. Основи охорони праці / К. Н Ткачук. М. О. Халімовський, В. В. Зацарний та ін. // За ред. К. Н. Ткачука і М. О. Халімовського. ? К.: Основа, 2006. – 448 с.
2. Желих, В. М. Визначення полів температури та швидкості повітря в приміщенні з використанням термосифонного геліоколектора / В. М Желих, Х. Р. Лесик // Енергоефективність в будівництві та архітектурі : наук.-техн. зб. / Київ нац. ун-т буд-ва і архіт. ; відп. ред. П. М. Куліков. - Київ : КНУБА, 2013- Вип. 4. - С. 104-108.
3. Желих В.М. Вплив вільних конвективних потоків на організацію повітрообміну в приміщеннях невеликого об’єму. В Желих, Т Щеглюк, Ю Юркевич Вісник Національного університету “Львівська політехніка”2004/2/18, С. 158-162.
4. Желих В.М. Оцінка впливу рухомості повітря на параметри мікроклімату приміщень з інфрачервоним опаленням ВМ Желих, НА Сподинюк, 2007 Журнал Науковий вісник НЛТУ України. Т17.вип.3.С 1’45-149.
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