Tiziano ZARRA | ENERGY AND ENVIRONMENTAL SUSTAINABILITY

cod. 0622500029

ENERGY AND ENVIRONMENTAL SUSTAINABILITY

	0622500029
	DEPARTMENT OF CIVIL ENGINEERING
	EQF7
	ENVIRONMENTAL AND TERRITORIAL ENGINEERING
	2021/2022

PERCORSO COMUNE

	YEAR OF COURSE 2
	YEAR OF DIDACTIC SYSTEM 2017
	SPRING SEMESTER

TEACHING UNITS

	SSD	CFU	HOURS	ACTIVITY	TYPE OF ACTIVITY
	ICAR/03	6	60	LESSONS	OPTIONAL SUBJECTS

	Objectives
	EXPECTED LEARNING OUTCOMES AND SKILLS TO BE ACQUIRED. ACQUIRE THE THEORETICAL, TECHNICAL AND REGULATORY NOTIONS IN THE FOLLOWING TOPICS: 1) CLIMATE CHANGE - DESIGNING THINKING ABOUT THE EFFECTS ON THE CLIMATE; 2) ALTERNATIVE AND RENEWABLE ENERGIES; 3) CERTIFICATION OF ENERGY AND ENVIRONMENTAL SUSTAINABILITY (APE, LEED, ITACA); 4) ENVIRONMENTAL MANAGEMENT SYSTEMS (ISO 14001 AND EMAS STANDARDS); 5) ASSESSMENT OF THE ENVIRONMENTAL IMPACT OF ENERGY PRODUCTION PLANTS. KNOWLEDGE AND UNDERSTANDING. KNOW THE CONCEPTS OF ENERGY AND ENVIRONMENTAL SUSTAINABILITY (LEGISLATION, ENERGY, PRESSURES, IMPACTS, CLIMATE) AND THE CHARACTERIZATION AND EVALUATION OF ENVIRONMENTAL COMPARTMENTS. KNOWING HOW TO BE MULTIDISCIPLINARY THROUGH A HOLISTIC APPROACH TO THE PROBLEM. ABILITY TO APPLY KNOWLEDGE AND UNDERSTANDING. ACQUIRE THE KNOWLEDGE NECESSARY TO MEASURE THE ENERGY AND ENVIRONMENTAL PERFORMANCE OF CIVIL ENGINEERING WORKS, TO MANAGE ALTERNATIVE AND RENEWABLE ENERGIES, TO ENERGY AND ENVIRONMENTAL CERTIFICATION, TO DRAFT THE INITIAL ENVIRONMENTAL ANALYSIS, TO CARRY OUT INTERNAL AUDIT ACTIVITIES AND TO DEVELOP THE MANAGEMENT PROCEDURES, OPERATING INSTRUCTIONS, ENVIRONMENTAL MANAGEMENT SYSTEM MANUAL, ENVIRONMENTAL POLICY, SYSTEM REGISTERS AND OPERATING MODULES. JUDGMENT AUTONOMY. BE ABLE TO ANALYZE THE PROCESSES OF AN ORGANIZATION AND/OR A PROJECT FROM AN ENERGY AND ENVIRONMENTAL POINT OF VIEW IN ORDER TO IDENTIFY AND EVALUATE SIGNIFICANT ENVIRONMENTAL ASPECTS AND THEIR IMPACTS, ADOPTING THE MOST APPROPRIATE METHODS.

