Research proposal chemical engineering process

The student is required to have the graduate coordinator sign-off on the proposal to ensure it meets the department requirements prior to scheduling the proposal defense with the department graduate secretary. Ideally, this should be done at least two weeks prior to the anticipated defense date.

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This information should be distilled down into an efficient, written proposal which is double-space, 12 pt font and is as short as possible while covering the requisite information.

A reasonable target for the proposal is pages, excluding references and appendix material. The proposal cannot exceed 50 pages. All tables, graphs, figures, diagrams, and charts must be included within the page limit and should be, where possible, blended into the proposal text.

The following format and page distribution is recommended. Substantial published information exists on writing NIH proposals, which may be of use to students learning to write their first proposals. Specific Aims. What do you intend to do? List the broad, long-term objectives and what the specific research proposed in this application is intended to accomplish.

State any hypotheses to be tested. Recommended: pages. Background and Significance Why is the work important? Briefly sketch the background leading to the present application, critically evaluate existing knowledge, and specifically identify the gaps that the project is intended to fill. State concisely the importance and relevance of the research described in the proposal by relating the specific aims to the broad, long-term objectives.

Preliminary Studies. What have you already done? Provide an account of your preliminary studies pertinent to the proposed research. This information should help to establish the feasibility of the proposed project and your experience and competence to pursue the proposed project. Research Design and Methods How are you going to do the work?

Describe the research design and the procedures to be used to accomplish the specific aims of the project. Include how the data or other results will be collected, analyzed, and interpreted.

Describe any new methodology and models and their advantages over existing practices. Discuss the potential difficulties and limitations of the proposed procedures and alternative approaches to achieve the aims.Preliminary Proposal Due Date s required due by 5 p. Synopsis of Program: Creating effective solutions to our most pressing environmental and sustainability challenges requires imaginative thinking - the kind that evolves when researchers from disparate fields, expertise, or perspectives fully immerse themselves in work toward a common goal.

The report further states, "The challenges provide focal points for evolving environmental engineering education, research, and practice toward increased contributions and a greater impact. Implementing this new model will require modifications in educational curriculum and creative approaches to foster interdisciplinary research on complex social and environmental problems. A brief review of convergence research concepts and models can be found on the NSF website - Convergence Reports and References.

Accordingly, the Environmental Convergence Opportunities in Chemical, Bioengineering, Environmental, and Transport Systems ECO-CBET solicitation will support fundamental research activities that confront vexing environmental engineering and sustainability problems by developing foundational knowledge underlying processes and mechanisms such that the design of innovative new materials, processes, and systems is possible. Projects should be compelling and reflect sustained, coordinated efforts from highly interdisciplinary research teams.

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A key objective of the solicitation is to encourage dialogue and tightly integrated collaborations wherein the chemical process systems, transport phenomena, and bioengineering communities engage with environmental engineering and sustainability experts to spark innovation and arrive at unanticipated solutions.

Furthermore, training the future workforce to successfully engage in discipline-transcending research will support continued innovation toward surmounting the complex environmental and sustainability challenges facing our global community. These interests are outlined in the "core" program descriptions:. Teams should be constructed such that expertise is both complementary and distinct, drawing inspiration from the CBET-supported research communities see above programmatic clusters.

Creative collaborations between research communities that do not typically intersect are highly encouraged. At least three named investigators must be identified, each of whom must possess a unique perspective or skillset that motivates the proposed approach es.

Teams may also wish to consider, as appropriate, including individuals with expertise such as manufacturing, other sciences, especially social, behavioral, and economic sciences, or otherwise to extend the impact of the work. While this solicitation is not restricted to a specific environmental engineering and sustainability research topic, the current solicitation emphasizes research topics related to: 1 greenhouse gas mitigation, 2 managing the nitrogen cycle, and 3 sustainable water purification and resource recovery systems.

Assuming sufficient funding is provided in the NSF budget, it is anticipated this competition will continue annually. Research topic priorities are subject to change in subsequent years. Budgets should be commensurate with the scope of the proposed research. Pending the availability of funds, awards have the potential to be renewed once for a total of eight years of support. Renewal of awards will be subject to a competitive merit review process. Please note that the following information is current at the time of publishing.

