1. Technology And Sustainable Development

2. Understanding well being Sustainable Development
The Flow
Introduction
Understanding well being
Sustainable Development
History, Definition and Understanding
Sustainability redefined
Indicators of sustainable development
Engineering and sustainable development
Guiding principles for engineers
Case study of Nokia Life Cycle Assessment
Concluding Statement

3. Actions of a guest / parasite By the host
What is SUSTAINABLE ?
SUSTAINABLE =
SUSTAIN +
ABLE
Ability to Sustain
What – Who – How Long
Actions of a guest / parasite
By the host
For multiple generations of the guest / parasite

4. We are GUEST [or PARASITE ?]
The role in present context
Earth is the HOST
We are GUEST [or PARASITE ?]
Our ACTIONS are to be sustained.

5. A glimpse……

6. A transition from guest to parasite ?
Increasingly, human actions are taking up forms, the consequence of which are becoming unbearable for the earth. In other words, earth is rapidly loosing its capacity to sustain. We have started to behave more like a parasite than a guest. Hence the discussion on sustainability.

7. Understanding Well Being
A change in the way we understanding well being is increasingly being pointed as the root cause of our actions becoming unsustainable. Hence a discussion on well being.

8. A state of health, happiness and prosperity
Definition : Well Being
A state of health, happiness and prosperity

9. Health, Happiness and Prosperity. Are they interconnected?
YES
Philosophy - Apart

10. Handling interconnected events is indeed challenging
Are they equally important?
D E B A T A B L E
Handling interconnected events is indeed challenging
Probability of the number 5 showing up in a toss of dice = 1/6
Probability of the heads showing up in a toss of coin = 1/2
Independent
Probability that head appears when the dice shows 6
Dependent
I think I will change my course..

11. A shift in importance from Happiness to Prosperity
How the things have changed historically
Historic Timeline
A shift in importance from Happiness to Prosperity

12. Consequence of the change
Not Resource Intensive
Resource Intensive
Resource Utilization Resource Exploitation

13. UNLIMITED GROWTH AND INFINITE GROWTH RATE
Policies of the Government
Traditionally, the goal of public policy has been progress e.g. Five year plans etc.
Progress has been for defined as the continuous movement to a better future.
Progress has (un) fortunately been measured on the basis of material prosperity – i.e. greater goods and conveniences available to humanity.
No end goals ever specified with respect to progress and growth.
The holy grail of public policy
UNLIMITED GROWTH
AND
INFINITE GROWTH RATE

14. GROWTH RESOURCES MACHINES
Consequences
GROWTH
RESOURCES
Requires
Fed to
Limitless
Material
Manpower
MACHINES
Gives Out
Gives
Out
Products
Waste and Emission

15. Limits of natural endurance
Everything in nature (and science / technology) has a limit on the rate of change of a particular variable. In engineering examples, rate of acceleration, rate of loading, rate of heating, rate of pressure rise. Nothing can sustain anything with infinite rate. Beyond the rate of endurance, nature also reacts in an adverse fashion.

16. When Nature Reacts
A glimpse of how nature reacts will give an indication of how wrong we have been in defining human well being.

17. When nature reacts

18. When nature reacts

19. When nature reacts

20. How Do We React
How has been our reaction to the unprecedented challenge thrown at us by the nature due to our own actions.

21. Initiating Damage Control

22. How the damage is sought to be controlled
By recognizing that
The current mode or model of development with focus on material growth and resource maximization is untenable in the long run. By continuing with the current model of development entire nature and hence obviously the entire human race itself is threatened at the level of existence itself.
And working towards
A development model or mode that focuses on holistic growth without resource exploitation and resource utilization rate accounting for the replenishment potential and waste absorbing potential of nature. A model that does not fail the test of time but sustain the challenges.

23. Sustainable Development
A model of development or growth for the betterment of humanity in particular and ecosystem in general that balances the resource extraction and waste generation rate with the replenishment potential of the earth.

24. History, Definition And Understanding of Sustainability
A glimpse of how the world has changed over the years and how the world community has responded with various initiatives.

