Elizabethtown College
Syllabus
EGR 343
Green Architectural Engineering
Fall
2014
REVISED 11/26/14 (Due to Snow Storm)
REVISED 10/1/14 (mostly for EBOLA Epidemic in Africa)
REVISED 10/9/14 (for surrounding EBOLA Clinic facilities)
REVISED 10/15/14 (for emergency
worldwide response by others)
Joseph T Wunderlich PhD
Associate
Chair and Associate Professor of Engineering
Program
Coordinator for Computer Engineering Major and Architectural Studies Minor
Director of
the Design & Technology-Transfer Studio
Office:
Esbenshade 160C and E273, Department of Engineering & Physics
Office Phone: 717-361-1295
Cell:
717-368-9715
Email:
wunderjt@etown.edu
Web site: http://users.etown.edu/w/wunderjt
Office Hours and Calendar: http://users.etown.edu/w/wunderjt/schedules/CALENDAR3_f14_web.htm
Description
State-of-the-art green architectural engineering methods for
residential, commercial, and industrial real-estate development in
industrialized countries.
Green building design methods for heating, cooling, lighting, power generation
& distribution, water-management, indoor air-quality control, and noise
abatement. Green construction methods. Green building
standards including local building codes, zoning ordinances, and national and
international standards. Case studies from the simplest Amish
homes to state-of-the-art US, EU, and Asian green architectures. *Co-requisite: Physics III or permission of instructor. Fall semester,
even-numbered years. Prof. Wunderlich. Course Credit & Contact Hours: 3, 3
Times Tuesday, Thursday 11:00am -12:15pm
Objectives
1.
LEED
(Leadership in Energy and Environmental Design) standards
2.
Introduction to Architectural
Engineering thermodynamics
3.
Passive solar design for green buildings
4.
Overview of active solar design for green buildings (mostly covered
in EGR276)
5.
Passive cooling design
6.
Introduction to site engineering (mostly covered in EGR275)
7.
Introduction to Landscape Architecture
8.
Introduction to Architectural
Engineering illumination design
9.
Introduction to Architectural
Engineering HVAC (Heating Ventilating & Air Conditioning) design
10.
Abatement of environmental hazards in buildings
11.
Introduction to Architectural
Engineering acoustical design
Learning Outcomes
ABET (Accrediting Board for
Engineering and Technology) requires all engineering programs to cover:
1.
(ABET-a): An ability to apply
knowledge of mathematics, science, and engineering.
2.
(ABET-b): An ability to design and
construct experiments, as well as to analyze and interpret data.
3.
(ABET-c): An ability to design a
system, component, or process to meet desired needs.
4.
(ABET-d): An ability to function on
multi-disciplinary teams
5.
(ABET-e): Identify, formulate, and
solve engineering problems
6.
(ABET-f): An understanding of professional and ethical
responsibility
7.
(ABET-g): Communicate effectively
orally and in writing
8.
(ABET-h): A broad education
necessary to understand the impact of engineering solutions in a global and
societal context
9.
(ABET-i): A recognition of the need
for, and an ability to engage in life-long learning
10.
(ABET-j): A knowledge of
contemporary issues
11.
(ABET-k): An ability to use the
techniques, skills, and modern engineering tools necessary for engineering
practice.
This course has been determined to contribute to
these outcomes as follows (pre-2014/15 scale) with “c” sampled for ABET:
|
a |
b |
c |
d |
e |
f |
g |
h |
i |
j |
k |
|
4 |
1 |
5 |
3 |
5 |
5 |
5 |
5 |
5 |
5 |
3 |
5 = Very strong
support of ABET Program Outcome
4 = Strong
support of ABET Program Outcome
3 = Moderate support of ABET Program Outcome
2 = Weak support of ABET Program Outcome
1 = Little or no support of ABET
Program Outcome
This course has been determined to contribute to
these outcomes as follows (2014/15 scale):
|
a |
b |
c |
d |
e |
f |
g |
h |
i |
j |
K |
|
2 |
1 |
3 |
2 |
3 |
2 |
2 |
2 |
2 |
3 |
2 |
3 = Very strong support of ABET Program Outcome
Required Textbooks:
·
Norbert
Lechner, Heating, Cooling, Lighting: Sustainable
Design Methods for Architects, 2007, Wiley; 3rd edition,
November 24, 2008 (ISBN: 978047004809) available in book store (Required purchase).