EXPECTED LEARNING OUTCOMES AND SKILLS TO BE ACQUIRED.
ACQUIRE THE THEORETICAL, TECHNICAL AND REGULATORY NOTIONS IN THE FOLLOWING TOPICS: 1) CLIMATE CHANGE - DESIGNING THINKING ABOUT THE EFFECTS ON THE CLIMATE; 2) ALTERNATIVE AND RENEWABLE ENERGIES; 3) CERTIFICATION OF ENERGY AND ENVIRONMENTAL SUSTAINABILITY (APE, LEED, ITACA); 4) ENVIRONMENTAL MANAGEMENT SYSTEMS (ISO 14001 AND EMAS STANDARDS); 5) ASSESSMENT OF THE ENVIRONMENTAL IMPACT OF ENERGY PRODUCTION PLANTS.
KNOWLEDGE AND UNDERSTANDING.
KNOW THE CONCEPTS OF ENERGY AND ENVIRONMENTAL SUSTAINABILITY (LEGISLATION, ENERGY, PRESSURES, IMPACTS, CLIMATE) AND THE CHARACTERIZATION AND EVALUATION OF ENVIRONMENTAL COMPARTMENTS. KNOWING HOW TO BE MULTIDISCIPLINARY THROUGH A HOLISTIC APPROACH TO THE PROBLEM.
ABILITY TO APPLY KNOWLEDGE AND UNDERSTANDING.
ACQUIRE THE KNOWLEDGE NECESSARY TO MEASURE THE ENERGY AND ENVIRONMENTAL PERFORMANCE OF CIVIL ENGINEERING WORKS, TO MANAGE ALTERNATIVE AND RENEWABLE ENERGIES, TO ENERGY AND ENVIRONMENTAL CERTIFICATION, TO DRAFT THE INITIAL ENVIRONMENTAL ANALYSIS, TO CARRY OUT INTERNAL AUDIT ACTIVITIES AND TO DEVELOP THE MANAGEMENT PROCEDURES, OPERATING INSTRUCTIONS, ENVIRONMENTAL MANAGEMENT SYSTEM MANUAL, ENVIRONMENTAL POLICY, SYSTEM REGISTERS AND OPERATING MODULES.
JUDGMENT AUTONOMY.
BE ABLE TO ANALYZE THE PROCESSES OF AN ORGANIZATION AND/OR A PROJECT FROM AN ENERGY AND ENVIRONMENTAL POINT OF VIEW IN ORDER TO IDENTIFY AND EVALUATE SIGNIFICANT ENVIRONMENTAL ASPECTS AND THEIR IMPACTS, ADOPTING THE MOST APPROPRIATE METHODS.

	Prerequisites
	THE EXAM DOES NOT REQUIRE PREREQUISITES. IN ORDER TO ACHIEVE THE ABOVE-MENTIONED GOALS, KNOWLEDGE ABOUT THE ENVIRONMENTAL PHENOMENA IS SUGGESTED.

	Contents
	MAIN TOPICS OF THE COURSE LESSONS: SUSTAINABILITY AND CLIMATE CHANGE (15 HOURS): INTRODUCTION TO SUSTAINABILITY: ORIGIN AND EVOLUTION. THE 3S: SOCIAL, ENVIRONMENTAL AND ECONOMIC. SUSTAINABLE DEVELOPMENT: CONCEPT AND OBJECTIVES. THE ROLE OF ENERGY. CLIMATE AND SUSTAINABLE DEVELOPMENT. INTERNATIONAL PROTOCOLS ON THE SUBJECT, FROM KYOTO TO PARIS. CLIMATE CHANGE: INTRODUCTION TO CLIMATE CHANGE. CARBON FOOTPRINT. THE ROLE OF CARBON DIOXIDE. THE EMISSIONS OF GREENHOUSE GASES. WATER ENERGY NEXUS. EFFECTS ON ENVIRONMENTAL QUALITY: ACID RAISES, EFFECTS ON ATMOSPHERE, EFFECTS ON BUILDING AND HISTORICAL AND ARCHITECTURAL HERITAGE. ALTERNATIVE AND ENVIRONMENTAL ENERGIES (15 HOURS): INTRODUCTION TO THE ENERGY SYSTEM AND LINKS WITH THE ENVIRONMENT. MAIN FORMS ENERGY. INTERNATIONAL, EUROPEAN AND NATIONAL REGULATORY FRAMEWORK ON ENERGY. CLASSIFICATION OF THE SOURCES OF ENERGY. CONVENTIONAL AND ALTERNATIVE ENERGY SOURCES. RENEWABLE ENERGIES. ANALYSIS OF THE ENERGY AND ENVIRONMENTAL SUSTAINABILITY OF THE MAIN TECHNOLOGIES FOR THE PRODUCTION OF ENERGY: HYDROELECTRIC, THE EOLIAN, THE SOLAR THERMAL, THE SOLAR PHOTOVOLTAIC, ENERGY FROM BIOMASS, THE GEOTHERMAL AND THE MARINE. ENERGY FROM NON-RENEWABLE SOURCES: FOSSIL AND NUCLEAR FUELS. ENERGY AND ENVIRONMENTAL CERTIFICATION (15 HOURS): REFERENCE STANDARD ELEMENTS. TECHNICAL-ADMINISTRATIVE PROCEDURE. CALCULATION AND EVALUATION TOOLS AND TECHNIQUES. ENERGY PERFORMANCE ATTESTATION (APE). THE CERTIFICATION OF SUSTAINABILITY A & E: THE LEED SYSTEM AND THE ITACA PROTOCOL. MEASURE THE ENERGY AND ENVIRONMENTAL PERFORMANCE OF CIVIL ENGINEERING PROJECTS. DESIGN BUILDINGS WITH HIGH ENERGY AND ENVIRONMENTAL SUSTAINABILITY. CASES STUDY ENVIRONMENTAL MANAGEMENT SYSTEMS (EMS) (15 HOURS): DEMING CYCLE. INITIAL ENVIRONMENTAL ANALYSIS. THE STANDARDS OF THE ISO 14000 SERIES. THE UNI EN ISO 14001. DOCUMENTATION OF THE MANAGEMENT SYSTEM. EMAS REGISTRATION. THE PROACTIVE APPROACH. CASES STUDY ENVIRONMENTAL IMPACT ASSESSMENT OF ENERGY PRODUCTION PLANTS

