ZUT - Polska Rama Kwalifikacji / Rok 2021/2022 / Wydział Budownictwa i Inżynierii Środowiska / Civil Engineering (S2) / Sylabus przedmiotu - Sustainable Design and Environmental Engineering

Wydział Budownictwa i Inżynierii Środowiska - Civil Engineering (S2)

Sylabus przedmiotu Sustainable Design and Environmental Engineering:

Informacje podstawowe

Kierunek studiów	Civil Engineering
Forma studiów	studia stacjonarne	Poziom	drugiego stopnia
Tytuł zawodowy absolwenta	magister
Obszary studiów	charakterystyki PRK, kompetencje inżynierskie PRK
Profil	ogólnoakademicki
Moduł	—
Przedmiot	Sustainable Design and Environmental Engineering
Specjalność	International Construction Management
Jednostka prowadząca	Katedra Mieszkalnictwa i Podstaw Techniczno-Ekologicznych Architektury
Nauczyciel odpowiedzialny	Krystyna Januszkiewicz <Krystyna.Januszkiewicz@zut.edu.pl>
Inni nauczyciele	Professor Visiting <Visiting@zut.edu.pl>
ECTS (planowane)	4,0	ECTS (formy)	4,0
Forma zaliczenia	egzamin	Język	angielski
Blok obieralny	7	Grupa obieralna	1

Formy dydaktyczne

Forma dydaktyczna	KOD	Semestr	Godziny	ECTS	Waga	Zaliczenie
wykłady	W	2	30	2,0	0,50	egzamin
projekty	P	2	30	2,0	0,50	zaliczenie

Wymagania wstępne

KOD	Wymaganie wstępne
W-1	Intermediate skills in structural design. Basic knowledge of the philosophy of designing physical objects, the built environment, and services to comply with the principles of social, economic, and ecological sustainability.

Cele przedmiotu

KOD	Cel modułu/przedmiotu
C-1	The aim of the course is exploring innovative solutions to problems in air, water, and land contamination and waste disposal, with coverage of climate change, environmental risk assessment and management, green technologies, sustainability, and environmental policy. This multidisciplinary field is requiring an integration of physical, chemical and biological principles with engineering analysis for environmental protection and restoration.
C-2	The multidisciplinary approach in Environmental Engineering gives the student expertise in technical fields related to their own personal interest. The main mission of this course is to build the designers own interpretation and implementation of environmental systems thinking.

KOD

Cel modułu/przedmiotu

C-1

The aim of the course is exploring innovative solutions to problems in air, water, and land contamination and waste disposal, with coverage of climate change, environmental risk assessment and management, green technologies, sustainability, and environmental policy. This multidisciplinary field is requiring an integration of physical, chemical and biological principles with engineering analysis for environmental protection and restoration.

C-2

The multidisciplinary approach in Environmental Engineering gives the student expertise in technical fields related to their own personal interest. The main mission of this course is to build the designers own interpretation and implementation of environmental systems thinking.

