The_Engineering_Disciplines(2).pdf

Transcript

The Lasallian Prayer

“Let us remember
that we are in the holy presence of God.”

2 September 2021 Prepared by: Engr. Joshua Hernandez 1
 The Lasallian Prayer

“I will continue, O my God,
to do all my actions for the love of Thee.”

Saint John Baptist de La Salle, pray for us.
Live Jesus in our hearts, forever.

2 September 2021 Prepared by: Engr. Joshua Hernandez 2
 Introduction to Engineering
Definitions
Technology Team
Engineering Functions
Career Paths
Engineering Profession
 What is Engineering?
The Accreditation Board for Engineering and
Technology (ABET) defines engineering: “the
profession in which a knowledge of the
mathematical and natural sciences gained by
study, experience, and practice is applied with
judgment to develop ways to utilize,
economically, the materials and forces of nature
for the benefit of mankind.”
 What is Engineering?
Engineering is a profession like medicine, law,
etc. that aspires to high standards of conduct
and recognizes its responsibility to the general
public.
 Technology Team
Scientist - Like an engineer, but a primary goal is
the expansion of knowledge and understanding
physical processes.
Engineer - Applies knowledge of math and the
physical sciences to the efficient design and
construction of usable devices, structures and
processes.
 Technology Team
Technologist - Technologists focus on direct
application of established engineering principles
and processes. Math, the physical sciences,
and underlying engineering theory receive
limited coverage. More interested in hardware
and processes.
 Technology Team
Technician - Completes a 2 year degree in a
narrow technical area such as electronics,
drafting, or machining.
Artisans - Training may be a combination of
schooling and work experience. Examples
include, welders, machinists, electricians,
carpenters, painters, steel workers, and artists.
The Engineering
Disciplines
 The number of engineering
disciplines is not static. Many
disciplines spawn additional
sub-disciplines.

Let’s focus on the major
disciplines!
Engineering Disciplines
▪ Aerospace ▪ Electrical
▪ Agricultural ▪ Environmental
▪ Architectural ▪ Industrial
▪ Biomedical ▪ Manufacturing
▪ Biological ▪ Materials
▪ Chemical ▪ Mechanical
▪ Civil ▪ Nuclear
▪ Computer ▪ Petroleum
▪ Software
Aerospace Engineering
Aerospace engineers design and develop
technology for commercial aviation, the
national defense, and space exploration. In
1990, aerospace engineers helped launch
the Hubble Space Telescope, an orbiting
instrument that allows us to see 10 times
farther than we have ever seen before.

ASEE
 They design, develop, and test
aircraft, spacecraft, satellites, and
missiles and supervise the
manufacturing of these products.

Aerospace engineers who work
with aircraft are considered
aeronautical engineers, and those
working specifically with spacecraft
are considered astronautical
engineers.
Repairing cracked shuttle tiles.

Boeing Jets – working on better
Fuel efficiency and longer range.
Aerospace Engineering Employers
▪ Boeing
▪ NASA
▪ Lockheed Martin
▪ Space Systems / Loral
Lockheed Martin F16 Falcon
Flying over Iraq

Boeing Fighter Jet from 1932
 Agricultural Engineering
▪ Agricultural engineers design farm and food
processing equipment; construct crop storage
and livestock buildings; and develop systems for
drainage, irrigation, and waste disposal.
▪ Sometimes agricultural engineers work in labs
like EPCOT's Land Pavilion, where they
experiment with promising indoor farming
techniques such as hydroponics—the science of
growing plants in fluids without dirt.
ASEE
control of vibration,
noise, air quality, heating,
cooling within machinery.
harvesters, transporters

Environmental controllers
for poultry, swine, beef,
aquaculture, plants
Precision agriculture utilizing GPS,
remote sensing and computerized
field equipment.
Agricultural Engineering Employers
▪ Archer Daniels Midland (ADM)
▪ Cargill
▪ DuPont
▪ US Department of Agriculture
 Architectural Engineering
Working alongside architects, architectural
engineers focus on the safety, cost, and
construction methods of designing a
building. For example, as the US
population grows in the Southwest, more
and more architectural engineers are
investigating new ways to build on land
where there is only sand and sagebrush.
ASEE (This is very related to Structural & Civil Engineering)
 Biomedical Engineering
▪ Biomedical Engineers develop devices
and procedures that solve medical and
health-related problems.
▪ Biomedical Engineers work with medical
professionals to develop medical
instruments, monitoring equipment,
artificial organs, and prosthetic devices.
 Laser Systems for
Corrective eye surgery.

