Environmental Engineering and Historical Perspective PDF

Summary

This document provides a presentation on environmental engineering and the historical development. It covers topics such as the environment, environmental pollution, environmental engineering, history, and sustainability. The information presented discusses the principles, challenges, and solutions in environmental engineering, with insights into environmental issues and the concept of sustainability.

Full Transcript

Environmental Engineering and
Historical Perspective

EnvE 101
Fall 2024
Outline

Environment

Environmental Pollution

Environmental Engineering

History

Sustainability
Environment
The environment is everything that surrounds
you, including the air, the land, the oceans, and all
living things.

3
Environment

The physical environment is divided into three
spheres:
 Atmosphere (gas)
 Hydrosphere (liquid)
 Lithosphere (solid)

o Biosphere: biological
environment including
all life forms

4
Environment
The physical and biotic habitat which surrounds us
The total of our surroundings
Living things
Micororganisms, animals, plants, humans
Nonliving things
Physical environment - Continents, oceans, clouds, soil, rocks with
their physical conditions (temperature, pH, light etc) and resources
available (inorganics, organics, light)
Our built environment
Buildings, human-created living centers
Social relationships and institutions
Environment
The physical and biotic habitat which surrounds us
The total of our surroundings
Living things
Micororganisms, animals, plants, humans
NonlivingHumans
things exist within the
environment
Physical environment and
- Continents, are
oceans, clouds, soil, rocks with
their physical conditions (temperature, pH, light etc) and resources
partorganics,
available (inorganics, of nature
light)
Our built environment
Buildings, human-created living centers
Social relationships and institutions
Environment
The physical and biotic habitat which surrounds us
The total of our surroundings
Living things
Ourhumans
Micororganisms, animals, plants, survival
depends on a
NonlivingHumans
things existhealthy,
withinfunctioning
the planet.
environment and are
Physical environment - Continents, oceans, clouds, soil, rocks with
Our interactions with its
their physical conditions (temperature, pH, light etc) and resources
part of nature other
available (inorganics, organics, light) parts matter a great
Our built environment deal.
Buildings, human-created living centers
Social relationships and institutions
Environment
Environment to the environmental engineer:
May be in
global dimension…
May refer to
very specific area
where specific problem must be
addressed…
May refer to volume of
liquid/gas/solid materials within
treatment plant…
Environment
Environment to the environmental engineer:
May be in
global dimension…
May refer to
very specific area
where specific problem must be
addressed…
May refer to volume of
liquid/gas/solid materials within
treatment plant…
Environment
Environment to the environmental engineer:
May be in
global dimension…
May refer to
very specific area
where specific problem must be
addressed…
May refer to volume of
liquid/gas/solid materials within
treatment plant…
Environmental Disturbances
Many majorside
Disturbing improvements
effects; to our standard of living;
Loss
The production of more and better quality food
of arable land
The creation of housing as protection from extremes climate
Loss of forests
and as living space
Dramatic increase in the use of resources
The building of fast and reliable means of transportation
Air
Thepollution
elimination of many infectious diseases
Water pollution
The invention of machines to replace human or animal power
Microorganisms with antibiotic
The invention of various systems ofresistance
communication....
Environmental Disturbances
Many majorside
Disturbing improvements
effects; to our standard of living;
Loss
The production of more and better quality food
of arable land
The creation of housing as protection from extremes climate
Loss of forests  Natural pollutants
and as living space
Dramatic increase in the use of resources
The building of fast and reliable Anthropogenic
 means pollutants
of transportation
Air
Thepollution
elimination of many infectious diseases
Water pollution
The invention of machines to replace human or animal power
Microorganisms with antibiotic
The invention of various systems ofresistance
communication....
Population Growth & Resource Use
1. Over population
2. Over consumption (= impact per person)
Tremendous increase in human population,
accompanied by an even greater increase in per
capita consumption (of natural and manufatured
resources)
In many countries; overconsumption rather than
overpopulation is the main cause…
Over Population
Slow start, rapid increase

Human population
– 2014 >7 billion people

Projection
– 2050 ~ 10 billion people
 Global Human Population Growth
Exponential Age
Global Human Population Growth

The Black Death was one of the most
devastating pandemics in human
history, killing an estimated 75 to
200 million people and peaking
in Europe in the years 1348–50.
(http://en.wikipedia.org/).
Over Population

Human population growth intensifies all
environmental problems
The growth rate has slowed, but we still
add more than 200,000 people to the
planet each day. That equals over 75
million more people every year
Natural resources: vital to human survival

Always available: sunlight, wind, wave energy
Renewable over short periods of time: timber, water, soil, wildlife
These can be destroyed
Non-renewable resources: Oil, coal, minerals
These can be depleted
Over Consumption
Resource consumption, degradation,
depletion