Treści programowe z podziałem na formy zajęć

KOD	Treść programowa	Godziny
projekty
T-P-1	The task is to design an environmental structure to an air purification in highly- urbanized area with use TiO2; public use object in a municipaliity with an attractive busy city landscape, e.g. the city of Szczecin.	30
		30
wykłady
T-W-1	What is the intention of sustainable design - how to "eliminate negative environmental impact completely through skillful sensitive design" - the basic principles.	2
T-W-2	The Philosophy of Sustainable Design - designing for the Environment - the sustainable buildings and the environmentally-friendly architecture.	2
T-W-3	Energy aspects in sustainable design - renewable energy sources.	2
T-W-4	The multi-criteria evaluation of design solutions using specialized computer programs in the process of sustainable design. The building information modeling (BIM) as a means of increasing total project quality, providing accurate quantity take-offs, and improving scheduling, consequently diminishing total project contingencies and costs.	2
T-W-5	What is the intention of environmental engineering - exploring innovative solutions to problems in air, water, and land contamination and waste disposal, with coverage of climate change, environmental risk assessment and management, green technologies, sustainability, and environmental policy.	2
T-W-6	The climate change oriented design defined as an adjustment of conditions compatible with changeable climate characteristics and ecology- methods and practice - case study.	2
T-W-7	The low-carbon building - different approaches to assessing the criteria of what constitutes a low-carbon building.	2
T-W-8	An experimental and CFD investigation into the mixing in a closed system to reduce wind loads for a particular building.	2
T-W-9	The Climate responsive building envelopes - an attempt to understand and quantify the effect of different parameters like building materials, orientation, percentage fenestrations, help the designers to try different combinations of these building parameters help the designers to try different combinations of these building parameters to reduce heat loads for a particular building.	2
T-W-10	The climate responsive building design strategies and their barriers such as: the innovative character and the lack of dedicated knowledge on the synthesis of design, building performance and implementation in the design process.	2
T-W-11	The strategies that address to reducing energy consumption and providing a comfortable and healthy environment during the Climate change era (retrieving renewable energy resources.	2
T-W-12	Air and water pollutions a worldwide problem - research review into an air and water purification in big cities.	2
T-W-13	The global climate change - disasters and hazards - infrastructures to harvester plants reduce disaster’s impact to cities - designs form mobility.	2
T-W-14	The global climate change - rainwater harvester issues - infrastructures to collect rainwater in a big cities and agriculture water problems.	2
T-W-15	The global climate change - food security - infrastructures to an agricultural production in a big cities - vertical farming.	2
		30

Obciążenie pracą studenta - formy aktywności

KOD	Forma aktywności	Godziny
projekty
A-P-1	Participation in lectures	30
A-P-2	Design work	30
		60
wykłady
A-W-1	Participation in lectures and participation in discussions	30
A-W-2	The study required and supplementary readings	30
		60

Metody nauczania / narzędzia dydaktyczne

KOD	Metoda nauczania / narzędzie dydaktyczne
M-1	Lectures with Power Point presentations by the subject leader. Additionally, the discussion with the current thinking on solutions to problems in air, water, and land contamination and waste disposal, with coverage of climate change, environmental risk assessment and management, green technologies, sustainability, and environmental policy.
M-2	The central teaching strategy associated with the design process is regular, tutor-led, design tutorials in which each student or team present ongoing projects work, discuss and evaluate these results.

Sposoby oceny

KOD	Sposób oceny
S-1	Ocena podsumowująca: Exam
S-2	Ocena podsumowująca: Execution of design project

Zamierzone efekty uczenia się - wiedza

Zamierzone efekty uczenia się	Odniesienie do efektów kształcenia dla kierunku studiów	Odniesienie do efektów zdefiniowanych dla obszaru kształcenia	Odniesienie do efektów uczenia się prowadzących do uzyskania tytułu zawodowego inżyniera	Cel przedmiotu	Treści programowe	Metody nauczania	Sposób oceny
B-A_2A_ICM/D/11-2_W01 Knows technical and technological conditions of Sustainable Design and Environmental Engineering their practice. Understands basic principles and spatial relations in the sustainable structural design.	B-A_2A_W02, B-A_2A_W05	—	—	C-1, C-2	T-W-5, T-W-1, T-W-2, T-W-3, T-W-4, T-W-6, T-W-7, T-W-8, T-W-9, T-W-10, T-W-11, T-W-12, T-W-13, T-W-14, T-W-15, T-P-1	M-1, M-2	S-2, S-1

Zamierzone efekty uczenia się - umiejętności

Zamierzone efekty uczenia się	Odniesienie do efektów kształcenia dla kierunku studiów	Odniesienie do efektów zdefiniowanych dla obszaru kształcenia	Odniesienie do efektów uczenia się prowadzących do uzyskania tytułu zawodowego inżyniera	Cel przedmiotu	Treści programowe	Metody nauczania	Sposób oceny
B-A_2A_ICM/D/11-2_U01 Is able to adjust the methods if the Sustainable Design and Environmental Engineering to a building design task, experiments and uses computer software. In his/her work, pursues an individual engineer attitude which is manifested through his/her approach to reality the sustainable develionebt and the environmental design.	B-A_2A_U16, B-A_2A_U11	—	—	C-1, C-2	T-W-5, T-W-1, T-W-2, T-W-3, T-W-4, T-W-6, T-W-7, T-W-8, T-W-9, T-W-10, T-W-11, T-W-12, T-W-13, T-W-14, T-W-15, T-P-1	M-1, M-2	S-2, S-1