25. World Per Capita GDP The changing world : Economy
Gross domestic product (GDP) refers to the market value of all officially recognized final goods and services produced within a country in a given period.
World Per Capita GDP

26. The changing world : Population

27. The changing world : Obesity

28. The changing world : C-Sections

29. The changing world : Rural migration

30. The changing world : CO2 Concentration

31. The changing world : Global Temperatures

32. The changing world : Glaciers Shrinkage

33. The changing world : Why Glaciers Shrinkage is Threatening ?
Most of it is FOSSIL Water

34. The changing world : Polar Ice Cap

35. 17 Species lost in the last 100 years
The changing world : Number of species lost
17 Species lost in the last 100 years

36. The changing world : Who is responsible?

37. Recognition of the problem : A giant step
First official recognition of the problem was in the year 1972 at Stockholm
“Declaration of the United Nations Conference on the Human Environment”
In the long evolution of the human race on this planet, a stage has been reached when, through the rapid acceleration of science and technology, man has acquired the power to transform his environment in countless ways and on an unparalleled scale.
The protection and improvement of the human environment is a major issue which affects the well-being of peoples and economic development throughout the world; it is the urgent desire of the peoples of the whole world and the duty of all Governments.
Man's capability to transform his surroundings, if used wisely, can bring to all people the benefits of development and the opportunity to enhance the quality of life. Wrongly or heedlessly applied, the same power can do incalculable harm to human beings and the human environment. We see around us growing evidence of man-made harm in many regions of the earth: dangerous levels of pollution in water, air, earth and living beings; major and undesirable disturbances to the ecological balance of the biosphere; destruction and depletion of irreplaceable resources; and gross deficiencies, harmful to the physical, mental and social health of man, in the man-made environment, particularly in the living and working environment.

38. History of Sustainable Development : Limits to Growth
The Limits to Growth
1972 book modeling the consequences of a rapidly growing world population and finite resource supplies.
Commissioned by the Club of Rome.
Authors : Donella H. Meadows, Dennis L.
Meadows, Jorgen Randers, and William Behrens III.
Interaction of exponential growth interacts with finite resources
“Unless some major change in the physical, economic, or social relationships that govern world development occurred, within 100 years, society would run out of the nonrenewable resources on which industry depends triggering a collapse of the world economy bring on massive unemployment, decreased food production . The collapse can only be avoided by an immediate limit on population and pollution, as well as a cessation of economic growth.”

39. History of Sustainable Development : The first meet
United Nations Conference on the Human Environment
[5 to 16 June 1972, Stockholm, Sweden]
First international meeting on the effect of human activities on the environment and on human lives. However, the term sustainable development was not explicitly framed.
The meeting agreed upon a
 Declaration containing 26 principles concerning environment and development
 An Action Plan with 109 recommendations
 A Resolution establishing UNEP [United Nations Environmental Programme]

40. History of Sustainable Development : The first meet; Resolutions & Dispute
United Nations Conference on the Human Environment
[5 to 16 June 1972, Stockholm, Sweden]
Cracks appear in negotiations and show up in the resolution
In the developing countries most of the environmental problems are caused by under-development. Millions continue to live far below the minimum levels required for a decent human existence, deprived of adequate food and clothing, shelter and education, health and sanitation. Therefore, the developing countries must direct their efforts to development, bearing in mind their priorities and the need to safeguard and improve the environment. For the same purpose, the industrialized countries should make efforts to reduce the gap themselves and the developing countries. In the industrialized countries, environmental problems are generally related to industrialization and technological development.
The developed countries should not expect those still developing to bear the burden of environmental concerns, and therefore, spurn their own development. "Poverty is the worst polluter“.
Indira Gandhi, Prime Minister of India

41. History of Sustainable Development : Bruntland Commission
World Commission on Environment and Development
[ Bruntland Commission ]
Our Common Future / Brundtland Report
11 December 1987
First official definition of sustainable development
Sustainable development is development that meets the needs of the present without compromising the ability of future generations to meet their own needs.
“Sustainable development is a process of change in which the exploitation of resources, the direction of investments, the orientation of technological development; and institutional change are all in harmony and enhance both current and future potential to meet human needs and aspirations”