See program website for any updates to the points of contact. Christina Payne, telephone:email: eco-cbet nsf. Bruce K.

NSF Fellowship Research Proposal

Hamilton, telephone:email: eco-cbet nsf. Robert McCabe, telephone:email: eco-cbet nsf. Steven W. Peretti, telephone:email: eco-cbet nsf. Brandi Schottel, telephone:email: eco-cbet nsf. Shahab Shojaei-Zadeh, telephone:email: eco-cbet nsf. Catherine Walker, telephone:email: eco-cbet nsf. The number of awards will depend on the availability of funds and the quality of the proposals. The awards will be four-year awards and may be renewable for an additional four years, depending on the availability of funds and a competitive merit review process.

A minimum of one PI and two co-PIs must participate in each proposal.The Thesis Proposal Examination consists of the preparation of a written research proposal 15 pages maximum and an oral presentation and defense of the same before a faculty committee.

Process Design Documents for Chemical Engineers

The topic, magnitude and significance of the proposed research should be suitable for the ensuing doctoral program. Failure to take the thesis proposal exam in a timely fashion, absent approval of a petition to the faculty for special consideration, constitutes a lack of satisfactory progress toward the PhD degree and constitutes grounds for removal from the PhD program.

After scheduling the exam, the candidate informs the graduate program office by completing and submitting the Request for Thesis Proposal Examination Form. A one-page Project Summary for the written research proposal must be submitted with the Written Proposal. The Written Proposal and Project Summary must be distributed to the Graduate Program Office and the committee members at least one week in advance of the scheduled examination date.

A reminder of the various due dates will be sent to the student and committee after the examination is scheduled. The examination consists of the preparation of a written research proposal and an oral presentation and defense of the same before the Thesis Proposal Examination Committee.

At the oral examination, the candidate will present a minute summary of the research proposal and subsequently be asked questions on the proposal and related matters. The total time for the examination is typically 60—90 minutes. The examining committee will rate the written proposal and oral presentation as Excellent, Very Good, Good, Fair or Poor and provide a few comments to explain the basis for the rating.

A rating of Good signifies a proposal and presentation that just meets minimum standards and is the lowest possible passing score. These ratings and comments will be shared with the student and given to the graduate office. Success on the examination fulfills one of the requirements for the PhD degree. A student who does not pass the thesis proposal exam in their first attempt may take it a second time but no later than October Thesis Proposal Exam Results Report. Introduction including a statement of the problem, purpose and significance of the research.

Research Areas

Background including a literature survey and a description of research already performed by the applicant. WP: The literature review should be selective and critical. OE: The applicant is expected to be intimately familiar with the relevant literature, the opinions of previous workers in the subject, and to be critical of shortcomings in earlier work. Description of Proposed Research including method or approach and expected difficulties.

research proposal chemical engineering process

The Project Description should provide a clear statement of the work to be undertaken and must include: objectives for the period of the proposed work and expected significance; relation to the present state of knowledge in the field and to work in progress at Michigan and elsewhere. The Project Description should outline the general plan of work, including the broad design of activities to be undertaken and, where appropriate, provide a clear description of experimental methods and procedures.

WP: A specific research program should be put forth e. OE: The applicant is expected to display a thorough grasp of the physics, biology, chemistry, mathematics, etc. The methods used by others or proposed to be used should be thoroughly understood.

A timetable for conducting and reporting the research: The timetable should be clearly based upon the scope of the work described in the description of the proposed research. List of references.

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Each reference must include the names of all authors in the same sequence in which they appear in the publicationthe article and journal title, book title, volume number, page numbers and year of publication.With modern facilities, nine research centres and groups working in the areas of Chemical, Food Science and Biomolecular and Process Engineering research, the School of Chemical Engineering is a vibrant environment.

Dr Peter R. They can be easily modified with the toolkit of bioorganic chemistry and are particularly attractive because of their degradability and biocompatibility. Since they are structurally well-defined biopolymers they can be used for the formation of multifunctional nanomaterials, for example for the delivery of therapeutic drugs or being part of advanced molecular machines.

Nanomedicine promises to improve drug bioavailability, pharmacokinetics, and efficacy, all of which can potentially reduce toxicity and side effects of spinal cord injury drugs. This project pursues a novel approach that combines nanotechnology with proven neurobiological principles to selectively release drugs in targeted neurons responsible for respiratory functions.