·
Joan Whaley Gallup, Wellness
Centers: A Guide for the Design Professional, Wiley; 1 edition, April 26, 1999,
(ISBN: 978-0471253372) -
Excerpts distributed
·
AIA Graphics Standards (several versions) – excerpts
distributed
Other
Readings:
·
Various LEED
documentation (handed-outs and web
references)
·
“Sweets Catalog on-line”: http://sweets.construction.com/
·
Selected excerpts on related
Architectural Engineering topics (handed-outs
and web references)
Grading
2% Homework
25% Medical Health Center Design of 50 clinics in Sierra Leone
POSTER via email: October 29th 11:30pm, Talk (poster on screen): October 30th at 11:00am
25% Comprehensive Exam (November 25th, 11:00am)
10%
Elizabethtown College Wellness Center Design Poster (December 5th,
7:00am)
38% Elizabethtown College Wellness Center Design Presentation (2/3 of grade) and Paper (1/3
of grade) on (December 10th, 2:00pm) – send paper electronically
Course Grade:
(60-62)=D-, (63-67)=D, (68-69)=D+,
(70-72)=C-, (73-77)=C, (78-79)=C+, (80-82)=B-, (83-87)=B, (88-89)=B+,
(90-92)=A-, (93-100)=A
(with any fractional part rounded to the
nearest integer)
Schedule
(throughout semester):
·
LEED
(Leadership in Energy and Environmental Design)
o
U.S.
Green Building Council (USGBC)
·
International standards, conventions, and environmental laws
·
U.S. building codes
and zoning ordinances
·
Passive House Institute: http://www.passivehouse.us/passiveHouse/PHIUSHome.html
·
AIA (American Institute of Architects) standards
·
Case Studies from Italy: http://users.etown.edu/w/wunderjt/home_personal_ITALY_ALL.html
·
Case Studies from Japan: http://users.etown.edu/w/wunderjt/2013_Japan_Hawaii_California_SHORTENED.pdf
·
Net-Zero Design: http://gettingtozeroforum.org/2013/08/07/learning-and-living-zero-energy-the-education-sector-leads-the-way-2/
·
Selected new case studies as they
arise
(Week 1,2,3,4,5)
Introduction to architectural sustainable design
·
Fundamentals (including an overview of thermodynamics)
·
Human “comfort”
·
Climate
·
Overview of key architectural
sustainable design concepts
·
Selected case studies
o
Wellness Truck Design: http://users.etown.edu/w/wunderjt/To_Stakeholders.pdf
o
Other Etown Social Enterprise
Institute projects
(Week 6) Introduction to site engineering (mostly covered
in EGR276)
(Week 6,7) Introduction to landscape architecture and urban design
·
Paths, Edges, Nodes, Districts, and Landmarks in Japanese Urban
Design (Environmental Design)
·
Natural
Rain-Water Collection
(Week 7,8,9)
Solar design for green architectures and landscape architectures
·
Fundamentals
·
Passive solar design
·
Overview of Active solar design
o
Typical Photovoltiac (PV) Design (mostly covered in EGR276)
o
Non-typical PV methods
o
Non-PV methods
(Week 9,10) Architectural Passive cooling design
(Week 9,10) Architectural Passive heating design
(Week 10,11,12) Introduction to architectural engineering lighting design
·
Architectural Natural Daylighting
design
·
Introduction to illumination
engineering
(Week 13) Introduction to architectural
engineering HVAC (Heating Ventilating & Air Conditioning)
(Week 14) EXAM, Thanksgiving
(Week 15) Introduction to architectural
engineering acoustical engineering
(Week 15) Abatement of environmental hazards in buildings
Changes: This schedule
provides a guideline for expectations; minor changes may be made during the
semester
DESIGN A PRIMARY CARE MEDICAL HEALTH CENTER for
50 sites in SIERRA LEONE
with a triage tent outside
facility to Screen Ebola Patients
Group Size: EXACTLY THREE
(therefore six teams)
Due Date: POSTER via email: Wednesday, October 29th 11:30pm, Talk
( poster projected on screen): Thursday, October 30th at 11:00am
Submission Method: Hardcopy (and
everything into Digication Portfolios for all Engineering Majors)
Grading Method: Curved
Late penalty: -25% immediately, -25% for each class period after that
On Wednesday, September 24th 2014, Elizabethtown
College’s Design & Technology-Transfer Studio was visited by Benjamin
Parra, Executive Director of Healey International Relief Foundation, and Father
Peters, Head of Catholic Charities in Sierra Leone; They gave a talk on the
Ebola Epidemic in Sierra Leone, Africa; and the Design Studio was asked to
design 50 clinics ASAP. Also, Ishmeal Charles Healey, In-Country
Executive Director for Healey, was on our College campus testifying to the
US congress via a teleconference about the urgent need for US help. Healey
International (owner of Viking Yachts) and Catholic Charities are funding this
project (SEE http://hirf.net/archives/1099 ). “Engineers Without Borders” ( http://www.ewb-usa.org/
)
in Allentown ( http://www.ewb-lvp.org/get_involved.html
)
is designing infrastructure (land development), so your design starts at ten
feet from the building.