42. Plan for achieving sustainable development in the 21st century
History of Sustainable Development : Earth Summit
United Nations Conference on Environment and Development
Earth Summit
June 2-14, 1992 , Rio de Janeiro, Brazil
It brought together the heads or senior officials of 179 governments and produced two international agreements, two statements of principles and a major action agenda on worldwide sustainable development:
The Convention on Climate Change - limits emissions of the greenhouse gases carbon dioxide (CO2) and methane (CH4).
The Convention on Biological Diversity - gives countries responsibility for conserving species diversity and using biological resources in a sustainable way.
The Rio Declaration and the Forest Principles - sets out the principles of sustainable development and pledges to reduce deforestation.
Agenda 21
Plan for achieving sustainable development in the 21st century

43. Agenda - 21 History of Sustainable Development : Agenda 21 Highlights
Is a comprehensive blueprint of action to be taken globally, nationally and locally by organizations of the UN, governments, and major groups in every area in which humans directly affect the environment. It however is a non binding agreement.
Section I: Social and Economic Dimensions
Includes combating poverty, changing consumption patterns, population and demographic dynamics, promoting health, promoting sustainable settlement patterns and integrating environment and development into decision-making.
Section II: Conservation and Management of Resources for Development
Includes atmospheric protection, combating deforestation, protecting fragile environments, conservation of biological diversity (biodiversity), and control of pollution.
Section III: Strengthening the Role of Major Groups
Includes the roles of children and youth, women, NGOs, local authorities, business and workers.
Section IV: Means of Implementation
Implementation includes science and technology transfer, education, finance mechanisms etc.

44. History of Sustainable Development : Agenda 21 Progress review [1997]

45. History of Sustainable Development : The Developed – Developing Divide
The poor and the rich share at least one inescapable common fate: they live on the same planet and depend on the same natural resources for their survival. But rich and poor live in two separate worlds. The poor, who to a large extent operate outside the money-based economy, have (especially in rural areas) close ties with the environment. The rich, who “create” and use the money-based economy, exploit the resources of the environment without really being part of it. There is consequently a fundamental opposition in the approach of rich and poor to the environment, one category contributing with varying degrees of violence to the destruction of our natural habitat, the other depending on it simply to survive.
Environmental damage, which often only represents a financial loss for the rich, is a much more serious matter for the poor. It is an issue of survival for them.

46. History of Sustainable Development : Kyoto Protocol
Kyoto Climate Change Protocol
December 1 – 11, 1997, Kyoto, Japan
Sustainable Development with specific agenda of Climate Change
Agenda 21 was legally non binding agreement. Most of the nations failed to indicate progress on the environmental front necessitating a LEGALLY BINDING AGREEMENT.
It sets binding targets for 37 industrialized countries and the European community for reducing greenhouse gas (GHG) emissions amounting to an average of five per cent against 1990 levels over the five-year period
Recognized that developed countries are principally responsible for the current high levels of GHG emissions in the atmosphere as a result of more than 150 years of industrial activity. A heavier burden was placed on developed nations under the principle of “common but differentiated responsibility” .
Countries are required to meet their targets primarily through national measures. However, the additional means of meeting respective targets by way of three market-based mechanisms are provided.
 Emissions trading
 Clean development mechanism
 Joint Implementation

47. History of Sustainable Development : Kyoto Protocol
CARBON TRADING allows countries that have emission units to spare - emissions allocated to them but not "used" - to sell this excess capacity to countries that are over their targets.
India and China are likely to emerge as the biggest sellers and Europe is going to be the biggest buyers of credits.
CLEAN DEVELOPMENT MECHANISM allows a country with an emission-reduction or emission- limitation commitment under the Kyoto Protocol to implement an emission reduction project in developing countries. Operational since 2006, the mechanism has already registered more than 1,650 projects and is anticipated to produce CERs amounting to more than 2.9 billion tonnes of CO2 equivalent in the first commitment period of the Kyoto Protocol, 2008–2012.
JOINT IMPLEMENTATION allows any developed country to invest in emission reduction projects in any other developed country as an alternative to reducing emissions domestically. In this way countries can lower the costs of complying with their Kyoto targets by investing in greenhouse gas reductions in an Annex I country where reductions are cheaper

48. History of Sustainable Development : Kyoto Protocol
Kyoto Protocol Ratification Status as of June 2009
Signed
Undecided
No intention to sign

49. History of Sustainable Development : Mockery of Kyoto Protocol
The US contains 4% of the world's population but produces about 25% of all carbon dioxide emissions.

