Class Project Report, May 2003 ME/CE 449 Sustainable Air Quality Causality of US Sulfur Production and Emission Trends By James Agan, Kate Miller, Cat.

Slides:

Advertisements

Similar presentations

Clear Thinking on Nuclear: Hydrogen fuel 1.Demand for hydrogen is large and rapidly increasing 2.Cost effective with no gas emissions that pollute the.

Advertisements

SULFUR AND NITROGEN EMISSION TRENDS FOR THE U.S. by Rudolph B. Husar Summary Report by Sarah Lahr ME 449 Sustainable Air Quality 2/4/02.

Class Project Report Sustainable Air Quality, EECE 449/549, Spring 2008 W ashington University, St. Loui, MO Carbon Footprint of Danforth Campus Instructors:

Class Project Report, May 2003 ME/ChE 449 Sustainable Air Quality Causality of US Sulfur Production and Emission Trends By James Agan, Kate Miller, Cat.

Integrated SOx Emission Trend Estimation for the Sustainability Transition Students K. Miller, C. Reid, J. Agan, J. Reynolds Instructor Rudolf B. Husar.

Sulfur Emission Trends and Forecast Data compiled, analyzed, and presented by: Chris Bamat Sandy Fergus Ryan Mackin Chris Rolland Presented on May 1, 2006.

Energy Consumption and Energy/$ Since 1950, the energy consumption has increased at similar rates in all sectors Energy use/$ is the largest in the transportation.

Trends of Mercury Flow over the US with Emphasis on Florida Progress Report by Janja Husar and Rudolf Husar Submitted to Thomas Atkeson, Florida DEP May.

Analysis Frameworks for Sustainability: Linking Energy and the Environment Rudolf B. Husar Director, Center for Air Pollution and Trends Analysis (CAPITA)

Class Project Report, May 2003 ME/CE 449 Sustainable Air Quality Causality of US Sulfur Production and Emission Trends By James Agan, Kate Miller, Cat.

Analysis Framework III – Causality Loop Economic Development with Due Care of the Environment Health-Welfare Energy-Env. Socio-Economic Science & Eng.

Class Project Report Sustainable Air Quality, EECE 449/549, Spring 2009 Washington University, St. Louis, MO Transportation Carbon Emissions Model - Midterm.

Trends of Mercury Flow over the US with Emphasis on Florida Progress Report by Janja Husar and Rudolf Husar Submitted to Thomas Atkeson, Florida DEP May.

Class Project Report, Spring 2014 E 449/549 Sustainable Air Quality Sustainability Transition of Sulfurous Air Quality Emissions and Causality.

DRAFT, April 24 –All data are preliminary, need verification Class Project Report Sustainable Air Quality, EECE 449/549, Spring 2008 Washington University,

Class Project Report, Spring 2014 E 449/549 Sustainable Air Quality Sustainability Transition of Sulfurous Air Quality Emissions and Causality.

CLASS PROJECT REPORT SUSTAINABLE AIR QUALITY, EECE 449/549, SPRING 2010 WASHINGTON UNIVERSITY, ST. LOUIS, MO INSTRUCTORS: PROFESSOR RUDOLF B. HUSAR, ERIN.

Class Project Report Sustainable Air Quality, EECE 449/549, Spring 2009 Washington University, St. Louis, MO The Energy Analysis and Carbon Footprint of.

MAGEEP. Sustainable Development – Causality Loop Economic Development with Due Care of the Environment Systems approach: linking human activities and.

Class Project Report Sustainable Air Quality, EECE 449/549, Spring 2008 Washington University, St. Louis, MO The Carbon Footprint of Danforth Campus and.

Analysis Frameworks for Sustainability: Linking Energy and the Environment EECE Seminar, Friday, November 2, 2007, 11:00am, Lopata 101, Washington University.

Class Project Report Sustainable Air Quality, EECE 449/549, Spring 2008 Washington University, St. Louis, MO The Carbon Footprint of Danforth Campus and.

Sustainable Air Quality ME 449, Health Care The physicians evaluate a patient’s health by measuring the temperature, pulse rate, the cholesterol.

Class Project Report Sustainable Air Quality, EECE 449/549, Spring 2009 Washington University, St. Louis, MO The Energy Analysis and Carbon Footprint of.

Class Project Report Sustainable Air Quality, EECE 449/549, Spring 2008 Washington University, St. Louis, MO The Carbon Footprint of Danforth Campus and.

Sensory-Motor Response to Changes Regardless whether the Earth is considered ‘healthy’ or ‘sick’, the inevitable and unforeseeable environmental changes.

