Location:
Lecture, 13:00 – 15:00 Building 116 82
Exercises, 15:00 – 17:00 Building 116: Data-bar 048+053
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Date
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No.
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Lecture (13:00-15:00)
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Exercise (15:00-17:00)
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Teacher
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standard
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Literature
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31/01
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1
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Introduction to course. Sustainability, primary energy, CO2 emission and energy certificates
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Primary energy and energy certificates
Formation of groups to work on assignment
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JIF
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EN 15217, EN 15603
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07/02
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2
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Basic principles of embedded radiant heating and cooling systems 1. Description of system type. Design Criteria
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Exercises – thermal indoor environment
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BWO
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16798-1
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1
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14/02
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3
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Domestic hot water 1
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Exercises –DHW distribution
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JIF
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EN 15316-3.1
EN 15316-3.2
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[2]
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21/02
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4
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Domestic hot water 2
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Exercise-DHW production
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JIF
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EN 15316-3.3
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[2]
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28/02
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5
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Heat generation system-Thermal solar system
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Thermal performance of Solar heating system
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JIF
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EN 15316-4.3
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07/03
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6
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Heating and cooling load calculations
Introduction to building performance simulation
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Building simulations-
Exercise 1- preparing the model for dynamic simulation.
Exercise 2 - load calculations.
Calculation of energy demand (heating, cooling, ventilation)
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ONKA
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EN 12831
EN ISO 13790
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chp.10
[4]
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14/03
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7
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Heat emission and distribution system (water based and air based)
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Demonstration of and exercises with HEAT2
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ONKA
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EN 15316-2.1
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21/03
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8
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Basic principles of embedded radiant heating and cooling systems 2. Calculation of heating-cooling capacity
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Introduction to Assignment
Calculation of heating-cooling capacity
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ONKA
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EN 15377
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[1] chp.1-4, lecture notes
[4]
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28/03
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9
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Controls, installations, examples.
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Work on simulation assignment
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BWO
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Controls, installations, examples.
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Work on simulation assignment
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04/04
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10
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Vapour compression refrigeration cycle and heat-pump
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Exercise- COP and energy demand
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FL
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EN 15316-4.2
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11/04
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Easter holiday
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18/04
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11
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Thermal storage, ground heat exchangers
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Work on simulation assignment
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BWO
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Thermal storage, ground heat exchangers
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Work on simulation assignment
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25/04
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12
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Absorption refrigeration and desiccant/evaporative cooling
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Exercise- COP and energy demand
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FL
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EN 15316-4.2
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Absorption refrigeration and desiccant/evaporative cooling
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02/05
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13
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Guest lecture: Engineering solutions to modern architecture
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Presentations simulation task, Submission of assignment
Course evaluation
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Peter Simmonds
ONKA
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[1] chp. 9
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23/05
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Exam
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Note: A question and answer session on the exam will be arranged in the middle of May.
Teachers:
JIF Jianhua Fan, Building 119 / Room 113,
jif@byg.dtu.dk (Course Responsible)
FL Lei Fang, Building 402 / Room 226,
fl@byg.dtu.dk (Course Responsible)
BWO Bjarne W. Olesen, Building 402 / Room 210,
bwo@byg.dtu.dk
ONKA Ongun Berk Kazanci, Building 402 / Room 232,
onka@byg.dtu.dk
Guest Peter Simmonds
Assistant teacher:
Literature:
[1] REHVA-Guide (Low temperature heating - High temperature cooling) no. 7 (100 kr., building 402 room 230).
[2] System for Domestic Hot Water Services, Jianhua Fan
[3] Wilbert F. Stoecker and Jerold W. Jones, Refrigeration & air conditioning, McGRAW-HILL Book Company, 1982.
[4] IDA –Indoor Climate and Energy, Getting started, Version 4.5, EQUA Simulation AB, Solna, Sveden
Exam: 4 h written exam All aids are allowed.
Exercises
After the lectures, there will be exercises.