aar 4817 zeb design theory - ntnu
TRANSCRIPT
AAR 4817 + AAR4546 ZEB Design + TheorySpring 2014
Assoc. Professor Aoife Houlihan Wiberg RIBA Professor II Per Monsen MNAL
Illustration: Snøhetta AS/MIR
COURSE LOGISTICSMax. number of students: 10 MSC + 12 other students
Required previous knowledgeCompleted three years basic courses in architecture, engineering or urban planning; bachelor in architecture,engineering or urban planning; or equivalent
Course DirectorAssoc. Professor Aoife Houlihan Wiberg RIBA (AAR4817 + AAR 4546)Professor II Per Monsen MNAL (AAR 4546)
Teaching TeamAssoc. Professor Aoife Houlihan WibergProfessor II Per Monsen MNALAssoc. Professor Luca FinochiarroAssoc. Professor Mathias HaaseProfessor Anne Grete Hestnes* (TBC)Invited Guest Lecturers, Practitioners, Others.
Task 1a Case Study A –Norway’s first Plus Energy Office Building
PowerHouse 1
PowerHouse 1 is an office building in early design phase.Location: Trondheim, NorwaySize: 15,000 m2 gross areaBuilder: Entra EiendomArchitect: SnøhettaZEB‐partners : Skanska, Snøhetta, Hydro, MulticonsultLevel of ambition: ZEB‐O&M EQ
Illustration: Snøhetta AS/MIR
Task 1b Case Study BNorway’s first Plus Energy Renovation Office Building
PowerHouse 2
Illustration: Snøhetta/MIR
PowerHouse 2 is arenovation of an existing office building to Plus Energy StandardLocation: Sandvika, Oslo, NorwaySize: Two block buildings with total 2,500 m2 gross areaBuilder: Entra EiendomArchitect: SnøhettaZEB‐partners: Skanska, Snøhetta, Hydro, Zero
http://www.youtube.com/watch?v=lJt6ncoAbKU
AAR 4546 ZEB DesignDesign of Zero Emissions Buildings
Course Director: Assoc. Professor Aoife Houlihan Wiberg+ Mr. Per Monsen MNAL
The design tasks will involve two parts, Task 1 + 2.
Task 1 will involve a critical case study analysis of two on-going ZEB Pilot projects; • Task 1a Powerhouse 1
(New build, Plus Energy Office building) • Task 1b Powerhouse 2
(Renovation, Plus Energy Office Building)
Task 2 will involve an on-going ZEB Office concept model where the students will be expected to use the model to perform/test various parametric design studies.
Learning outcomeThe students learned to design architectural projects with netzero emission ambitions, integrating strategies for energy,materials and users into high-quality architecture.
Learning methods and activitiesLectures and presentations; design studio guidance; oralproject presentations and discussions with teachers, externalprofessionals and classmates.
COURSE OVERVIEWThe programme consists of an integrated design project (AAR 4546 ZEB Design - 15 credits) andtheory course (AAR 4817 ZEB Theory - 7.5 credits) spread over one semester.
AAR 4817 ZEB TheoryZero Emissions Design Theory
Course Director: Assoc. Professor Aoife Houlihan Wiberg
The objective of this theory course is to introduce specificaspects of ZEB theory and modeling tasks to examine itspractical application to the parallel design project (AAR4546).
Learning outcomeThere are many challenges facing the design of buildings with(net) zero emissions and the objective of this course is toevaluate if current methods can be integrated to meet thesedesign challenges.
Learning methods and activitiesThe course is a taught course based on a series of weeklyhalf day (lecture/workshop/feedback) sessions to encourageinteraction, discussion and to encourage a group atmosphere.Each lecture/workshops focuses on specific design issuesrelevant to achieving ZEB in the parallel design course.
XX
Vacuum Insulation Panel (VIP)Mineral Wool Insulation
Early Phase Feedback on design choices for:
• Building Envelope
• Renewable Energy Systems
• Mechanical & VentilationSystems
Nanomaterials/Aerogel Panel
(Translucent insulation)
ZEB Conceptual Design
(BIM/REVIT)
Emissions
(Excel/SIMAPRO Ecoinvent)
e.g. Scenario 1: Impact on emissions of different insulation solutions for envelope
* Not actual results
Aoi
fe H
oulih
an W
iber
g
REVIT BIM
Length, area and volume of different materials and components areexported. Length, area and volume of different materials and componentsare exported from the BIM/REVIT model to excel in 2 steps. theBIM/REVIT model to excel in 2 steps
Overview of the Emissions Calculation Method
Step 1
SIMAPRO LCA software
Ecoinvent Database
Overview of the Emissions Calculation Method
Quantities (Kg Materials) x Emission factors (kgCO2eq/kg) = CO2 Emissions (kgCO2eq)
Materials Inventory(Quantities)
Excel calculations
SEM
ESTE
RPL
AN
(TB
C)A
AR
4817
ZEB
Theo
ry+
AA
R45
46ZE
BD
esig
nCourse Title AAR 4817 AAR 4546
Aoife Houlihan Wiberg Aoife Houlihan Wiberg + Per Monsen
Course OutputZEB Theory Report:
Compilation of Modelling Tasks from lectures workshops
ZEB Design Project (+ Oral Presentation)
Dates Week Monday Tuesday Wednesday Thursday Friday
03.02.2013 6
10.02.2013 7
17.02.2013 8
24.02.2013 9AAR 4817
ZEB WRITTEN REPORT PRESENTATION 1
AAR 4546 TASK 1 CASE STUDY
PRESENTATION 1
03.03.2013 10
10.03.2013 11
17.03.2013 12
24.03.2013 13
31.03.2013 14
07.04.2013 15AAR 4817
ZEB WRITTEN REPORT PRESENTATION 2
AAR 4546 TASK 2 SHOEBOX MODEL
PRESENTATION 2
14.04.2013 16
21.04.2013 17
28.04.2013 18
05.05.2013 20
12.05.2013 21AAR 4817
ZEB Theory Report FINAL SUBMISSION
AAR4546 ZEB Design Pin-UP Final Submission
AAR4546 ZEB Design FINAL PRESENTATION 3
19.05.2013 22 AAR4546 ZEB Written Report Final SUBMISSION
26.05.2013 23
02.06.2013 24AAR 4817
ZEB Theory Report FINAL GRADE
09.06.2013 25 AAR4546 ZEB Written Report FINAL GRADE
Responsible Person
LEC
TUR
ES +
W
OR
KSH
OPS
LEC
TUR
ES +
W
OR
KSH
OPS
STU
DIO
GU
IDA
NC
EST
UD
IO G
UID
AN
CE
STU
DIO
GU
IDA
NC
E
LEC
TUR
ES +
W
OR
KSH
OPS
27.01.2013 5
Høst FerieHøst FerieHøst Ferie
EasterEasterEaster