50. History of Sustainable Development : Mockery of Kyoto Protocol

51. Millennium Development Goals Millennium Development Goals
History of Sustainable Development : The Millennium Summit
The Millennium Summit
September 6 – 8, 2000 , New York
Millennium
Development
Goals
Millennium
Development
Goals

52. Sustainability Redefined
Over a period of 30 years from Stockholm to New York Millennium summit, a fluctuations was seen in the degree of importance to be attached to economic growth, poverty eradication and environmental concerns due to arrival on the scene of developing and developed blocks. This necessitated a re-look the definition of sustainability.

53. Redefining Sustainability : An Overview
Limit To Growth of
Population / Economy
(Recognized due to
Resource dwindling)
World has both
rich and poor
with the poor far
outweighing the
rich in numbers
Curtailing of
Growth
Calling For
However
And
Affects the poor
more than the rich
and threatens their
survival and society
as a whole
However
Growth
Remains A
Problem
Also
Women and children
are the most and
worst affected
Affects investment in
technologies with
potential to solve
environmental
problems
Curtailing Growth
is no solution

54. Redefining Sustainability : The economic group was saying…..
Encouraging economic development and infrastructure also increases the capacity for change.
USA & G77

55. Concrete prescriptions, rules, and enforcement
Redefining Sustainability : The environmental group was saying…..
Concrete prescriptions, rules, and enforcement
must curb environmental degradation.
European Union

56. Sustainable development is about protecting the environment as well as
Redefining Sustainability : The societal group was saying…..
Sustainable development is about protecting the
environment as well as
economic and social justice.
Norway, Canada & Japan

57. Redefining Sustainability : Meanwhile the earth was saying…..

58. Sustainable Development : The new form

59. Sustainable Development : The new form

60. Sustainable Development : The three pillars : 2000 Millennium Summit
We reaffirm our commitment to achieve the goal of sustainable development. To this end, we commit ourselves to undertaking concrete actions and measures at all levels and to enhancing international cooperation, taking into account the Rio principles. These efforts will also promote the integration of the three components of sustainable development — economic development, social development and environmental protection — as interdependent and mutually reinforcing pillars.

61. Sustainable Development : An intelligent master stroke OR a grand compromise
Only time will tell.

62. Indicators of Sustainable Development
Formalization of the definition of sustainable development brought to fore the need to identify a monitoring mechanism. Identification of Indicators of development became the key and first necessity towards the same.

63. Indicators of Sustainable Development : What is an indicator?
In simple terms, an indicator is an entity that helps us understand where we are, which way we are going and how far we are from where we want to be . In other words it gives us our current position with respect to some reference.
Chapter 40 of Agenda 21 calls on countries and the international community to develop indicators of sustainable development.

64. CSD Indicators of Sustainable Development – 3rd edition
Indicators of Sustainable Development : The current version / Structure
CSD Indicators of Sustainable Development – 3rd edition
The CSD Indicators of Sustainable Development serve as reference for countries to develop or revise national indicators of sustainable. The previous two editions of the CSD indicators were published in 1996 and They have been intensively tested and applied by many countries around the world.
Structure of Indicator
DIVISION
THEME
SUB-THEME
INDICATOR

65. S O C I E T Y E C O N O M Y E N V I R O N M E N T 5 - THEMES
Indicators of Sustainable Development : 14 Themes
S O C I E T Y
E C O N O M Y
E N V I R O N M E N T
5 - THEMES
3 - THEMES
6 - THEMES
Poverty
Governance
Health
Education
Demographics
Economic
Development
Global Economic
Partnership
Consumption and
production
patterns
Natural hazards
Atmosphere
Land
Oceans, seas and
Coasts
Freshwater
Biodiversity

66. Theme Sub Theme Indicator
Indicators of Sustainable Development : Societal
Theme
Sub Theme
Indicator
Poverty
Income poverty
% of population living below poverty line.
Income inequality
Ratio of share in national income of highest to lowest quintile.
Sanitation
Proportion of population using an improved sanitation facility.
Drinking Water
Proportion of population using an improved water source.
Access to Energy
Share of households without electricity or other modern energy services.
Living Conditions
Proportion of urban population living in slums.
Governance
Corruption
% of population having paid bribes
Crime
Intentional homicides per 100,000 population