Computers for
Blood analysis

Implantable Ultrasound Imaging Equipment
Hip Joints
 Biological Engineering
▪ Bioengineering combines biology and
engineering.
▪ Biological Engineers understand how biological
systems operate and develop effective biology-
based technologies for applications across a
wide spectrum of societal needs including
breakthroughs in diagnosis, treatment, and
prevention of disease, in design of novel
materials, devices, and processes, and in
enhancing environmental health.
 Biological and Agricultural
Engineering Programs at UC Davis
Aquaculture Engineering
Ecological Systems Engineering
Energy Systems Engineering
Environmental Engineering
Food Engineering
Forest and Fiber Engineering
Health and Safety Engineering
Machine Systems Engineering
Postharvest Engineering
Sensor and Control Engineering
Soil and Water Engineering
In the early 1950s California's tomato industry was threatened because
of the lack of laborers to harvest the crops. In response, the UC Davis
agricultural engineering department developed the mechanical tomato
harvester. Unfortunately, this machine crushed the tomatoes.

The vegetable crops department came to the rescue by breeding a
firmer-skinned tomato - also known as the square tomato

Several genetically engineered varieties of tomatoes have been
developed in the US and approved for commercialization,

For a variety of reasons these GE tomatoes are no longer marketed
 Chemical Engineering
Chemical Engineers often take chemical reactions and scale them
up to a large manufacturing process. They focus on the production
of products formed through a chemical reaction. This is sometimes
called Process Engineering.

Chemical engineering involves the processing and treating of liquids
and gases. For example, some chemical engineers are studying
ways to desalinate seawater—stripping it of salt to make the water
safe to drink.

Many chemical engineers work with petroleum and plastics.

The term "environmental engineering" also applies to certain areas
of chemical engineering, such as pollution control.
Chemical Engineers are employed
to do:
Food Processing
Beverage making and bottling
Environmental Analysis
Making of Cosmetics, Perfumes, and
Flavorings
Pharmaceutical production
Petroleum and Plastics processing
 Kelco, San Diego
Manufacturer of Biopolymers from Sea Kelp

Pollution Control

Petroleum Extraction and Processing
 Chemical Engr Employers
▪ Dow Chemical
▪ DuPont
▪ Proctor and Gamble
▪ Monsanto
▪ Johnson & Johnson
▪ Merck
▪ General Mills
 Civil Engineering
One of the largest branches of
engineering, civil engineering is a field that
deals with buildings, bridges, dams, roads,
and other ‘public works’ structures. Civil
engineers plan, design, and supervise the
construction of facilities such as high-rise
buildings, airports, water treatment
centers, and sanitation plants.
 Historic Preservation
Grand Central Terminal
New York City

Flood waters compromise levee
Near New Orleans during
Hurricane Katrina.

Oklahoma City
Federal Bldg.

Rebuilding Oklahoma City after the bombings.
Buildings are blast resistant and employ sustainable
Construction.
William J. Clinton
Presidential Center
Little Rock, AK
Architecture can be both industrial
as well as inviting to people.
Architecture can effect people’s
moods, productivity, and energy.
 New Compositions make Concrete more versatile.

A translucent concrete
material contains
glass optical fibers SACRED SURFACES. The
that transmit light modern church Dives in
through the entire Misericordia located in
length of the block. It Rome, is made from a self-
can bring sunlight cleaning concrete that
through a wall. breaks down atmospheric
pollutants that would
otherwise darken the surface
over time.
Ductal – an ultra high performance concrete developed by Lafarge.
The high strength fibers make the material self reinforcing.
The Material can be used to make very thin structures with
out the need for conventional steel reinforcement. The concrete
will bend like metal before breaking.
Japan

Juscelino Kubitschek Bridge Tacoma Narrows Bridge, 1940
Brazilian Wave Arch Wind created resonant vibrations.
Now computer modeling and wind tunnels
are used to test the rigidity of the road decks.
Computer & Software Engineering
Computer engineers deal with all aspects
of computer systems including design,
construction, and operation. Some
computer engineers specialize in areas
like digital systems, operating systems,
computer networks, and software.
 Computer Engineering
▪ Hardware and Chip Design
▪ Development of Software Applications
▪ Integrating components together, i.e.
device driver software
▪ Project Management – teams located in
multiple places
▪ Chip Fabrication
▪ Test and Quality Assurance (QA)
 Computer Engineer Employers
▪ Cisco
▪ Sun
▪ Intel
▪ Microsoft
▪ Oracle
▪ IBM
▪ Apple
▪ Google
▪ Yahoo
▪ Wireless service Providers – cell phone services
▪ Manufacturers of hand-held devices.
▪ GIS/GPS businesses.
▪ eBay and Amazon
▪ Self employed
 Global Positioning Unit

Open Source software
Invites lots of developers
to create new applications
Using Languages such as JAVA.
 Electrical Engineering
The discipline that employs the largest
number of engineers, covers everything
related to electrical devices, systems, and
the use of electricity.