Contents

MAIN TOPICS OF THE COURSE LESSONS:

SUSTAINABILITY AND CLIMATE CHANGE (15 HOURS):
INTRODUCTION TO SUSTAINABILITY: ORIGIN AND EVOLUTION. THE 3S: SOCIAL, ENVIRONMENTAL AND ECONOMIC. SUSTAINABLE DEVELOPMENT: CONCEPT AND OBJECTIVES. THE ROLE OF ENERGY. CLIMATE AND SUSTAINABLE DEVELOPMENT. INTERNATIONAL PROTOCOLS ON THE SUBJECT, FROM KYOTO TO PARIS.
CLIMATE CHANGE: INTRODUCTION TO CLIMATE CHANGE. CARBON FOOTPRINT. THE ROLE OF CARBON DIOXIDE. THE EMISSIONS OF GREENHOUSE GASES. WATER ENERGY NEXUS. EFFECTS ON ENVIRONMENTAL QUALITY: ACID RAISES, EFFECTS ON ATMOSPHERE, EFFECTS ON BUILDING AND HISTORICAL AND ARCHITECTURAL HERITAGE.

ALTERNATIVE AND ENVIRONMENTAL ENERGIES (15 HOURS):
INTRODUCTION TO THE ENERGY SYSTEM AND LINKS WITH THE ENVIRONMENT. MAIN FORMS ENERGY. INTERNATIONAL, EUROPEAN AND NATIONAL REGULATORY FRAMEWORK ON ENERGY. CLASSIFICATION OF THE SOURCES OF ENERGY. CONVENTIONAL AND ALTERNATIVE ENERGY SOURCES. RENEWABLE ENERGIES. ANALYSIS OF THE ENERGY AND ENVIRONMENTAL SUSTAINABILITY OF THE MAIN TECHNOLOGIES FOR THE PRODUCTION OF ENERGY: HYDROELECTRIC, THE EOLIAN, THE SOLAR THERMAL, THE SOLAR PHOTOVOLTAIC, ENERGY FROM BIOMASS, THE GEOTHERMAL AND THE MARINE. ENERGY FROM NON-RENEWABLE SOURCES: FOSSIL AND NUCLEAR FUELS.

ENERGY AND ENVIRONMENTAL CERTIFICATION (15 HOURS):
REFERENCE STANDARD ELEMENTS. TECHNICAL-ADMINISTRATIVE PROCEDURE. CALCULATION AND EVALUATION TOOLS AND TECHNIQUES. ENERGY PERFORMANCE ATTESTATION (APE). THE CERTIFICATION OF SUSTAINABILITY A & E: THE LEED SYSTEM AND THE ITACA PROTOCOL. MEASURE THE ENERGY AND ENVIRONMENTAL PERFORMANCE OF CIVIL ENGINEERING PROJECTS. DESIGN BUILDINGS WITH HIGH ENERGY AND ENVIRONMENTAL SUSTAINABILITY. CASES STUDY

ENVIRONMENTAL MANAGEMENT SYSTEMS (EMS) (15 HOURS):
DEMING CYCLE. INITIAL ENVIRONMENTAL ANALYSIS. THE STANDARDS OF THE ISO 14000 SERIES. THE UNI EN ISO 14001. DOCUMENTATION OF THE MANAGEMENT SYSTEM. EMAS REGISTRATION. THE PROACTIVE APPROACH. CASES STUDY