Our consumption of resources has risen even
faster than our population growth
– Life has become more pleasant for us so far
– However, rising consumption amplifies the
demands we make on our environment
Overpopulation & Overconsumption
Possible results:
We are withdrawing our
– Huge amount of pollution and wastes
Weplanet’s
are natural
increasing
– Disrupt economies
capital
our 30%
burden
on of
– Loss the planet
faster farmeach
than
species, itland, yearsupplies
is being
water !
produced
– Climate change
 Balanced Ecosystem Concept

Earth’s life forms live in equilibrium
Natural processes:
– Biological Through which nature is cleaning itself

– Chemical
– Physical
Assimilative capacity

Historically, cycling of elements (via natural
processes) overcame pollution
Carrying Capacity
the population of organisms that can be sustained at a
steady state considering the resources available in the
ecosystem in which they reside.

varies by:
location
standards of livings
global changes
types of technology uses to extract and process the resources
Homeostatic Plateau-Carrying Capacity
 The “ecological footprint”
The environmental impact of a
person or population
– The amount of biologically productive
land and water needed to provide the
people in a region with indefinite
supply of renewable resources, and to
absorb and recycle wastes and
pollution
Unsustainable: footprint is larger
than biological capacity for
replenishment
Humans have surpassed the Earth’s
capacity
Major Environmental Problems

© Brooks/Cole Publishing Company / ITP
Challenges in pollution
Thousands of different artificial chemicals used in
farms, industries, and households

Each year, millions of people die from pollution
 e.g.Endocrine disrupters
Chemical pollutants –
Endocrine disrupters
interfere with hormone
production & function
within the body.

Hormones are chemical
messengers that regulate
growth, reproduction, &
other functions.
Challenges in agriculture
Expanded food production led to increased
population and consumption

It’s one of humanity’s greatest achievements,
but at an enormous environmental cost
Nearly half of the planet’s land surface is used for
agriculture
Chemical fertilizers
Pesticides
Erosion
Changed natural systems
Excessive use of
herbicides/pesticides
to increase product harvest results in good product yield at
first, but is followed by catasrophies because of the fact that
excessive usage of insecticides causes resistance in the weeds
and also diminishes natural predators of pests or insects.
Swiss scientist Paul Müller was awarded the
1948 Nobel Prize in Physiology and Medicine
for his discovery of DDT’s insecticidal
properties in 1939.
But, DDT now banned! (sperm decline, birth
defects, possibly carcinogenic etc. Also came
close to eliminating some species of animal all
together- Bald Eagle. )
Challenges in climate
Scientists have firmly concluded that humans are
changing the composition of the atmosphere
The Earth’s surface is warming (0.74 ± 0.18 °C during past century)
Melting glaciers
Rising sea levels
Impacted wildlife and crops
Increasingly destructive weather

Since the Industrial Revolution, atmospheric carbon
dioxide concentrations have risen by 37%, to the
highest level in 650,000 years
 CO2 vs gasoline

1 gram of CO2e would be
produced if you burned a pea
sized blob of gasoline
1 Kilogram (2 lbs) of CO2e
would be produced if you
burned 2 cups of gasoline
1 Ton of CO2e would be
produced if you burned 60
gallons of gasoline
Challenges in biodiversity
Human actions have driven many species extinct,
and biodiversity is declining dramatically
Declining Bird populations for the past 2 decades
We are at the onset of a mass extinction event

Biodiversity loss may be our biggest environmental problem;
once a species is extinct, it is gone forever
Challenges in Resource depletion
Overexploitation; livestock
overgrazing, wild medicinal
plants, grazing
pastures, game animals, fish
stocks, forests, and water
aquifers

Overfishing (e.g for anchovy) in
Black Sea resulted in the
diminishing of Dolphins. Atlantic cod stocks were severely
overexploited in the 1970s and 1980s, leading
to their abrupt collapse in 1992
(en.wikipedia.org)

© Brooks/Cole Publishing Company / ITP
What is Environmental Engineering?
Environmental Engineering
Primary Focus:

To apply science and engineering methods for
the protection of public health and the
environment.
Environmental Engineering

Environmental engineering is the application
of science and engineering principles

– to improve the natural environment (air, water,
and/or land resources),
– to provide healthy water, air, and land for human
habitation and for other organisms, and
– to remediate polluted sites.

http://en.wikipedia.org/wiki/Environmental_engineering
Environmental Engineering

the equipment, systems, and structures
are
for the protection and enhancement of the
environment

http://www.brighthub.com/engineering/civil/articles/96465.aspx
Environmental Engineering
Air pollution
– Control devices
– Dispersion Modeling
Water (surface and groundwater):
– Treatment & disinfection
– Storage and distribution
– Dispersion Modelling
– Water Quality
Wastewater
– Treatment
– Disposal
Solid Wastes
Hazardous Wastes
Radioactive Wastes
Integrated Systems (Waste Management)
Pollution Prevention
Other – noise pollution
Historical Perspective of
Environmental Engineering

“One of World's Oldest Professions”
Early History
Period Civilization
3400-2450 B.C. Early Egyptian Evidence for the collection of
Civilizations rainfall as well as the use of
copper pipe for the disposal of
sewage

1850-1400 B.C. Minoan civilization Evidence for the presence of
(located on Crete) sanitation and drainage
2000 B.C. The Hindus Keep water in copper vessels, to
expose it to sunlight and filter
through charcoal.