Electrical engineers work on power plants,
computers, and other electrical devices.
 Electrical Engineering (non-
computer)
▪ Control systems in car
▪ Satellites Communications
▪ Cell phones
▪ Power Plants
▪ Circuit boards
▪ Appliances
▪ TVs, DVDs,
▪ Medical Instruments
▪ Recording Equipment
▪ Synthesizers
▪ Amplification equipment
▪ Lighting
▪ Hardware for networking
▪ Firmware (low level coding)
▪ Custom Chips
▪ Aviation Controls
▪ Electronic monitoring and tagging (dog tags)
Radomes – Antenna
protection

These are cell phone towers?
 Environmental Engineering
Environmental engineers assist with the
development of water distribution systems,
recycling methods, sewage treatment
plants, and other pollution prevention and
control systems in the water, air, and land.
Environmental engineers constantly seek
new ways to reduce air pollution and
pesticides.
Environmental Engineers work on:
▪ Acid Rain and how to avoid it
▪ Clean Energy
▪ Energy Star Program
▪ Public policy compliance – title 45
▪ Indoor air quality
▪ Site Clean up
▪ Recycling and waste minimization.
▪ EPA Projects (Environmental Protection Agency)
EPA employs over 9000 engineers.
 Industrial Engineering
Industrial engineers organize the people,
information, energy, materials, and
machines involved in the production
process. They are concerned with plant
design and management, quality control,
and the human factors of engineering.
 Industrial Engineering specialties:
▪ management engineer - Combining
knowledge of the business and the
facilities.
▪ ergonomist – modify a process to reduce
worker injury.
▪ operations analyst - devising systems to
increase effectiveness of an operation.
▪ Quality engineer – devise systems to
service customers efficiently.
 Industrial Engineers might do:
▪ Designing the admissions procedure at a hospital
▪ Converting a major production line to JIT
▪ Representing a company in the design and construction of a new
manufacturing plant
▪ Performing motion and time studies
▪ Developing prototype units for the cellular phone car adapter market
▪ Simulation modeling
▪ Developing a hardware protection program for spacecraft
▪ Developing a supplier quality program
▪ Implementing lean manufacturing concepts
▪ Developing and launching a complete material handling system for a new
automobile
▪ Developing the conceptual layout of a dockyard and ship repair maintenance
facility
▪ Working on a design project to make a medical device to treat sleep apnea
▪ Representing manufacturing and purchasing issues on a design team
 Manufacturing Engineering
Manufacturing engineers design tools and
equipment and work with all aspects of
manufacturing—from production control
and materials handling to mechanization
and automation.
 Materials Engineering
Metallurgical and materials engineers extract, process,
refine, combine, and manufacture natural substances to
create new materials that meet specifications that could
not be met with raw materials.

Example: Materials that are:
stronger, resist corrosion, lighter, inert, elastic,
sticky, insulate, invisible, etc.

Metallurgical engineers work with metal only. Teams of
metallurgy and materials engineers created the US Air
Force's "stealth" technology that makes a fighter plane's
surface nearly invisible to radar.
 Teflon-1938

Nylon - 1931 Liquid Crystal Displays
1968

Transistors replace
Pyrex - 1924
Vacuum tubes

Glass fibers
Biomimicry
Lead to the
Neoprene- 1931 Invention of
Velcro - 1948

Ultrasuede and Gortex
 Nanotechnolgy includes
the many techniques
used to create
structures at a size
scale below 100 nm

Biomimicry is the
application of methods
and systems found in
nature to the study and
design of engineering
systems and modern
technology
 The Amazon Rainforest – nature’s laboratory for new
Discoveries.

Rain forests worldwide cover approximately 6% of Earth's surface, and
yet scientists believe they contain 50% of the world's plant and animal
species—an impressive ratio. In common parlance, tropical rain forests
are not only the planet's land-based centers of biodiversity—where
most species live—they also contribute to the maintenance of the
world’s climate by regulating rainfall and storing enormous amounts of
carbon.
Gordon and Betty Moore Foundation
 Mechanical Engineering
Mechanical engineers use mechanics and energy
principles to design machines such as tools, engines.
Machines, motors, and other devices.