Zamierzone efekty uczenia się - inne kompetencje społeczne i personalne

Zamierzone efekty uczenia się	Odniesienie do efektów kształcenia dla kierunku studiów	Odniesienie do efektów zdefiniowanych dla obszaru kształcenia	Odniesienie do efektów uczenia się prowadzących do uzyskania tytułu zawodowego inżyniera	Cel przedmiotu	Treści programowe	Metody nauczania	Sposób oceny
B-A_2A_ICM/D/11-2_K01 The student is poor in demonstration of an ability to evaluate and critically assess specific Sustainable Design and Environmental Engineering design outcomes.	B-A_2A_K03	—	—	C-1, C-2	T-W-5, T-W-1, T-W-2, T-W-3, T-W-4, T-W-6, T-W-7, T-W-8, T-W-9, T-W-10, T-W-11, T-W-12, T-W-13, T-W-14, T-W-15, T-P-1	M-1, M-2	S-2, S-1

Kryterium oceny - wiedza

Efekt uczenia się	Ocena	Kryterium oceny
B-A_2A_ICM/D/11-2_W01 Knows technical and technological conditions of Sustainable Design and Environmental Engineering their practice. Understands basic principles and spatial relations in the sustainable structural design.	2,0
	3,0	The student is poor in clear explanations what is the environmental engineering and the basic principles, design objectives, goals and processes in relation to a selected design project analysis, potential alternatives.
	3,5
	4,0
	4,5
	5,0

Kryterium oceny - umiejętności

Efekt uczenia się	Ocena	Kryterium oceny
B-A_2A_ICM/D/11-2_U01 Is able to adjust the methods if the Sustainable Design and Environmental Engineering to a building design task, experiments and uses computer software. In his/her work, pursues an individual engineer attitude which is manifested through his/her approach to reality the sustainable develionebt and the environmental design.	2,0
	3,0	The student is poor in demonstration of an ability to evaluate and critically assess specific Sustainable Design and Environmental Engineering design outcomes.
	3,5
	4,0
	4,5
	5,0

Kryterium oceny - inne kompetencje społeczne i personalne

Efekt uczenia się	Ocena	Kryterium oceny
B-A_2A_ICM/D/11-2_K01 The student is poor in demonstration of an ability to evaluate and critically assess specific Sustainable Design and Environmental Engineering design outcomes.	2,0
	3,0	The student is poor in ability a clear demonstration of an understanding principles of the sustainability in building design and potential further application of the knowledge in practice.
	3,5
	4,0
	4,5
	5,0

Literatura podstawowa

Januszkiewicz K., Multi-layer structural "skins", Case of Study, 2014, Archivolta No. pp. 52-57.
McLennan J.F., The Philosophy of Sustainable Design: The Future of Architecture, Ecotone Publishing, 2004
Setchi R., Howlett R.J., Naim M. Seinz H., Sustainable Design and Manufacturing Part 1, Lulu.com, 2014
Nazaroff W.W., Alvarez-Cohen L., Environmental Engineering Science, John Wiley and Sons, London, 2014
Guy S., Moore S. A., Sustainable Architectures: Critical Explorations of Green Building Practice in Europe and North America, Routledge, 2014
Wurbs R., James W. P., Water Resources Engineering, John Wiley and Sons, London, 2001
Januszkiewicz K. and Paszkowska N. E., Climate change adopted building envelope for the urban environment. A new approach to architectural design, Go Green, Vienna, 2016, Vol. III, Book 6, Nano, Bio and Green Technologies for a sustainable Future
Januszkiewicz K., Jarmusz M., Envisioning Urban Farming for Food Security during the Climate Change Era. Vertical Farm within Highly Urbanized Areas, IOP Conf. Ser.: Mater. Sci. Eng., 2017