67. Theme Sub Theme Indicator
Indicators of Sustainable Development : Societal
Theme
Sub Theme
Indicator
Health
Mortality
Under-five mortality rate life expectancy
Health care delivery
Percent of population with access to primary health care facilities Immunization against infectious childhood diseases
Nutritional status
Nutritional status of children
Health status and
risks
Morbidity of major diseases such as HIV/AIDS, malaria, tuberculosis
Education
Education Level
Net enrolment rate in primary education
Adult secondary schooling attainment level
Literacy
Adult literacy rate
Demographics
Population
Population growth rate
Dependency ratio
Tourism
Ratio of local residents to tourists

68. Indicators of Sustainable Development : Continuous Update

69. Engineering And Sustainable Development
Engineering is a field that either directly or indirectly affects both humans and the ecosystem. Engineering has a major role to play in the aspect of sustainable development.

70. Sustainability and Engineering : Definition of 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”
Accreditation Board of Engineering & Technology

71. Sustainability and Engineering : Definition of Engineering
Knowledge
Activity To
Deliver
Constraints

72. Engineering is a web of Constraints
Sustainability and Engineering : Engineering is a web of constraints
Engineering is a
web of Constraints

73. Growth with constraints
Sustainability and Engineering : Demands of Sustainable Development ?
Growth with constraints

74. Sustainability and Engineering : Logically, engineers fit the bill.

75. Sustainability and Engineering : Logic apart, Responsibility ?
Engineering & Technology has become a part of every aspect of our life

76. Even a minor intervention
Sustainability and Engineering : Logic apart, Responsibility ?
World Population : 6,700,000,000
Even a minor intervention
towards improvement
can do wonders
1,000,000,000
15% of
population
4,600,000,000
60% of
population
1,416,338,245
21% of
population
1,200,000,000
18% of
population
1100 Billion
Liters
Petrol / Diesel
500 – 800
charge
discharge
cycles of
battery life
CRT : 0.25WPSI
LCD: 0.16 WPSI
Plasma : 0.30 WPSI
175 W Full Power
35 W Sleep Mode

77. Life Cycle Assessment of Crude Oil A Well To Wheel Assessment
Sustainability and Engineering : A case of fuel consumption by engines
Life Cycle Assessment of Crude Oil
A Well To Wheel Assessment
10 %
10 %
Energy Return On Energy Invested [ ERoEI ] = 5 : 1

78. Sustainability and Engineering : A case of fuel consumption by engines
1,000,000,000
1100 Billion
Liters
ERoEI = 5 : 1
2.5 Kg Carbon
per Kg Crude
1375 Billion
Liters
2750 Billion Kg Carbon

79. Sustainability and Engineering : A case of fuel consumption by engines
An average 1% improvement in the efficiency of the engine can give us a saving of about 45 Billion Liters of Oil per year converting to a reduction of about Billion Kg of Carbon Emissions into Atmosphere.

80. Sustainability and Engineering : Engineering, the key to sustainable development

81. Sustainability and Engineering : Light bulbs, a case of engineering intervention

82. Guiding Principles for Engineers
The guiding principles lay out a general direction an engineer can follow while moving towards sustainability and sustainable development. A total of 12 guiding principles are identified.

83. Look beyond your own locality and immediate future
Guiding principles for Engineers : 01
Look beyond your own locality and immediate future
Identify the potential positive and negative impacts of proposed actions, not only locally and soon but also outside our immediate local environment, organization and context, and into the future

84. Innovate and be creative
Guiding principles for Engineers : 02
Innovate and be creative
There cannot be a single “Mother of All” solutions. The situation is complex due to interconnectivity between society, economy and environment. Hence innovation and creativity is the key.

85. Seek a balanced solution
Guiding principles for Engineers : 03
Seek a balanced solution
Not just seek to balance the adverse and positive impacts on economic, social and environmental factors in the challenge we are addressing but seek gains in all three. This in a way is an attempt towards rectifying some previous mistakes.

86. Seek engagement from all stake holders
Guiding principles for Engineers : 04
Seek engagement from all stake holders
Society will ultimately say what is needed or wanted for any development, sustainable or otherwise. So reaching decisions in this area requires engagement of stakeholders to bring their different views, perceptions, knowledge and skills to bear on the challenge being addressed.

