EVS Presentation: Environmental Science (NEP)

Summary

This presentation covers environmental science, including sustainability, environmental challenges, and solutions. It discusses topics like air and water pollution, waste management, and green computing technology. The presentation also examines the multidisciplinary nature of environmental science and its importance in addressing environmental problems.

Full Transcript

SAVE THE ENVIRONMENT, SAVE
THE EARTH

Dr. S. S. Butoliya,
Department of
 Syllabus for B. Tech. Semester I/II
Computer Science Engineering and Allied Branches, IT
Course Code CHT1001/CHT2001

Category Basic Science Course

Course Title Environmental Science
Scheme L T P Credits
&Credits Semester I/
1 0 0 1 II
 Ramdeobaba University, Nagpur
Environmental Science
Course Outcomes

After successful completion of this course, the student will be able to:
CO1: Explain sustainable development, its goals, targets, challenges
and global
strategies for sustainable development
CO2: Analyze the utilization of green computing technology for
environmental issues

Unit 1: Sustainable Engineering
Multidisciplinary nature of Environmental Science, air and water pollution; solid waste
management; local and global environmental challenges; climate change; sustainable
cities; sustainable sources of energy, Introduction to the idea of sustainability and its
relevance; environment-related legislation; Green Chemistry

Unit 2: E-Waste and Green Computing
E-waste Management: Sources, Legislation, Prevention, Control, Recent developments.
Waste due to Nano-materials and Micro-Plastics.
Green Computing: Green Computing, Computing in Environment and Research, Green
devices and Green data Servers.
Ramdeobaba University, Nagpur
Environmental Science

Unit 1: Sustainable Engineering
Multidisciplinary nature of Environmental
Science, air and water pollution; solid
waste management; local and global
environmental challenges; climate change;
sustainable cities; sustainable sources of
energy, Introduction to the idea of
sustainability and its relevance;
environment-related legislation; Green
Chemistry
 Introduction
– “If you plan for one year, plant rice, if you plan for 10 years plant trees
and if you plan for 100 years, educate people”

– So, if we want to manage our earth, we must make people
environmentally educated

– Definition: Environmental Studies is the scientific study of the
environmental system and the status of its changes on organism

– Environment can be defined as the circumstances or conditions that
surrounds an organism

– Environmental Sciences, is the systematic study of our environment and
existence in it
 Framework for addressing environmental
problem
Scientific Assessment:
Scientific Assessment
Collection of information, data, simulations ,
model, predict the future
Risk Analysis:
Results from simulations are analyzed. Potential Risk Analysis
effects
Public Education and involvement:
Through publications, awareness through media Public Education and
Explanation of the problem along with probable Involvement
cost
Political Action:
Course of Action
Political Action
Evaluation:
Actions to be evaluated, monitored
Improve the initial assessment
Evaluation
 Objectives of environmental studies
Awareness
– To help people acquire an awareness of and a sensitivity to the total environment and its
allied problems
Knowledge
– To help people acquire basic understanding of the total environment and associated
problems
Attitude
– To help people acquire social values, strong feelings of concern for the environment and
the motivation to act in protecting and improving
Skills
– To help people acquire the skills for identifying and solving environmental problems
Evaluation Ability
– Evaluate environmental measures and education programs
Participation
– Active involvement at all levels in working towards resolving environmental problems
 Importance of Environmental Studies
 Conservation of energy by introduction alternate sources, improved
technologies, processes compatible with environment

 Increase in economic productivity through improved health of people

 Conservation of fast depleting natural resources

 New ways and means to maintain ecological balance

 Knowledge about waste management, treatment and disposal techniques

 Social responsibility towards control of environmental pollution and
protection
 Outline