Class Project Report Sustainable Air Quality, EECE 449/549, Spring 2009 Washington University, St. Louis, MO Transportation Carbon Emissions Model - Midterm.

Trends of Mercury Flow over the US with Emphasis on Florida.

Earth’s Changing Environment Lecture 15 Energy Conservation.

Global Distribution and Transport of Air Pollution Presented at The Haagen-Smit Symposium: From Los Angeles to Global Air Pollution Lake Arrowhead, April.

Class Project Report Sustainable Air Quality, EECE 449/549, Spring 2008 W ashington University, St. Loui, MO Carbon Footprint of Danforth Campus Buildings.

Sustainable Development (NAS) A process of reconciling society’s developmental needs with the environmental limits over the long term. It includes differing.

Science and the Environment Chapter 1 Section 1: Understanding Our Environment Section 2: The Environment and Society Chapter 1 Section 1: Understanding.

Anthropogenic Mercury Flow in the US and Florida, Janja D. Husar and Rudolf B. Husar Washington University, St. Louis, Missouri Supported by.

Distribution of Fuel By Sector: Past and Present Class Project ME Sustainable Air Quality Spring 2007 Matt Fishman Instructor: R. Husar.

Coal Production and Consumption in the United States Adam Shaw ME 449 February 11, 2002.

Relationship Between Economic Activity and SO x Emissions: Version 5 April 22, 2002 Class Project Me 449 Sustainable Air Quality Y. Kuwabara,

Anthropogenic Mercury Flow in the US and Florida, Janja D. Husar and Rudolf B. Husar Washington University, St. Louis, Missouri Supported by.

Sustainable Air Quality Michael Roberts February 4, 2002.

Oil and other are the two primary contributors for VOC. Both of them peaked around 1970 and have both been on the decline since The level of pollution.

Carbon Footprint of University-Managed Travel During 2008 Fiscal Year Alex Clark Stephen Feinberg Mark Henson Janna Lambson Kharel Thompson.

Anthropogenic Mercury Flow in the US and Florida, Janja D. Husar and Rudolf B. Husar Washington University, St. Louis, Missouri Supported by.

Boilers Present By: Jason Gillier 4M-H. OBJECTIVE: To provide the audience with a brief, but concise overview of what boilers are and there components.

Anthropogenic Mercury Flow in the US and Florida, Janja D. Husar and Rudolf B. Husar Washington University, St. Louis, Missouri Supported by.

Population - Energy/Goods Consumption– Materials Flow - Emissions SUV/Truck Bus Metro Electric Hydrogen/Other Carbon PMT Fuels (FM), j Emission (EM), k.

Class Project Report, May 2005 ME/ChE 449 Sustainable Air Quality Highway Transportation: Trends from 1970 to 2002 and Beyond By Scott Kaminski Instructor.

Class Project Report Sustainable Air Quality, EECE 449/549, Spring 2008 Washington University, St. Louis, MO The Carbon Footprint of Danforth Campus and.

DRAFT, April 14 –All data are preliminary, need verification Class Project Report Sustainable Air Quality, EECE 449/549, Spring 2008 Washington University,

Class Project Report, Spring 2014 E 449/549 Sustainable Air Quality Sustainability Transition of Sulfurous Air Quality Emissions and Causality.

Analysis Frameworks for Sustainability: Linking Energy and the Environment Rudolf B. Husar Director, Center for Air Pollution and Trends Analysis (CAPITA)

SULFUR AND NITROGEN EMISSION TRENDS FOR THE U.S. Yu Kuwabara Submitted to Prof. Husar Sustainable Air Qualtiy

Sustainable Air Quality ME 449, Health Care The physicians evaluate a patient’s health by measuring the temperature, pulse rate, the cholesterol.

Consequences of Ecosystem Changes. How and what to Control?? Analysis Framework III – Causality Loop Economic Development with Due Care of the Environment.

Class Project Report, May 2004 ME/ChE 449 Sustainable Air Quality Sustainability Transition, : Possible role of the Hydrogen Economy By Andrew.

Sustainable Development (NAS) A process of reconciling society’s developmental needs with the environmental limits over the long term. It includes differing.

Sulfur and Nitrogen Emission Trends for the U.S. By: Brian Ponczak January 31, 2002 Sustainable Air Quality.

Class Project Report Sustainable Air Quality, EECE 449/549, Spring 2008 Washington University, St. Louis, MO The Carbon Footprint of Danforth Campus and.