Literatura dodatkowa

Januszkiewicz K., A Climate Change adopted building envelope as a protector of Human Health in the urban environment, IOP Conf. Ser.: Mater. Sci. Eng. 245 052094, 2017
Wurbs R., James W. P., Water Resources Engineering, John Wiley and Sons, London, 2008
Goia F., Perino M., Serra V., Zanghirella F., Towards an active, responsive, and solar building envelope, Journal of Green Building, 2011, No. 4, vol.5, pp. 121-136.
Velikov K., Thün G, Responsive Building Envelopes: Characteristics and Evolving Paradigms. In Design and Construction of High Performance Homes, Routledge Press, London, 2012, pp. 75-91.
Journal of Environmental Engineering and Science, 2011, ISSN 1496-2551 | E-ISSN 1496-256X

Treści programowe - projekty

KOD	Treść programowa	Godziny
T-P-1	The task is to design an environmental structure to an air purification in highly- urbanized area with use TiO2; public use object in a municipaliity with an attractive busy city landscape, e.g. the city of Szczecin.	30
		30

Treści programowe - wykłady

KOD	Treść programowa	Godziny
T-W-1	What is the intention of sustainable design - how to "eliminate negative environmental impact completely through skillful sensitive design" - the basic principles.	2
T-W-2	The Philosophy of Sustainable Design - designing for the Environment - the sustainable buildings and the environmentally-friendly architecture.	2
T-W-3	Energy aspects in sustainable design - renewable energy sources.	2
T-W-4	The multi-criteria evaluation of design solutions using specialized computer programs in the process of sustainable design. The building information modeling (BIM) as a means of increasing total project quality, providing accurate quantity take-offs, and improving scheduling, consequently diminishing total project contingencies and costs.	2
T-W-5	What is the intention of environmental engineering - exploring innovative solutions to problems in air, water, and land contamination and waste disposal, with coverage of climate change, environmental risk assessment and management, green technologies, sustainability, and environmental policy.	2
T-W-6	The climate change oriented design defined as an adjustment of conditions compatible with changeable climate characteristics and ecology- methods and practice - case study.	2
T-W-7	The low-carbon building - different approaches to assessing the criteria of what constitutes a low-carbon building.	2
T-W-8	An experimental and CFD investigation into the mixing in a closed system to reduce wind loads for a particular building.	2
T-W-9	The Climate responsive building envelopes - an attempt to understand and quantify the effect of different parameters like building materials, orientation, percentage fenestrations, help the designers to try different combinations of these building parameters help the designers to try different combinations of these building parameters to reduce heat loads for a particular building.	2
T-W-10	The climate responsive building design strategies and their barriers such as: the innovative character and the lack of dedicated knowledge on the synthesis of design, building performance and implementation in the design process.	2
T-W-11	The strategies that address to reducing energy consumption and providing a comfortable and healthy environment during the Climate change era (retrieving renewable energy resources.	2
T-W-12	Air and water pollutions a worldwide problem - research review into an air and water purification in big cities.	2
T-W-13	The global climate change - disasters and hazards - infrastructures to harvester plants reduce disaster’s impact to cities - designs form mobility.	2
T-W-14	The global climate change - rainwater harvester issues - infrastructures to collect rainwater in a big cities and agriculture water problems.	2
T-W-15	The global climate change - food security - infrastructures to an agricultural production in a big cities - vertical farming.	2
		30

Formy aktywności - projekty

KOD	Forma aktywności	Godziny
A-P-1	Participation in lectures	30
A-P-2	Design work	30
		60

(*) 1 punkt ECTS, odpowiada około 30 godzinom aktywności studenta

Formy aktywności - wykłady

KOD	Forma aktywności	Godziny
A-W-1	Participation in lectures and participation in discussions	30
A-W-2	The study required and supplementary readings	30
		60