 Definition

 Scope and Importance

 Need for public Awareness
 The Environment and Environmental
Science:
– Earth may seem enormous, but it and its
systems are finite and limited
– We can change Earth and damage its
systems
Environment - all of the biotic and
abiotic things around us
– Biotic - living things
– Abiotic – non-living things
– We are dependent on Earth for our survival
therefore we need a healthy, functioning planet
Natural systems have been degraded by
pollution, soil erosion, species extinction, etc.
– Environmental changes threaten long-term
health and survival
– Environmental science -
interdisciplinary study of how
natural world works, how we
affect environment, how
environment affects us
Natural sciences – studies
natural world
Social sciences – studies values
and human behavior
 Natural resources – materials and energy
sources we take from environment to
survive
– Renewable natural resources – resources
that replenish over a fairly short period of
time
Some continually renew
Some take years to decades to renew
– Nonrenewable natural resources -
resources with finite supply
Millions of years needed renew
– Renewability is best understood as a continuum,
resources with potential for renewal can be
depleted when used faster than replenished
 Importance of Ecosystems Services:
– Ecosystems services - processes
carried out by naturally
functioning ecosystems that
supports living things and makes
human economic activity possible
Air and water purification
Nutrient cycling
Climate regulation
Plant pollination
Waste recycling
 The Connection Between Population
Growth and Resource Consumption:
– Currently over 7 billion
9 billion by 2050
– ~ 10,000 years ago agricultural
revolution
Society shifted from hunter-gatherer
to agriculture
– Plant cultivation and selective
breeding = greater food production,
food stability
– ~300 years ago, industrial
revolution
Mid 1800s, wide use of machines,
industry and agriculture grew
rapidly
– Spurred by the use of fossil fuels
(non-renewable energy resources
including oil, coal, natural gas
Both events accelerated population
growth and increase resource
consumption
– Ecological footprint – the total area of
biologically productive land and water
needed to produce resources and
absorb wastes of a person or
population
– Currently we are using 2.7 ha/person
creating global deficit of 50%
– Renewable resources are being used
50% faster than replenished
– Overshoot – human demand is
exceeding nature’s ability to provide
Compare demand to biocapacity it is
currently taking natural resources of 1.5
Earth’s to support humanity
 The Lesson of Easter Island:
– Resource consumption and population
growth are impacting today’s global
society
– Past civilizations have collapsed after
degrading their environment
Easter Island was once lush but
degradation led to collapse today
scientists debate over the exact cause
of the island’s environmental fate
– Civilizations succeed or fail based on how
they interact with their environment and
how problems are solved
 The Scientific Method
The Nature of Science:
– Science – an organized method for
learning about the world and
testing our knowledge of it
Science is necessary to sort fact from
fiction and develop solutions to
problems we are facing
– It must be accessible and
understandable to the public
 Observational (descriptive) science -
information is gathered about our
world through measuring and
observation
– Used in astronomy, paleontology,
taxonomy, plate tectonics
Hypothesis-driven science = targeted
research
– Experiments test hypotheses using the
scientific method
Scientists make observations and ask
questions about some phenomenon
 Hypothesis - a statement that attempts
to answer the question
– Hypothesis generates predictions – specific
statements that can be directly tested
Controlled experiment – an
experiment where variables are
controlled
Control – the unchanged which is
used for comparison
Variable - condition that can change
Independent variable - the variable
that can be changed
Dependent variable - the outcome of
the independent variable
 Dependent variable - the outcome
of the independent variable
Results will support the hypothesis
Theory – a well tested and generally
accepted explanation of a phenomena
 Sustainability and our
Future
Concepts of Sustainability and Sustainable
Development:
– Sustainability – the idea that we must
live within our planet’s resources and
ability to provide for us and all life
Sustainability involves:
– Resource conservation
– Maintaining ecological systems
– Development of long-term solutions that
sustain our civilization and all life in future
» This will allow our descendants to live
at least as well as we have
 Natural capital – the total wealth of
Earth’s natural resources
– We are currently living on natural capital
when we need to live on natural
interest
Population growth has slowed but
200,000 people added to Earth’s
population daily contributing to
increasing demands on resources and
the environment
 Impacts of Population and Consumption:
– Deforestation and soil erosion from
agriculture
– Increased urban sprawl
– Reduction of freshwater supply
– Increased air and water pollution
– Increased waste generation – toxic and non-
toxic
– Reduced supplies of mineral and ore deposits
– Climate change
– Loss of biodiversity
 Sustainable Solutions Abound:
– Renewable energy and energy efficiency
innovations
– Agriculture reform
– Laws for reducing pollution and
protection of the environment
– Increased recycling and decreasing
waste production
– Reducing the amount of greenhouse gas
emitted
 Campus Sustainability:
– Colleges and universities contribute up
to 2% of total carbon emissions in the
US
Many campuses have extensive
infrastructures
– Student led organizations are taking
initiatives to reducing footprint
 WHAT IS POLLUTION
 Pollution is the introduction of contaminants
into the environment that causes instability,
disorder, harm or discomfort to the ecosystem.