Class Project Report, May 2003 ME/CE 449 Sustainable Air Quality Causality of US Sulfur Production and Emission Trends By James Agan, Kate Miller, Cat.

Objectives Explain how the rate of human population growth is determined and compare the rates of growth over the last 100 years Distinguish between people.

Class Project Report Sustainable Air Quality, EECE 449/549, Spring 2008 W ashington University, St. Loui, MO Carbon Footprint of Danforth Campus Buildings.

Class Project Report Sustainable Air Quality, EECE 449/549, Spring 2009 Washington University, St. Louis, MO Transportation Carbon Emissions Model - Midterm.

I. Resources of Western Europe This region has become successful and wealthy because of its natural resources, such as fertile soil, water and fuels. A.

Energy Information Administration 25th Anniversary of the 1973 Oil Embargo 25th Anniversary of the 1973 Oil Embargo Energy Trends Since the First Major.

Created by: Carrie Rhein - Hazelwood Central High School 17.3 Harmful Effects of Fossil Fuels.

Relationship Between Economic Activity and Pollution Emissions Class Project Me 449, 2002 Y. Kuwabara, S. Lahr, B. Ponczak, M Roberts, A. Shaw Instructor:

Class Project Report, Spring 2014 E 449/549 Sustainable Air Quality Sustainability Transition of Sulfurous Air Quality Emissions and Causality.

Class Project Report Sustainable Air Quality, EECE 449/549, Spring 2008 W ashington University, St. Loui, MO Carbon Footprint of Danforth Campus Instructors:

Instructors: Professor Rudolf B. Husar, Erin M. Robinson

Dr. Tanveer Iqbal Associate Professor,

Env. Issues Ch. 1 Sec. 1.

Presentation transcript:

Class Project Report, May 2003 ME/CE 449 Sustainable Air Quality Causality of US Sulfur Production and Emission Trends By James Agan, Kate Miller, Cat Reid, Jason Reynolds Instructor Rudolf B. Husar Washington University, St. Louis, MO

Instructions Alan: 3, 6, 10, 11, 12 Kate: Cat: 4, 5, 14, 15, 16 Jason:7, 8, 9, 13, 24 For each slide, add a very concise but informative description; 2-3 bullets It should contain key facts or observations Enter these under the slide in the ‘speakers note’

Population - Energy/Goods Consumption– Materials Flow - Emissions E k =  c jk EM j =   b ij c jk GE i =    a i b ij c jk P Industr. Energy Transp. Energy ResCom.Engy Coal Oil GasElectric Energy SOx NOx HC PM Goods &Energy,(GE) iFuels&Mater.(FM), j Emission (EM), k Ind. Chemicals Industr. Goods Pop., P Metals Mercury a i Consump./Person b ij Fuels/Energy c jk Emission/Fuel- jjiiij Consumption of Goods and Energy:GE =  a i P Fuels and Materials Flow:FM =   a i b ij P Emission of Pollutants:EM =    a i b ij c jk P Industrial Prod. Transportation ResComercial EconMeasure(EM)

US Population Trends

Regional Population Projections Cat, place here a regional trend relative to 1995 to see regional growth rates Use this map to show regions

National Income by Industry Group/Person Fraction of Total Income Trend by Ind. Group 1970 = 1

Coal Production and S Content

Sulfur Transfer by Fuels and Minerals: Theory

Coal Sulfur Flow in 1980 and 1998

US Coal Production by Region Coal production in the US occurred over five major producing regions. The coal production over the eastern US has remained roughly constant throughout the century. The sharp increase since the 1980s is due to the addition of western coal.

Trend of Average Coal S Content

Flue Gas Desulfurisation (FGD) of El. Util. Coal

Sulfur Flow Diagram (Tentative) Mineral MiningProductionConsumption AirLandWater S Stocks Exp/Imp Raw Fuel MiningRefiningCombustion Minerals Flow for Goods Metals, Frasch, Pyrites Fuels Flow for Energy Coal, Oil, Gas Exp/Imp Proc Ex/Im RawEx/Im Processed Exp/Imp Air Ex/Im Water S as PollutionS as Goods

US Industrial Sulfur: Supply and Demand Trend US S Budget S Stocks Exp/Imp US S Supply US S Demand Source

Total S Mobilized and Recovered Mobilized in Fuels Mobilized in Minerals Recovered from Fuels & Min.

Energy Consumption and Energy/$

SOx Emission Factor (Sox/Energy)

SOx Emission Trend By Industry Group and by Fuel/Material

Electric Utility & Metals Smelting

Industrial

Commercial-Residential

Transportation

SOX Emission Factors for Industry Groups