(*) 1 punkt ECTS, odpowiada około 30 godzinom aktywności studenta

Pole	KOD	Znaczenie kodu
Zamierzone efekty uczenia się	B-A_2A_ICM/D/11-2_W01	Knows technical and technological conditions of Sustainable Design and Environmental Engineering their practice. Understands basic principles and spatial relations in the sustainable structural design.
Odniesienie do efektów kształcenia dla kierunku studiów	B-A_2A_W02	Has detailed knowledge within the scope of the programmes of study related to civil engineering
Odniesienie do efektów kształcenia dla kierunku studiów	B-A_2A_W05	Has theory-based, detailed knowledge related to selected issues in civil engineering
Cel przedmiotu	C-1	The aim of the course is exploring innovative solutions to problems in air, water, and land contamination and waste disposal, with coverage of climate change, environmental risk assessment and management, green technologies, sustainability, and environmental policy. This multidisciplinary field is requiring an integration of physical, chemical and biological principles with engineering analysis for environmental protection and restoration.
Cel przedmiotu	C-2	The multidisciplinary approach in Environmental Engineering gives the student expertise in technical fields related to their own personal interest. The main mission of this course is to build the designers own interpretation and implementation of environmental systems thinking.
Treści programowe	T-W-5	What is the intention of environmental engineering - exploring innovative solutions to problems in air, water, and land contamination and waste disposal, with coverage of climate change, environmental risk assessment and management, green technologies, sustainability, and environmental policy.
	T-W-1	What is the intention of sustainable design - how to "eliminate negative environmental impact completely through skillful sensitive design" - the basic principles.
	T-W-2	The Philosophy of Sustainable Design - designing for the Environment - the sustainable buildings and the environmentally-friendly architecture.
	T-W-3	Energy aspects in sustainable design - renewable energy sources.
	T-W-4	The multi-criteria evaluation of design solutions using specialized computer programs in the process of sustainable design. The building information modeling (BIM) as a means of increasing total project quality, providing accurate quantity take-offs, and improving scheduling, consequently diminishing total project contingencies and costs.
	T-W-6	The climate change oriented design defined as an adjustment of conditions compatible with changeable climate characteristics and ecology- methods and practice - case study.
	T-W-7	The low-carbon building - different approaches to assessing the criteria of what constitutes a low-carbon building.
	T-W-8	An experimental and CFD investigation into the mixing in a closed system to reduce wind loads for a particular building.
	T-W-9	The Climate responsive building envelopes - an attempt to understand and quantify the effect of different parameters like building materials, orientation, percentage fenestrations, help the designers to try different combinations of these building parameters help the designers to try different combinations of these building parameters to reduce heat loads for a particular building.
	T-W-10	The climate responsive building design strategies and their barriers such as: the innovative character and the lack of dedicated knowledge on the synthesis of design, building performance and implementation in the design process.
	T-W-11	The strategies that address to reducing energy consumption and providing a comfortable and healthy environment during the Climate change era (retrieving renewable energy resources.
	T-W-12	Air and water pollutions a worldwide problem - research review into an air and water purification in big cities.
	T-W-13	The global climate change - disasters and hazards - infrastructures to harvester plants reduce disaster’s impact to cities - designs form mobility.
	T-W-14	The global climate change - rainwater harvester issues - infrastructures to collect rainwater in a big cities and agriculture water problems.
	T-W-15	The global climate change - food security - infrastructures to an agricultural production in a big cities - vertical farming.
	T-P-1	The task is to design an environmental structure to an air purification in highly- urbanized area with use TiO2; public use object in a municipaliity with an attractive busy city landscape, e.g. the city of Szczecin.
Metody nauczania	M-1	Lectures with Power Point presentations by the subject leader. Additionally, the discussion with the current thinking on solutions to problems in air, water, and land contamination and waste disposal, with coverage of climate change, environmental risk assessment and management, green technologies, sustainability, and environmental policy.
Metody nauczania	M-2	The central teaching strategy associated with the design process is regular, tutor-led, design tutorials in which each student or team present ongoing projects work, discuss and evaluate these results.
Sposób oceny	S-2	Ocena podsumowująca: Execution of design project
Sposób oceny	S-1	Ocena podsumowująca: Exam
Kryteria oceny	Ocena	Kryterium oceny
	2,0
	3,0	The student is poor in clear explanations what is the environmental engineering and the basic principles, design objectives, goals and processes in relation to a selected design project analysis, potential alternatives.
	3,5
	4,0
	4,5
	5,0