ENVIRONMENTAL IMPACT ASSESSMENT OF ENERGY PRODUCTION PLANTS

	Teaching Methods
	TEACHING PROVIDES LECTURE LESSONS (40 HOURS / 4 CFU) AND EXERCISES IN THE CLASSROOM (20 HOURS / 2 CFU). IN THE COURSE OF THE LECTURES THE STUDENTS ARE INVOLVED IN THE REASONS AND DISCUSSIONS PROPOSED WITH THE OBJECTIVE TO STIMULATE THEY ACTIVE PARTICIPATION IN THE LESSON. IN THE CLASSROOM EXERCISES, THEORETICAL ACTIVITY PRESENTED DURING THE COURSE ARE ILLUSTRATED AND DEVELOPED. THE FREQUENCY OF THE LESSONS DONT ARE REQUIRED IN ORDER TO ACCESS TO THE EXAM.

Teaching Methods

TEACHING PROVIDES LECTURE LESSONS (40 HOURS / 4 CFU) AND EXERCISES IN THE CLASSROOM (20 HOURS / 2 CFU). IN THE COURSE OF THE LECTURES THE STUDENTS ARE INVOLVED IN THE REASONS AND DISCUSSIONS PROPOSED WITH THE OBJECTIVE TO STIMULATE THEY ACTIVE PARTICIPATION IN THE LESSON. IN THE CLASSROOM EXERCISES, THEORETICAL ACTIVITY PRESENTED DURING THE COURSE ARE ILLUSTRATED AND DEVELOPED. THE FREQUENCY OF THE LESSONS DONT ARE REQUIRED IN ORDER TO ACCESS TO THE EXAM.

	Verification of learning
	THE VERIFICATION OF LEARNING IS ASSESSED THROUGH AN ORAL EXAM WITH THE OBJECTIVE TO ACHIEVE THE EFFECTIVE ACHIEVEMENT OF THE STUDENT OF THE PREPARED FORMATION OBJECTIVES. THE ORAL EXAMINATION INCLUDES THEORICAL, TECHNICAL AND APPLICATION QUESTIONS IN THE COURSE'S TOPICS. PROPOSITION, DISCUSSION AND PERFORMANCE OF REAL EXAMPLES WILL BE USED FOR THE VERIFICATION OF COMPREHENSIVE, COMMUNICATION AND KNOWLEDGE SKILLS. AT LEAST 3 QUESTIONS ABOUT THE DIFFERENT THEMES OF THE COURSE WILL BE FORMULATED. THE FINAL EVALUATION WILL BE EXPRESSED IN THIRTY. THE MINIMUM EVALUATION LEVEL (18) IS ATTRIBUTED WHEN THE STUDENT HAS A SUFFICIENT KNOWLEDGE OF THEORETICAL, TECHNICAL, STANDARD INSTRUMENTS AND SHOWS A LIMITED CAPACITY TO USE THE STUDY CONTEXT. THE MAXIMUM LEVEL (30) IS ATTRIBUTED WHEN THE STUDENT DEMONSTRATES EXCELLENT AND DEEPENED KNOWLEDGE OF THE METHODOLOGIES AND OF THE INSTRUMENTS AND HAS A NOTABLE CAPACITY TO USE THE STUDY CONTEXT. THE LODE IS ATTRIBUTED WHEN THE CANDIDATE SHOWS AN EXCELLENT MASTERY OF THE EMETODOLOGIES AND THE INSTRUMENTS AND EXHIBITION OF LANGUAGE MASTERPIECE AND AUTONOMOUS PROCESSING CAPACITY ALSO IN CONTEXTS DIFFERENT FROM THOSE PROPOSED BY THE TEACHER