900 B.C. to 476 AD Roman Civilization Many hygienic achievements; the
great aqueducts, sewers, drains
and public bath.
19th Century
SANITARY ENGINEERING;
Sanitary engineering emerged as a separate engineering field
within civil engineering in the mid 1800's as the importance of
drinking water treatment and wastewater treatment became
recognized.
Sanitary engineering, which had an emphasis on water supply,
water treatment, and wastewater collection and treatment
for many years, is the precursor of the present day field of
environmental engineering.
1950s
After World War II, the emergence of
synthetic chemicals became common place in
the marketplace.

Ex: synthetic detergents which are not
biologically degradable were a visual
indication of pollution; due to foam formed,
the public quickly became aware of pollution.
20th Century
Public concern about environmental quality issues
like air pollution and water pollution emerged in the
middle third of the 20th century, leading to
development of environmental engineering as a
separate discipline that deals with air pollution
control, hazardous waste management and industrial
hygiene as well as the traditional sanitary
engineering fields of water supply and waste water
treatment.
By the end of 1980’s

The field expanded to include soil and
groundwater remediation, toxicology, risk
assessment, atmospheric modelling, regional
and global scale transport of pollutants, and
more fundamental process design…
Development of the Field
A sub-set of civil engineering
Traditionally Focusing on sanitation

Problems caused by
Later Wastewaters, air emissions, solid wastes,
workplace conditions and worker safety

Toxic and hazardous wastes come to the
40 years ago forefront...

Increasing emphasis on waste minimization,
recycle and reuse…
Recent years Worldwide environmental issues; acid rain,
global warming, ozone depletion
New challenges and Paradigmatic
Changes
From pollution control and waste handling
technologies to process integrated prevention,

From environmental aspects of manufacturing
processes to the entire life of products,
From sole emphasis on sole technology to
broader perspectives (non-tech measures)
Sustainability !
Sustainability
A guiding principle of environmental science
Living within our planet’s means
– The Earth can sustain humans and other organisms for the future
– Leaving our children with a rich, full world
– Developing solutions that work in the long term
– Requires keeping fully functioning ecological systems

Sustainability is broadly defined as meeting the needs of
the present generation without compromising the ability
of future generations to meet their own needs (Report of
the Brundtland Commission, “Our Common Future,” 1987).
Sustainability
«A state of dynamic equilibrium achieved by taking responsibility for
balancing long term economic, environmental and social health for ourselves,
our communities, and our world "
The Sustainability Triangle
Sustainable Society
manages its economy and population size
without exceeding all or part of the planet’s
ability to absorb environmental detriments,
replenish its resources, and sustain human
and other forms of life over a specified period
(hundreds of years)
Environmentally Sustainable Societies

 … meets basic needs of its people in a just and equitable manner without
degrading the natural capital that supplies these resources.
 Key Natural Resources and Services

Environmental Science
G. Tyler Miller,Scott Spoolman
Pollution, Natural Cleansing and
Environmental Engineering
As pollutants enter air, water or soil, natural
processes such as dilution, biological conversions and
chemical reactions convert waste materials to more
acceptable forms (natural cleansing)
Environmental engineers design treatment facilities
based on the principles of self-cleansing observed in
nature.
Environmental engineers adapt the principles of
natural mechanisms to engineered systems for
pollution control.
Solutions: Prevention vs. Cleanup
Problems with relying on cleanup:

– Often removes a pollutant from one part of the
environment to cause problems in another.
– Pollutants at harmful levels can cost too much to
reduce them to acceptable levels.
Waste Management Hierarchy
Working Toward Sustainability
Rely more on renewable energy from the sun, including indirect
forms of solar energy such as wind and flowing water
– Take no more than we need
– Try not to harm life, air, water, soil
Protect biodiversity by preventing the degradation of the
earth’s species, ecosystems, and natural processes, and by
restoring degraded areas
Help to sustain the earth’s natural chemical cycles by reducing
pollution, not overloading natural systems with harmful
chemicals, and not removing natural resources faster than
those natural cycles can replace them Help maintain Earth's
capacity for self repair
Don't waste resources
Slow the rate of population growth.
© Brooks/Cole Publishing Company / ITP
We need to understand:

Environment and human interaction with it.
how nature works
how the environment affects us
how we affect the environment
how we can live more sustainably without
degrading our life-support system
Environmental Engineers;
Major Task:

To develop solutions to environmental
problems…
 © 2011 Cengage Learning Engineering. All Rights Reserved.

Environmental Engineering

Source: Introduction to Environmental Engineering SI; Vesilind, Morgan, Heine