Using Revit, design a PRIMARY CARE Center for treating patients without EBOLA in Sierra Leone, and ensure that
it is appropriate for 50 Centers at locations throughout the country (i.e.,
varying climates); Screen
all patients for Ebola in a triage tent outside your facility, and redirect
them to nearby emergency ebola treatment centers if needed
1.
Learn about EBOLA from the Center for Disease Control (CDC): http://www.cdc.gov/vhf/ebola/
2.
Read news about Ebola and Sierra Leone:
a.
PBS
Frontline: http://www.pbs.org/wgbh/pages/frontline/ebola-outbreak/
b.
MOST CURRENT NEWS (up to the hour):
i.
(The Guardian):
http://www.theguardian.com/world/sierraleone
ii.
(topix):
http://www.topix.com/topstories/ebola
c.
9/27/14
News: American Doctor Exposed to Ebola in Sierra Leone Admitted to NIH http://www.nbcnews.com/storyline/ebola-virus-outbreak/american-doctor-exposed-ebola-sierra-leone-admitted-nih-n213206
d.
9/18/15
BBC News: Sierra Leone profile http://www.bbc.com/news/world-africa-14094194
3.
Learn the country of Sierra Leone:
a.
"CIA World Factbook:" https://www.cia.gov/library/publications/the-world-factbook/geos/sl.html
4.
Learn about Africa’s people, places, and buildings (including a
hospital and lumber yard) from Dr. DeGoede’s e-portfolio experiences in the
Gambia (very similar to Sierra Leone): https://etown.digication.com/degoede/Main/published
5.
Submit ELECTRONICALLY
(and put in your Digication Portfolio if you are an Engineer) a POSTER with
the following:
a.
A Revit floor plan (labeled) made from the attached floor plan
supplied by the client (without walls
shown extending out from outside walls for the purpose of dimensioning); USE THE EXACT DIMENSIONS SPECIFIED. Also show size and location of the
Ebola check-station tent outside your facility.
b.
Revit building Elevations (all four sides) – research and create
appropriate interior and exterior walls, a floor, and a roof for what can be
made in this third world country with local materials and local labor. Keep the
building only one story tall. Also
show the Ebola check-station triage tent outside your facility.
c.
A concise outline specification including a thoroughly researched
list of exact materials feasible to be used for the building foundation, walls,
roof, doors, windows, lighting (natural and artificial), ventilation (natural
and artificial), electricity generation method, plumbing, furnishings, and
medical equipment. Minimize all porous surfaces -- i.e.,
specify resilient materials and furnishing that can be easily decontaminated
d.
List materials per CSI (Construction Specifiers Institute) Masterspec
Divisions (http://www.constructionnotebook.com/ipin2/CSIDivisions.asp
):
Division 1 General Requirements
·
Building Codes not yet known
·
Assume seismic and wind loads are minimal
·
Assume all materials need to handled by
hand (i.e., no lifts or cranes)
·
USE ONLY LOCAL MATERIALS IF POSSIBLE ! -
Try to figure out where materials could be supplied from, and what can be made
on-site. For items that cannot feasibly be manufactured in Sierra Leone,
investigate materials in “Sweets Catalog”: http://sweets.construction.com/
- however you may be taking a big risk that those materials can’t be shipped to
Sierra Leone (call manufacturers to verify)
Division 2 Site Construction
·
Assume site locations, site
improvements, and location of building on each of the sites, will be determined
by others; but assume that you can pick the orientation of the building on each
of the 50 sites, and you should comment on whether or not you think buildings
should be located near local rivers, lakes, or the ocean when possible – and
how you imagine that water could, or possibly should-not be used on sites – and
how you might need to protect that water from contamination from your building.
Also,
see below “NEW
INFORMATION FOR EMERGENCY FACILITIES TO BATTLE EBOLA (10/9/14)” to
understand the facilities supporting your design (i.e.,
where you will send Ebola patients).