87. Make sure you know the needs and wants
Guiding principles for Engineers : 05
Make sure you know the needs and wants
It is important to recognize that many engineering challenges are driven by what people want to have – such as even better motor cars – rather than just what they need – a means of transport. In addition, ‘wants’ are often characterized as ‘needs’ when they are in fact just perceived needs, and a more modest solution may ultimately be acceptable.

88. Plan and manage effectively
Guiding principles for Engineers : 06
Plan and manage effectively
Express aims sufficiently clearly and in open ended terms. Seek to improve or at least maintain the existing sustainability practices. Ensure that the efforts and resources applied to tackle unsustainable practices remain proportional to the problem.

89. Give sustainability the benefit of doubt
Guiding principles for Engineers : 07
Give sustainability the benefit of doubt
When the outcome of an action is not certain, give the benefit of doubt to that practice which is more sustainable.

90. If polluter must pollute, then they must pay as well
Guiding principles for Engineers : 08
If polluter must pollute, then they must pay as well
The adverse polluting effects of any decision should in some way be paid for or compensated for by the proponent of an engineering project, scheme or development. The penalty must be some action beyond monitory. The most important thing however is, pollution as a possibility must be excluded.

91. Adopt a holistic “cradle to grave” approach
Guiding principles for Engineers : 09
Adopt a holistic “cradle to grave” approach
Use whole life cycle tools to improve decision making and wherever uncertainties exist keep as many future options as possible.

92. Do things right, having decided on the right thing to do
Guiding principles for Engineers : 10
Do things right, having decided on the right thing to do

93. Beware of cost cutting that disguises as value engineering
Guiding principles for Engineers : 11
Beware of cost cutting that disguises as value engineering
Sustainability comes with some cost. Avoid sacrificing the sustainability desires incorporated in the design when seeking cost reductions.

94. Practice what you preach
Guiding principles for Engineers : 12
Practice what you preach
One’s own everyday practices should not be at variance with what is being asked about of others. We must not expect from others what we cannot do.

95. Case Study of Nokia

96. Sustainability assessment of Mobile Phones – An initiative by NOKIA
Driver : European Commission’s Integrated Product Policy [IPP]
Theme : Reduce the environmental impacts from products throughout their life cycle, harnessing, where possible, a market-driven approach, within which competitiveness concerns are integrated.
A typical mobile phone, like many electronic products, consists of 500–1000 components. Most of these components are made up of a large variety of materials
and substances. The commercial sources of these components could be situated anywhere in the world, making supply management a key issue in attempting to control environmental impacts.
The examination in the study of the different phases of the life cycle of a mobile phone showed the complexity of its components and the large number of stakeholders involved in its life. The main phases are extraction and processing of raw materials, components manufacture, transport of components to the phone assembly plant, phone assembly, transport of the phones to the distribution network, use and, finally, end-of-life.

97. Sustainability assessment of Mobile Phones – An initiative by NOKIA – Findings
The use phase and component manufacture phase are the biggest contributors to life-cycle
In the use phase, the stand-by power of the charger – assuming it is left plugged in and not switched off – accounts for the majority of the environmental impacts.
In the component manufacturing phase, the energy consumption of the manufacturing processes account for the major portion of environmental impacts.
The most important environmental issue for a mobile phone, in all the life cycle phases, is energy consumption.
The Printed Circuit Board, Integrated Circuits and Liquid Crystal Display are the components with the highest environmental impacts
In the transportation phase, air freight accounts for almost all of the environmental impacts
The collection and proper management of the mobile phones (and accessories) at the end of their life is critical to prevent any material and substance dispersions to the environment. Positive environmental impacts are achieved by the recovery of metals, especially precious ones such as gold and platinum
From the perspective of a mobile system the energy consumption of radio base stations during the use phase is the most significant contributor to environmental impacts

98. Concluding Statement

99. Sustainability is all about giving up ownership and moving towards belongingness. The earth does not belong to us. We just belong to earth for a short duration in the long life span of earth.
Sustainability is about giving up wants in favor of needs.
Sustainability is about taking long term consequence into consideration when taking decisions.
Sustainability is all about owing up responsibility.

100. Signing Off With A Resolve
To Care
Thank You