Pole	KOD	Znaczenie kodu
Zamierzone efekty uczenia się	B-A_2A_ICM/D/11-2_U01	Is able to adjust the methods if the Sustainable Design and Environmental Engineering to a building design task, experiments and uses computer software. In his/her work, pursues an individual engineer attitude which is manifested through his/her approach to reality the sustainable develionebt and the environmental design.
Odniesienie do efektów kształcenia dla kierunku studiów	B-A_2A_U16	Is able to identify and formulate a specification of complex engineering tasks characteristic for the specialisation studied, including atypical tasks, taking into consideration their non-technical aspects
Odniesienie do efektów kształcenia dla kierunku studiów	B-A_2A_U11	While formulating and solving engineering tasks, is able to integrate knowledge within the scope of the fields of science and the scientific disciplines related to civil engineering and use a systemic approach, also including non-technical aspects
Cel przedmiotu	C-1	The aim of the course is exploring innovative solutions to problems in air, water, and land contamination and waste disposal, with coverage of climate change, environmental risk assessment and management, green technologies, sustainability, and environmental policy. This multidisciplinary field is requiring an integration of physical, chemical and biological principles with engineering analysis for environmental protection and restoration.
Cel przedmiotu	C-2	The multidisciplinary approach in Environmental Engineering gives the student expertise in technical fields related to their own personal interest. The main mission of this course is to build the designers own interpretation and implementation of environmental systems thinking.
Treści programowe	T-W-5	What is the intention of environmental engineering - exploring innovative solutions to problems in air, water, and land contamination and waste disposal, with coverage of climate change, environmental risk assessment and management, green technologies, sustainability, and environmental policy.
	T-W-1	What is the intention of sustainable design - how to "eliminate negative environmental impact completely through skillful sensitive design" - the basic principles.
	T-W-2	The Philosophy of Sustainable Design - designing for the Environment - the sustainable buildings and the environmentally-friendly architecture.
	T-W-3	Energy aspects in sustainable design - renewable energy sources.
	T-W-4	The multi-criteria evaluation of design solutions using specialized computer programs in the process of sustainable design. The building information modeling (BIM) as a means of increasing total project quality, providing accurate quantity take-offs, and improving scheduling, consequently diminishing total project contingencies and costs.
	T-W-6	The climate change oriented design defined as an adjustment of conditions compatible with changeable climate characteristics and ecology- methods and practice - case study.
	T-W-7	The low-carbon building - different approaches to assessing the criteria of what constitutes a low-carbon building.
	T-W-8	An experimental and CFD investigation into the mixing in a closed system to reduce wind loads for a particular building.
	T-W-9	The Climate responsive building envelopes - an attempt to understand and quantify the effect of different parameters like building materials, orientation, percentage fenestrations, help the designers to try different combinations of these building parameters help the designers to try different combinations of these building parameters to reduce heat loads for a particular building.
	T-W-10	The climate responsive building design strategies and their barriers such as: the innovative character and the lack of dedicated knowledge on the synthesis of design, building performance and implementation in the design process.
	T-W-11	The strategies that address to reducing energy consumption and providing a comfortable and healthy environment during the Climate change era (retrieving renewable energy resources.
	T-W-12	Air and water pollutions a worldwide problem - research review into an air and water purification in big cities.
	T-W-13	The global climate change - disasters and hazards - infrastructures to harvester plants reduce disaster’s impact to cities - designs form mobility.
	T-W-14	The global climate change - rainwater harvester issues - infrastructures to collect rainwater in a big cities and agriculture water problems.
	T-W-15	The global climate change - food security - infrastructures to an agricultural production in a big cities - vertical farming.
	T-P-1	The task is to design an environmental structure to an air purification in highly- urbanized area with use TiO2; public use object in a municipaliity with an attractive busy city landscape, e.g. the city of Szczecin.
Metody nauczania	M-1	Lectures with Power Point presentations by the subject leader. Additionally, the discussion with the current thinking on solutions to problems in air, water, and land contamination and waste disposal, with coverage of climate change, environmental risk assessment and management, green technologies, sustainability, and environmental policy.
Metody nauczania	M-2	The central teaching strategy associated with the design process is regular, tutor-led, design tutorials in which each student or team present ongoing projects work, discuss and evaluate these results.
Sposób oceny	S-2	Ocena podsumowująca: Execution of design project
Sposób oceny	S-1	Ocena podsumowująca: Exam
Kryteria oceny	Ocena	Kryterium oceny
	2,0
	3,0	The student is poor in demonstration of an ability to evaluate and critically assess specific Sustainable Design and Environmental Engineering design outcomes.
	3,5
	4,0
	4,5
	5,0