Division 3 Concrete
·
Assume some kind of concrete is
available and can be made on site
·
Design a finished floor that is sealed
and can be easily hosed or mopped (consider a concrete slab – not just
dirt-floor)
Division 4 Masonry
·
Assume mud-brick construction (made
on-site or nearby) or concrete blocks - assume unreinforced masonry (i.e., no
reinforcing steel)
·
Assume stone or ceramic tile available in
limited varieties
Division 5 Metals
·
Assume some steel products available
(nails, corrugated metal, angle-iron), but no large structural steel elements
Division 6 Woods and Plastics
·
Assume some kind of wood is available –
likely rough-sawn logs into timbers for post & beam type construction, and
some smaller-dimension items
Division 7 Thermal and Moisture Protection
·
Assume corrugated steel roofs over
simple wood roof structure
·
Assume simple gutters and spouts
available or can be fabricated (and collect rainwater!)
·
Assume no insulation required
Division 8 Doors and Windows
·
Keep this as simple as possible – surf
for google images of Sierra Leone, and look for simplicity in windows and
doors; windows need to be operable for ventilation
Division 9 Finishes
·
Assume some kind of plaster or
stucco-type finishes available
·
Assume stone or ceramic tile available in
limited varieties
·
Assume sealers and paints available to
coat porous surfaces
·
Assume very simple ceilings, or none at
all (i.e., open to roof structure)
Division 10 Specialties
·
Ensure maximum ventilation
Division 11 Equipment
·
Research feasible medical equipment for a third-world country – this
is very important! –
but only the basics for Primary Care
·
Don’t assume everything in a standard US medical facility is
available – i.e., keep it very simple
Division 12 Furnishings
·
Research feasible medical facility type furnishings for a
third-world country – this is very important!
·
Don’t assume everything in a standard US medical facility is
available – i.e., keep it very simple
Division 13 Special Construction
·
Research special construction for sterilization and treatment room
·
Research “Hazardous Material Remediation”
·
Research Solar and Wind Energy Equipment options, but assume only 3 KWatts of
Electricity will be able to be generated by the Photovoltaic’s (pV’s) you need
to put on the roof
Division 14 Conveying Systems
·
Assume none
Division 15 Mechanical
·
Assume need to collect water from sinks
·
Assume septic system supplied up to
building perimeter by Engineers Without Borders, but just for contaminated
water and toilets for quarantined patients
·
Need clean water (supplied up to
building perimeter by Engineers Without Borders); Supplement with rain-water
collection
·
Need hot water, so design a way to heat
it
·
Assume no Air Conditioning possible,
only ceiling fans at most
Division 16 Electrical
·
Assume no electric grid available, but
electricity is needed; and back-up power. But assume only 3 KWatts of Electricity will be able to be
generated by the Photovoltaic’s (pV’s) you need to put on the roof.
e.
Submit POSTER
electronocally, and put it in your Digication Portfolio if you are an Engineer;
And give an 8 minute long talk using your poster (projected on
screen)
Here is specifically what the clients asked for (even though we will
be giving them more):
“Here is the layout of the St. Stephan's clinic in
Sierra Leone. We would appreciate if you can have an Etown intern or
student prepare a CAD drawing with the setting of furniture, medical &
other equipment. Furniture & equipment would be similar to that of a
primary care office in the US. We would like you to design the waiting
area as a physical and/or occupational therapy area, instead of a waiting
room. We plan to build a separate structure for the waiting area, since
the clinic is located at an Amputee Village.
1.
DIMENSION OF BUILDING
Exterior- length =
27 feet (8.1meter)
Width = 25 feet
(7.5meter)
2.
ROOMS
Consultation Room
length 10 feet(3.003meter)
width 9 feet (2.7meter)
Observation Room
length 9 feet(2.7meter)
width 10 feet (3.003meter)
Sterilization Room
length 9 feet(2.7meter)
width 9 feet (2.7meter)
Waiting Room
length 13 feet(3.9meter)
width 10 feet (3.003meter)
3.
DOORS
Front door - width 5 feet(1.5meter)
Back door - width 3 feet (0.9meter)
Doors to the Rooms - width 3 feet
(0.9meter)
4.