Verification of learning

THE VERIFICATION OF LEARNING IS ASSESSED THROUGH AN ORAL EXAM WITH THE OBJECTIVE TO ACHIEVE THE EFFECTIVE ACHIEVEMENT OF THE STUDENT OF THE PREPARED FORMATION OBJECTIVES. THE ORAL EXAMINATION INCLUDES THEORICAL, TECHNICAL AND APPLICATION QUESTIONS IN THE COURSE'S TOPICS. PROPOSITION, DISCUSSION AND PERFORMANCE OF REAL EXAMPLES WILL BE USED FOR THE VERIFICATION OF COMPREHENSIVE, COMMUNICATION AND KNOWLEDGE SKILLS.
AT LEAST 3 QUESTIONS ABOUT THE DIFFERENT THEMES OF THE COURSE WILL BE FORMULATED.
THE FINAL EVALUATION WILL BE EXPRESSED IN THIRTY.
THE MINIMUM EVALUATION LEVEL (18) IS ATTRIBUTED WHEN THE STUDENT HAS A SUFFICIENT KNOWLEDGE OF THEORETICAL, TECHNICAL, STANDARD INSTRUMENTS AND SHOWS A LIMITED CAPACITY TO USE THE STUDY CONTEXT.
THE MAXIMUM LEVEL (30) IS ATTRIBUTED WHEN THE STUDENT DEMONSTRATES EXCELLENT AND DEEPENED KNOWLEDGE OF THE METHODOLOGIES AND OF THE INSTRUMENTS AND HAS A NOTABLE CAPACITY TO USE THE STUDY CONTEXT.
THE LODE IS ATTRIBUTED WHEN THE CANDIDATE SHOWS AN EXCELLENT MASTERY OF THE EMETODOLOGIES AND THE INSTRUMENTS AND EXHIBITION OF LANGUAGE MASTERPIECE AND AUTONOMOUS PROCESSING CAPACITY ALSO IN CONTEXTS DIFFERENT FROM THOSE PROPOSED BY THE TEACHER

	Texts
	DIDACTIC MATERIALS AND DISPENSES OF THE COURSE ARE AVAILABLE ONLINE TO ALL STUDENTS REGULAR PRE-REGISTERED ON THE SPECIFIC PORTAL. THE REGISTRATION METHODS ARE PROVIDED AND AVAILABLE AT EVERY MOMENT THROUGH SENDING OF AN REQUEST PER EMAIL TO THE TEACHER OF THE COURSE. G. BONALDI, C. PATRIGNANI (2010). ENERGIE ALTERNATIVE E RINNOVABILI. ISBN8821733165. IPSOA. F. FANTOZZI, G. SCATIZZI, F. VENTURELLI (2017).LA CERTIFICAZIONE ENERGETICA E AMBIENTALE LEED. GUIDA AI PRINCIPI. ISBN 882038034X. HOEPLI. UNI/PDR 13.0:2015. SOSTENIBILITÀ AMBIENTALE NELLE COSTRUZIONI - STRUMENTI OPERATIVI PER LA VALUTAZIONE DELLA SOSTENIBILITÀ INQUADRAMENTO GENERALE E PRINCIPI METODOLOGICI. PROTOCOLLO ITACA: HTTP://WWW.ITACA.ORG UNI EN ISO 14001:2015 "SISTEMI DI GESTIONE AMBIENTALE - REQUISITI E GUIDA PER L'USO" M. MACCARELLI (2017). REGOLAMENTO EMAS TESTO CONSOLIDATO 2017. ISBN 9788898550739. CERTIFICO SRL

Texts

DIDACTIC MATERIALS AND DISPENSES OF THE COURSE ARE AVAILABLE ONLINE TO ALL STUDENTS REGULAR PRE-REGISTERED ON THE SPECIFIC PORTAL. THE REGISTRATION METHODS ARE PROVIDED AND AVAILABLE AT EVERY MOMENT THROUGH SENDING OF AN REQUEST PER EMAIL TO THE TEACHER OF THE COURSE.

G. BONALDI, C. PATRIGNANI (2010). ENERGIE ALTERNATIVE E RINNOVABILI. ISBN8821733165. IPSOA.

F. FANTOZZI, G. SCATIZZI, F. VENTURELLI (2017).LA CERTIFICAZIONE ENERGETICA E AMBIENTALE LEED. GUIDA AI PRINCIPI. ISBN 882038034X. HOEPLI.

UNI/PDR 13.0:2015. SOSTENIBILITÀ AMBIENTALE NELLE COSTRUZIONI - STRUMENTI OPERATIVI PER LA VALUTAZIONE DELLA SOSTENIBILITÀ

INQUADRAMENTO GENERALE E PRINCIPI METODOLOGICI. PROTOCOLLO ITACA: HTTP://WWW.ITACA.ORG

UNI EN ISO 14001:2015 "SISTEMI DI GESTIONE AMBIENTALE - REQUISITI E GUIDA PER L'USO"

M. MACCARELLI (2017). REGOLAMENTO EMAS TESTO CONSOLIDATO 2017. ISBN 9788898550739. CERTIFICO SRL

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Tiziano ZARRA | ENERGY AND ENVIRONMENTAL SUSTAINABILITY

ENERGY AND ENVIRONMENTAL SUSTAINABILITY

PERCORSO COMUNE

TEACHING UNITS

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Tiziano ZARRA | ENERGY AND ENVIRONMENTAL SUSTAINABILITY