 King Edward I made the first anti-pollution
law in 1273
 Main causes are transportation systems and
industries
 Air pollution Act was passed in 1981 in India
 Bhopal Gas Tragedy on Dec. 2nd, 1984
Pollutants are solid, liquid or
gaseous substances present in
greater than natural abundance,
produced due to human activity,
which have detrimental effect on
our environment.
 TYPES OF POLLUTANTS
1. Degradable or non-persistent pollutants: Those
which are rapidly broken down by natural processes
e.g. domestic
sewage, discarded vegetables, etc.

2. Slowly-degradable or persistent pollutants:
These remain in the environment for many years in an
unchanged condition and take decades or longer to
degrade e.g. DDT and most plastics

3. Non-degradable pollutants:
These cannot be degraded by natural processes. They
are difficult to eradicate and continue to accumulate.
e.g. toxic elements like lead or mercury and nuclear
wastes
 TYPES OF POLLUTION
Air Pollution
Water Pollution
Thermal Pollution
Noise pollution
Soil Pollution
Nuclear Pollution
 AIR POLLUTION
‘Contamination of
the atmosphere
due to substances
such as dust,
gases, S.P.M. etc is
called as air
pollution’.
 Air Pollutants
Primary air pollutants - Materials that when released
pose health risks in their unmodified forms or those
emitted directly from identifiable sources.
Secondary air pollutants - Primary pollutants
interact with one another, sunlight, or natural gases to
produce new, harmful compounds
 Primary Air Pollutants

Five major materials released directly into
the atmosphere in unmodified forms.
– Carbon monoxide
– Sulfur dioxide
– Nitrogen oxides
– Hydrocarbons
– Particulate matter
 Carbon Monoxide
Produced by burning of organic
material (coal, gas, wood,
trash, etc.)
Automobiles biggest source
(80%)
Cigarette smoke another major
source
Toxic because binds to
hemoglobin, reduces oxygen in
blood
Not a persistent pollutant,
combines with oxygen to form
CO2
Most communities now meet
EPA standards, but rush hour
traffic can produce high CO
levels
 Sulfur Dioxide
Produced by burning sulfur
containing fossil fuels (coal,
oil)
Coal-burning power plants
major source
Reacts in atmosphere to
produce acids
One of the major components
of acid rain
When inhaled, can be very
corrosive to lung tissue
London
– 1952 “killer fog”: 4,000
people died in 4 weeks
tied to sulfur
compounds in smog
 Nitrogen Oxides
Produced from burning
of fossil fuels
Contributes to acid
rain, smog
Automobile engine
main source
New engine
technology has helped
reduce, but many more
cars
 Hydrocarbons

Hydrocarbons - organic
compounds with
hydrogen, carbon
From incomplete
burning or evaporated
from fuel supplies
Major source is
automobiles, but some
from industry
Contribute to smog
Improvements in
engine design have
helped reduce
 Particulates
Particulates - small pieces
of solid materials and
liquid droplets (2.5 mm
and 10 mm)
Examples: ash from fires,
asbestos from brakes and
insulation, dust
Easily noticed: e.g.
smokestacks
Can accumulate in lungs
and interfere with the
ability of lungs to
exchange gases.
Some particulates are
known carcinogens
Those working in dusty
 Conti…..
Respirable Suspended Particulate Matter
(RSPM)
– PM1 having size