WINDOWS - SIX IN NUMBER- DOUBLE WINDOW 2, AND SINGLE 4
Double windows - width 6 feet
6inches (1.9meter)
Single Window - width 3 feet
6inches (0.6meter)”
NEW INFORMATION FOR
EMERGENCY FACILITIES TO BATTLE EBOLA (10/9/14):
While adhering to the exact dimensions and
room functionality given to us above by our client for your PRIMARY CARE structure that you design for 50 different sites around
Sierra Leone, assume your building is located
away from, BUT IN THE VICINITY OF, the "MSF
Ebola Clinic" picture below, and that
patients will be screened for ebola in a triage tent before entering your
Primary Care Facility, then directed to the Ebola Clinic if needed.
DESIGN A WELLNESS
CENTER FOR THE ELIZABETHTOWN COLLEGE CAMPUS
Groups of three students. Project details to be defined in class.
POSTER Due December 5th, 7:00am. Late penalties apply. Use PowerPoint template supplied by
professor.
FINAL
PRESENTATION / DEFENSE: Due Wednesday
December 10th 2:00pm (same day as paper). Late penalties
apply. Use PowerPoint. It should take 8 to 10 minutes; Penalty applied if 12
minutes exceeded.
PAPER: Due date to be announced (same day as presentation). Late
penalties apply. Must be in two-column, single-spaced,
10-point font using
·
An
Abstract (one or two paragraphs)
·
An
Introduction section
·
LEED self-assessment of your project
(using an official LEED Rating form)
·
A
number of discussion and design sections
·
A
Conclusions section
·
A
bibliography (a list of citations) – call it “References.” Excessive use
of Wikipedia and non-scholarly citations will be penalized. See: http://www2.etown.edu/library/scholarlyjournals.htm
(USE LIBRARY and GOOGLE
SCHOLAR)
·
Appendices for supporting materials including:
A.
A
detailed, professionally drawn site plan
B.
Professionally
drawn elevations of all four sides of your building
C.
Professionally
drawn floor plans
D.
Building
Cross-sections and Detail-Drawings of particularly note-worthy Green
architectural features
E.
(OPTIONAL)
Manufacturer’s literature
F.
(OPTIONAL)
Professionally written construction specifications appropriate for contactors to
bid on project
Submit
poster via email to professor (or if larger than 20Meg put in your public
folder, and send professor email of where it is)
·
All engineering majors put
a copy of your poster in your Digication Portfolio (i.e., “Engineering Portfolio”)
On
presentation day, submit before you present:
1. A printed
stapled copy of your PowerPoint presentation; six slides per page
·
All engineering majors put
a copy of your group’s paper and presentation in your Digication Portfolio
(i.e., “Engineering Portfolio”)
2. A printed
stapled copy of your paper
·
All engineering majors put
a copy of your group’s paper and presentation in your Digication Portfolio
(i.e., “Engineering Portfolio”)
3. Email your
paper and presentation to me
Expectations for presentations
·
Minimize unnecessary
details
·
A picture is worth a
thousand words, and Architecture Presentations should be a visual as
possible!
·
Less
than 30 words per slide
·
Don’t
have too many slides
·
Ensure
good contrast between text and background (will the lights be on?)
·
Put
an image on every page (clip-art, photo, animation, a sketch) which is an
abstraction of the subject
·
Don’t
read from script or speak monotonically
·
Don’t
have too many (or annoying) sound effects
·
Make
eye contact with audience
·
Have
a clear objective (to sell design, to motivate, or to report findings)
·
Have
a good opener (an agenda, a
quotation, a question, or a declaration)
·
Be
organized and logical (present problem then solution; or have priorities –
least-to-most or most-to-least)
·
Have
audience’s expectations understood (provide meaning and/or motivation)
·
Have good transitions between main points
·
Have a good closing (summarize main ideas, restate
purpose of presentation)
·
Be
flexible (adapt if questions are asked during presentation)
Disabilities
Elizabethtown College welcomes students with
disabilities to participate in all of its courses, programs, and
activities. If you have a documented
disability and require accommodations to access course material, activities, or
requirements, you must:
(1) Contact the Director of
Disability Services, Lynne Davies, in the Center for Student Success, BSC 228, by phone (361-1227) or
email daviesl@etown.edu; and (2) Meet with the instructor
within two weeks of receiving a copy of the accommodation letter from
Disability Services to discuss your accommodation needs and their
implementation.
Academic
Honesty
Elizabethtown
College Pledge of Integrity: "Elizabethtown College is a community
engaged in a living and learning experience, the foundation of which is mutual
trust and respect. Therefore, we will strive to behave toward one another with
respect for the rights of others, and we promise to represent as our work only
that which is indeed our own, refraining from all forms of lying, plagiarizing,
and cheating."