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New Frontiers in Chemical Engineering: Impact on Undergraduate Education

New Frontiers in Chemical Engineering: Impact on Undergraduate Education. Esin Gulari Division Director Chemical and Transport Systems National Science Foundation. Outline. History of Chemical Engineering Strength-Weakness-Opportunity-Threat Analysis

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New Frontiers in Chemical Engineering: Impact on Undergraduate Education

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  1. New Frontiers in Chemical Engineering: Impact on Undergraduate Education Esin Gulari Division Director Chemical and Transport Systems National Science Foundation

  2. Outline • History of Chemical Engineering • Strength-Weakness-Opportunity-Threat Analysis • Chemical Engineering Workforce Data and Trends • CHE Frontiers activities/documents • CHE relative to other disciplines • New Curriculum

  3. History of Chemical Engineering • 1900 • Initial curriculum consisted of separate courses in chemistry and conventional engineering • Decade I (1905-1915) Industrial Chemistry Industrial Chemistry Hydraulics Metallurgy Surveying Electrochemistry Steam and Gas Tech. Chemical Manufacture

  4. History of Chemical Engineering • Decade II (1915-1925) • Decade III (1925-1935) Unit Operations Descriptive Geometry Unit Operations Materials and Energy Balances Contracts Materials & Energy Balances Reduction in Mechanics & Machine Design

  5. History of Chemical Engineering • Decade IV (1935-1945) • Decade V (1945-1955) CHE Thermo. CHE Thermodynamics Process Control Process measurement & control Industrial Chem. Mechanics More Physical Chem., Unit Operations Foreign Languages Applied Kinetics Applied Kinetics Reactor Design Metallurgy Process Design Machine Design Report writing & speech Steam and Gas Tech. Organic Chemistry

  6. History of Chemical Engineering • Decade VI (1955 -1965) • Decades VII – X (1965 -2005) Transport Phenomena Process Dynamics Process Engineering Transport Phenomena Graphics Physical Measurements Less Unit Ops. Less Material & Energy Balances Differential Equations Computer Programming Minor changes

  7. Evolution of CHE Curriculum Increasing Emphasis in Underlying Sciences Development of Unit Operations Decline in Industrial Chemistry 1915 1925 1935 1945 1955 1965

  8. Current Landscape of CHE • Strength: • Knowledge of processes on both molecular to macroscopic scales allows CHEs to work on the most exciting technology areas. • Weakness: • While CHE practice has evolved dramatically, the core curriculum has undergone minor changes in the past 40 years.

  9. Current Landscape of CHE • Opportunity: • To convey the excitement of CHE practice to students, to equip them to be versatile problem-solvers, to give them solid grounding in fundamentals and tools for engineering analysis and synthesis, illustrated by examples drawn from the breadth of industry and practice • Biology has become a more molecular and quantitative science. • There are new methods of incorporating new technology for education.

  10. Chemical Industry (CI) Trends • The CI is cyclical. • The CI is increasingly global. • Mergers of companies and product lines happen often. • Chemical companies are becoming life science companies and spinning off chemical units. • Virtual companies provide out-sourced services including research. • Time-to-market for new products has dramatically decreased. • New CHE workforce can expect to have multiple jobs in their careers.

  11. Workforce Issues • Public perception of “chemical” is negative. • Potential students don’t know the role and contributions of CHEs in emerging technologies (biotech., nanotech., infotech.) • Enrollments are small relative to other engineering disciplines • Enrollments appear to be cyclic. • Employment opportunities are diverse. • Other disciplines are embracing molecular engineering.

  12. U.S. CHE Degrees 1966-2000 Science & Engineering Indicators (NSF 02-327)

  13. Initial Placement for BS 00-01 Other Graduate/Professional Unemployed Industry Government Industry Unknown Employment AICHE Career Services

  14. Industrial Employment of BS Other Business services ES: Environmental ES: Research ES: Design&Construction Pulp & Paper Biotech/Pharma Materials Food/Consumer Fuels Electronics Chemical Percent Industrial Employment of BS CHEs AICHE Career Services

  15. BS Starting Salaries CHE leads all fields Boston Globe, April25, 2003

  16. Chemical Engineering Frontiers(Graduate Education and Research) • Beyond Molecular Frontier: Challenges for Chemistry and Chemical Engineering [Structures and Cultures of CHEM & CHE Disciplines: The Common Chemical Bond] • NRC Report with six workshop documents • The Environment • National Security and Homeland Defense • Materials Science and Technology • Energy and Transportation • Information and Communications • Health and Medicine

  17. Chemical Engineering Frontiers(Undergraduate Education and Curriculum) • CCR/NSF Curriculum Workshops • 2002 Council of Chemical Research Annual Meeting, CHE Department Chairs Session • Three planning workshops, “New Frontiers in CHE” supported by NSF • Workshop I: Orlando, Jan., 2003 • Workshop II: Austin, April 2003 • Workshop III: Cape Cod, June 2003 [Led by Bob Armstrong, CHE Dept. Chair, MIT] http://www.ccrhq.org/ Chemical Engineering Curricula

  18. Chemical Engineering at the Center Materials Science Computer Science. Physics Electrical Eng. Chem. Eng. Chemistry. Civil Eng. Biology. Mechanical Eng.. Mathematics. Chemical Engineering is connected to many disciplines

  19. Opportunities for New Curriculum • CHE is uniquely positioned at the interface between molecular sciences and engineering. It can significantly contribute to emerging technologies: • Alternate/renewable energy • Better health • National security • Improved environment

  20. Elements of New Curriculum • The enabling sciences are: • Chemistry, Biology, Physics, Mathematics • Core chemical engineering principles: • Molecular transformations • Multi-scale analysis • Systems approach to solving problems • Chemical engineering design contains: • Process design • Product design

  21. The Frontier CHE Curriculum • Decade XI (2005 -2015) Molecular Transformations Multi-scale Analysis Process/Product Design Molecular engineering ?? Biology ?? Product Design ?? Systems Analysis ?? Increasing emphasis in biology and integration 2005 2015

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