Many mechanical engineers work in the areas of air-
conditioning and refrigeration, automotives,
manufacturing, welding, robotics, and mechatronics.

They study materials, heat and energy transfer,
manufacturing technologies
 A mechanical engineer designs
anything that uses mechanical motion

Robotics

Underwater Vehicle Computer Modeling

Consumer &
Baby products
Prototyping

Food Handling
 What is Mechatronics?
▪ The Fusion of Mechanical Engineering,
electronics, and computing.
▪ Usually requires cross-disciplinary training.
▪ Looks like robotics
▪ Automate and Improve production
The elements of Mechatronics systems include sensors, actuators,
microcontrollers (or microprocessors) and real-time control software.

The actuators are mainly high precision electric motors and solenoids. Any of a
large number of sensor types are used, including light, acceleration, weight,
color, temperature and image.
Stepper Motor
Stair climbing robot
 Nuclear Engineering
Nuclear engineers design, develop, and
control plants that use nuclear energy for
fuel and medical purposes. Some nuclear
engineers are busy working on a nuclear-
powered spacecraft that will travel to Mars.
 Examples of Nuclear Engineering
▪ Food irradiation has been systematically
evaluated by the Food and Agriculture
Organization which concluded that treating raw
meat and poultry with irradiation eliminates
disease-causing bacteria commonly found such
as E. coli and Salmonella and poses no
toxicological hazards at typically used doses.

▪ Domestic sources of radioisotopes are needed
to adequately sustain the growing needs of our
medical and healthcare communities.
Problems inherent with fossil fuels are avoided with
energy production using hydrogen. Per unit of fuel,
hydrogen fuel cells in vehicles are about twice as
efficient as combustion energies. Unlike conventional
engines, fuel cells emit only water vapor and heat.

Only nuclear energy can produce hydrogen on large
enough scales to meet future demand while avoiding
the release of greenhouse gases.

These battery-
like devices
inside hydrogen
vehicles convert
hydrogen and
oxygen into
water, in the
process
producing
electricity and
heat that can
power a motor.
 Engineering Functions
The focus of an engineer’s work typically falls into
one or more of the following areas:
Research - explore, discover and apply new
principles
Development - transform ideas or concepts into
production processes
Design - link the generation of ideas and the
production
 Engineering Functions
Production and testing - manufacture and
assemble components or products
Sales - market engineering products
Operations - maintain equipment and facilities
Construction - prior to construction organizes
bids, during construction supervises certain
components of process
 Engineering Functions
Management - optimize the use of resources
(equipment, labor, finances)
Education - teach engineering principles in
university and industrial settings
Consulting - provide specialized engineering
services the clients. May work alone or in
partnership other engineers.
 Who employs engineers?
Sector of
Employment Aero Chem Civil Elec Ind Mech
Industry
63.3 74.0 48.9 69.6 76.7 75.8
Self
11.1 12.7 14.4 12.2 11.5 11.4
Education
3.5 5.0 3.0 4.9 3.6 3.9
Non-profit
2.4 1.7 0.5 1.5 1.7 1.1
Fed. Govt.
4.7 4.6 9.3 9.3 4.6 6.1
Military
4.3 0.3 1.3 0.9 0.3 0.4
Other Govt.
0.4 1.3 22.1 1.1 1.4 0.9
Other
0.3 0.4 0.5 0.5 0.2 0.4
Total
100.0 100.0 100.0 100.0 100.0 100.0
 Career Paths for Engineers
There are at least seven career options for
graduating engineering students:
1) Corporate ladder
2) Independent entrepreneur
3) Military or government
4) Engineering and social service aboard
5) Professor/engineer
6) Graduate work outside engineering
7) A mix of first six options
 2.1. What is a profession?
❖ Profession is referred to a free act of commitment to a
way of life.

❖ Profession is the act of “professing”
the occupation which one professes to be skilled in
and to follow… A vocation in which professed
knowledge of some branch of learning is used in its
application to the affairs of others, or in the practice of
an art based upon it.
 Engineering as a Profession
Engineering possesses those attributes
that typically characterize a profession:
Satisfies an indispensable and beneficial
need.
Requires the exercise of discretion and
judgment and is not subject to
standardization.
Engineering as a Profession
Involves activities that require knowledge and
skill not commonly possessed by the general
public.
Has group consciousness for the promotion of
knowledge and professional ideas and for
rendering social services.
Has a legal status and requires well-formulated
standards of admission.