ENERGY EFFICIENCY CourseCode: 8090Degree: Master's in Industrial EngineeringSchool of Engineering of ElcheYear: Year 2 of Master's in Industrial EngineeringSemester: SpringType: ElectiveLanguage: SpanishECTS credits: 6Lecture: 3Laboratory: 3Hours: 150Directed: 52Shared: 4Autonomous: 94Subject matter: ElectivesModule: ElectiveDepartment: Mechanical Engineering and EnergyArea: THERMAL MACHINES AND MOTORSCourse instructors are responsible for the course content descriptions in English.DescriptionOptimizing operations of thermal and electrical installations. Analysis of the equipment and components that make up these facilities in order to reduce their energy consumption.FacultyNameCoordinatorLectureLaboratoryVICENTE QUILES, PEDRO GINÉS■■■Professional interestThis is an elective course focusing on the student to be able to diagnose the operation of facilities and energy consuming equipment installed in industries and buildings. Focusing is performed from the point of view of addressing the energy certification of buildings and energy audits and verification protocols and measurement. The main objective is that the students have the critical skills and knowledge to propose measures aimed at reducing demand, improving efficiency and integration of renewable energies.Competencies and learning outcomesGeneral competenciesPossess appropriate knowledge about scientific and technological aspects concerning mathematical, analytical, and numerical methods in engineering, electrical engineering, energy engineering, chemical engineering, mechanical engineering, continuum mechanics, industrial electronics, automation, manufacturing, materials, quantitative management methods, industrial computing, urbanism, infrastructure, etc.Project, calculate, and design products, processes, facilities, and plants.Direct, plan, and supervise multidisciplinary teams.Conduct research, development, and innovation in products, processes, and methods.Conduct strategic planning and apply it to systems both constructive as well as production, quality, and environmental management.Technically and financially manage projects, installations, facilities, businesses, and technology centers.Be capable of exercising functions of general management, technical management and R&D project management at plants, businesses, and technology centers.Apply acquired knowledge and resolve problems in new or unfamiliar environments within broader and multidisciplinary contexts.Be able to integrate knowledge and handle the complexity of formulating judgments based on information that, whether incomplete or limited, includes reflections on social and ethical responsibilities linked to the application of their knowledge and judgments.Know how to communicate conclusions and the latest knowledge and rationale that sustain them to specialized and non-specialized audiences in a clear and unambiguous manner.Possess learning skills that allow for further study in a self-directed or autonomous manner.Knowledge, understanding, and the ability to apply the necessary legislation in the professional practice of industrial engineering.Objectives (Learning outcomes)To know the main energy indicators used for assessing the energy efficiency of equipment and facilitiesTo Calculate the various parameters to be considered for the evaluation of the energy demand of buildings and facilitiesTo know the different efficient systems for heating and cooling productionDetermine the instantaneous efficiency and estimate the seasonal average efficiency of heating and cooling equipmentTo know the different possibilities to use renewable energy in industry and buildingsTo know the different systems of cold and heat production from renewable energy sourcesTo know the different efficient systems for fluid transportTo operate the instrumentation used in performing energy audits in buildings and industriesTo learn the methodology to perform energy audits in buildings and industriesTo know the methodologies employed in the Verification and Measurement Protocols, employed to estimate energy savingsTo perform the energy rating of buildingsContentsLecture topicsTeaching unitsIntroductionEnergy DemandEnergy efficiency of equipment and systemsImplementation and integration of renewable energiesEnergy AuditsEnergy efficiency in the movement of fluidsCourse contentsBasic bibliographyRey Martínez, Francisco javier. Velasco Gómez, Eloy. "Eficiencia energética en edificios certificación y auditorías energéticas". Madrid Paraninfo D.L. 2010.Aranda Uson, Alfonso / Zabalza Bribian, Ignacio / Barrio Moreno, Francisco / Diaz de Garaio, Sergio. "Técnicas para la elaboracion de auditorias energeticas en el sector industrial eficiencia energetica". Zaragoza Prensas Universitarias de Zaragoza 2010. Complementary bibliographyChadderton, David V. García Gándara, Manuel tr. / Madrid Vicente, Antonio tr. / Madrid Cenzano, Ana tr. "Manual práctico del aire acondicionado (frío y calor)". Madrid AMV Ediciones 2000. LinksSoftwareMethodology and gradingGradingThe evaluation of the subject will be conducted through two exams: A theoretical and practical examination to evaluate the theory and practice of the subject (60%)A practical test certification of a building (40%)A minimum grade required by 4 out of 10 on each test for averagingCorrection criteriaAll exercises have the same score.Exercises have sub-paragraphs for more detailed breakdown.The work will be done totally or partially in the computer room and will be evaluated in the computer room.Additional requirementsNo applicable