Pole	KOD	Znaczenie kodu
Zamierzone efekty uczenia się	B-A_2A_ICM/D/11-2_K01	The student is poor in demonstration of an ability to evaluate and critically assess specific Sustainable Design and Environmental Engineering design outcomes.
Odniesienie do efektów kształcenia dla kierunku studiów	B-A_2A_K03	Is aware of their importance and understands non-technical aspects and consequences of engineering activity, including its influence on the environment and the related responsibility for the decisions taken.
Cel przedmiotu	C-1	The aim of the course is exploring innovative solutions to problems in air, water, and land contamination and waste disposal, with coverage of climate change, environmental risk assessment and management, green technologies, sustainability, and environmental policy. This multidisciplinary field is requiring an integration of physical, chemical and biological principles with engineering analysis for environmental protection and restoration.
Cel przedmiotu	C-2	The multidisciplinary approach in Environmental Engineering gives the student expertise in technical fields related to their own personal interest. The main mission of this course is to build the designers own interpretation and implementation of environmental systems thinking.
Treści programowe	T-W-5	What is the intention of environmental engineering - exploring innovative solutions to problems in air, water, and land contamination and waste disposal, with coverage of climate change, environmental risk assessment and management, green technologies, sustainability, and environmental policy.
	T-W-1	What is the intention of sustainable design - how to "eliminate negative environmental impact completely through skillful sensitive design" - the basic principles.
	T-W-2	The Philosophy of Sustainable Design - designing for the Environment - the sustainable buildings and the environmentally-friendly architecture.
	T-W-3	Energy aspects in sustainable design - renewable energy sources.
	T-W-4	The multi-criteria evaluation of design solutions using specialized computer programs in the process of sustainable design. The building information modeling (BIM) as a means of increasing total project quality, providing accurate quantity take-offs, and improving scheduling, consequently diminishing total project contingencies and costs.
	T-W-6	The climate change oriented design defined as an adjustment of conditions compatible with changeable climate characteristics and ecology- methods and practice - case study.
	T-W-7	The low-carbon building - different approaches to assessing the criteria of what constitutes a low-carbon building.
	T-W-8	An experimental and CFD investigation into the mixing in a closed system to reduce wind loads for a particular building.
	T-W-9	The Climate responsive building envelopes - an attempt to understand and quantify the effect of different parameters like building materials, orientation, percentage fenestrations, help the designers to try different combinations of these building parameters help the designers to try different combinations of these building parameters to reduce heat loads for a particular building.
	T-W-10	The climate responsive building design strategies and their barriers such as: the innovative character and the lack of dedicated knowledge on the synthesis of design, building performance and implementation in the design process.
	T-W-11	The strategies that address to reducing energy consumption and providing a comfortable and healthy environment during the Climate change era (retrieving renewable energy resources.
	T-W-12	Air and water pollutions a worldwide problem - research review into an air and water purification in big cities.
	T-W-13	The global climate change - disasters and hazards - infrastructures to harvester plants reduce disaster’s impact to cities - designs form mobility.
	T-W-14	The global climate change - rainwater harvester issues - infrastructures to collect rainwater in a big cities and agriculture water problems.
	T-W-15	The global climate change - food security - infrastructures to an agricultural production in a big cities - vertical farming.
	T-P-1	The task is to design an environmental structure to an air purification in highly- urbanized area with use TiO2; public use object in a municipaliity with an attractive busy city landscape, e.g. the city of Szczecin.
Metody nauczania	M-1	Lectures with Power Point presentations by the subject leader. Additionally, the discussion with the current thinking on solutions to problems in air, water, and land contamination and waste disposal, with coverage of climate change, environmental risk assessment and management, green technologies, sustainability, and environmental policy.
Metody nauczania	M-2	The central teaching strategy associated with the design process is regular, tutor-led, design tutorials in which each student or team present ongoing projects work, discuss and evaluate these results.
Sposób oceny	S-2	Ocena podsumowująca: Execution of design project
Sposób oceny	S-1	Ocena podsumowująca: Exam
Kryteria oceny	Ocena	Kryterium oceny
	2,0
	3,0	The student is poor in ability a clear demonstration of an understanding principles of the sustainability in building design and potential further application of the knowledge in practice.
	3,5
	4,0
	4,5
	5,0