Process and Reaction Engineering
CONTACTS
Name |
Email |
Phone |
Room |
Luke E. K.
Achenie |
lachenie@nsf.gov |
(703) 292-7030 |
565.25 S |
PROGRAM GUIDELINES
Apply to PD 13-1403 as follows:
For full proposals submitted via FastLane:
standard Grant Proposal Guidelines apply.
For full proposals submitted via Grants.gov:
NSF Grants.gov Application Guide; A Guide for the Preparation and Submission of NSF Applications via Grants.gov Guidelines apply
(Note: The NSF Grants.gov Application Guide is available on the Grants.gov website and on the NSF website at:
http://www.nsf.gov/publications/pub_summ.jsp?ods_key=grantsgovguide)
A revised version of the NSF Proposal & Award Policies & Procedures Guide (PAPPG),
NSF 11-1,
was issued on October 1, 2010 and is effective for proposals submitted, or
due, on or after January 18, 2011. Please be advised that the guidelines contained in
NSF 11-1
apply to proposals submitted in response to this program description. Among
the significant changes are revisions to the requirements regarding cost sharing and
data management. Detailed information about these changes is available in
NSF 11-1
and at
http://www.nsf.gov/bfa/dias/policy/papp/papp11_1/progdesc.jsp.
DUE DATES
Full Proposal Window: August 15, 2013
-
September 17, 2013
SYNOPSIS
The Process and Reaction Engineering program supports fundamental and applied research on: - Rates and mechanisms of important classes of catalyzed and uncatalyzed chemical reactions as they relate to the design, production, and application of catalysts, chemical processes, biochemical processes, and specialized materials
- Chemical and biochemical phenomena occurring at or near solid surfaces and interfaces
- Electrochemical and photochemical processes of engineering significance or with commercial potential
- Design and optimization of complex chemical and biochemical processes
- Dynamic modeling and control of process systems and individual process units
- Reactive processing of polymers, ceramics, and thin films
- Interactions between chemical reactions and transport processes in reactive systems, and the use of this information in the design of complex chemical and biochemical reactors
The Process and Reaction Engineering program funds research in: chemical and biochemical reaction engineering, process design and control, and reactive polymer processing. Within these three areas, research supported is focused as follows: - Chemical Reaction Engineering - the area encompasses the interaction of transport phenomena and kinetics in reactive systems and the use of this knowledge in the design of complex chemical and biochemical reactors. Focus areas include non-traditional reactor systems such as membrane reactors, microreactors, and reactions in supercritical fluids; novel activation techniques such as plasmas, acoustics, and microwaves; and multifunctional systems synthesis such as "smart" molecules, "chemical laboratory on a chip," "chemical factory on a chip" concepts, bioreactor design and bioprocess optimization, and fermentation technology. The program also supports new approaches for generating energy from renewable resources as well as optimizing new approaches in all areas such as developing atomic layer deposition for microelectronic devices.
- Process Design and Control - these areas encompass the design and optimization of complex chemical and biochemical processes and the dynamic modeling and control of process systems and individual process units. High priority research topics include simultaneous product and process design, including bioprocesses; increased plant efficiency by algorithms that communicate across design levels and incorporate multiple criteria such as profitability, safety, operability, environmental sustainability, and societal concerns; and new sensor development to measure composition, product properties, morphology, etc. Systems approaches that span and optimize across multiple scales, from nano to mega, and integrate planning and scheduling and the globalization of the industrial applications are also of interest to the program. Utilization of the latest in cyberinfrastructure resources including hardware at the tera- and peta-scale is encouraged.
- Reactive Polymer Processing - program scope is limited in the polymerization area to research that integrates synthesis (chemical reaction of monomers to form polymer chains or complexes) and processing steps (steps that orient and anneal polymer melts and affect the long range conformations and consequently their properties). Typical projects are in the areas of emulsion and miniemulsion polymerization, reaction injection molding, etc. Program focus is on addressing environmental concerns while producing tailor-made molecules and materials.
The duration of unsolicited awards is generally one to three years. The average annual award size for the program is $100,000. Proposals requesting a substantially higher amount than this, without prior consultation with the Program Director, may be returned without review. Innovative proposals outside of these specific interest areas can be considered. However, prior to submission, it is recommended that the PI contact the Program Director to avoid the possibility of the proposal being returned without review. Additional Program Information - 1403: (e.g., Areas of Research, Research Highlights, Conferences and Workshops, Program Director Information, etc.) --------------------------------------------------------------------------------------------------- INFORMATION COMMON TO MOST CBET PROGRAMS Proposals should address the novelty and/or potentially transformative nature http://www.nsf.gov/about/transformative_research/faq.jsp of the concept being proposed, compared to previous work in the field. Also, it is important to address why the proposed work is important in terms of engineering science, as well as to also project the potential impact on society and /or industry of success in the research. The novelty or potentially transformative nature of the research should be included, as a minimum, in the Project Summary of each proposal. Proposals submitted to this program are subject to the scope of the program's description and the availability of funds. Decisions about particular proposals are often very difficult to make and factors other than reviewer comments and ratings enter into the decision. Maintaining appropriate balance among subfields, the availability of other funding, the total amount of funds available to the program, and general Foundation policies and priorities are also important decision factors. Faculty Early Career Development (CAREER) program proposals are strongly encouraged. Award duration is five years. The submission deadline for Engineering CAREER proposals is in July every year. Please see the following URL for more information: http://www.nsf.gov/funding/pgm_summ.jsp?pims_id=503214 Proposals for Conferences, Workshops, and Supplements: Proposals involving these activities should ideally be submitted during the regular annual proposal window. Grants for Rapid Response Research (RAPID) and EArly-concept Grants for Exploratory Research (EAGER) are also considered when appropriate. Please note that proposals of these types must be discussed with the Program Director before submission. Further details are available in the Proposal and Award Policies and Procedures Guide (PAPPG) download. Unsolicited proposals received outside of the Announced Proposal Window dates will be returned without review. .
THIS PROGRAM IS PART OF
Chemical, Biochemical, and Biotechnology Systems
What Has Been Funded (Recent Awards Made Through This Program, with Abstracts)
Map of Recent Awards Made Through This Program
News
Discoveries
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