The nanotherapeutic design consists of targeting proteins, chemically conjugated to a nanocarrier, which in turn is chemically conjugated to spinal cord injury drugs. Through the use of retrograde transport proteins, the nanoconjugate is taken up by axon terminals and transported only to respiratory neurons and not to any other neuron centers.

The primary objective of the project is to induce functional recovery with a fraction of the systemic dose by the targeted approach using retrograde transport proteins. In addition, we aim to achieve persistent functional recovery after only one injection. Our effort is part of an accelerating trend to translate basic nanoscience discoveries into nanotherapeutic products.

Key techniques: targeted drug delivery, retrograde transport protein, bioconjugation chemistry, nanomaterials characterization, spinal cord injury medicine, translational nanomedicine. Environment: you will work with Professor Mao and her experienced team of researchers in a highly collaborative and interdisciplinary environment.

For further information please contact Professor Mao. Nanowire sensors promise to be the next generation building block for ultra-sensitive and ultra-selective detection of chemical species. However, transitioning nanowire sensors from the laboratory into economical devices has proven problematic. Current manufacturing processes do not scale well in terms of precision, consistency, and yield, and are too expensive to justify commercial development.

There is a critical unmet need for enabling technologies for precision manufacturing of nanosensor devices. The overall goal of the project is to synthesize nanowire crystals of charge-transfer salts CTS-NWs directly on electronic substrates by seed-mediated electrocrystallization for precision manufacturing of nanosensor devices.

We hypothesize that CTS-NWs will nucleate and grow on the nanoelectrodes and their size and morphology will be controlled by those of the electrodes. The specific objectives are: 1 to evaluate the effect of electrode size on the electrocrystallization of CTS-NWs; 2 to study the electrocrystallization of CTS-NWs using faceted metal nanoparticles as nucleation seeds; and 3 to demonstrate precision manufacturing of CTS-NW sensors using seed-mediated electrocrystallization on patterned nanoelectrodes.

Key techniques: seed-mediated nucleation, nano-electrochemistry, microelectrodes, charge-transfer salt crystallization, nanomaterials characterization, chemical sensors.

Nanotechnology has emerged as a promising approach for precision diagnosis and treatment of life-threatening diseases. Towards the aim of developing safe and efficacious nanoparticle systems, my group utilises interdisciplinary approaches that bring together material chemistry, biomedical engineering and nanotechnology to synthesise functional nanoparticles, optimise their biomedical properties, and develope smart nanoparticles and advanced delivery strategies.

There are three major interests of our research:. Research interest 1: Targeted, controlled and selective drug delivery system Developing advanced drug delivery systems where nanoparticles are able to target the specific biological site, and function as both drug carriers and drug precursors, which not only transport the loaded drug molecules to the targeted biological site, but also ensure that the nanoparticles do not damage normal tissues until reaching the target, thereby minimizing the toxicity to normal tissues and maximizing the therapeutic efficacy.

Research interest 3: Multifunctional bioactive nanoparticles Developing inorganic nanoparticles with multiple and state-of-the-art therapeutic and diagnostic modalities. Ingestible sensors have been predicted to become one of the most widespread diagnostic tools within the next decade.

research proposal chemical engineering process

These capsules contain chemical sensors, electronic micro-processors, batteries and transmission systems that can continuously send out information from the chemical components in the gut of the patients to mobile phones. The change of the received profiles from sensors can be associated with the gut or lung disorders.

In addition to the diagnosis of such disorders, the impact of food and drugs can also be monitored by these capsules. In this project, the PhD candidates will be involved in the development of such ingestible capsules in a multidisciplinary team, focusing on different components of the sensors and also human trials. Liquid metals are fast becoming one of the hottest topics in science and technology. These are alloys of metals composed of post transition elements that have melting points near room temperature.

Liquid metals offer fascinating characteristics originating from their simultaneous metallic and liquid natures, making their liquid state accessible to practical applications in various fields of chemistry and physics. Particularly, liquid metals present extraordinary capabilities in the synthesis of new materials and catalysis. They can also enable novel applications including microfluidics, flexible electronics and drug delivery.For full proposals submitted via Grants.

Please be advised that, depending on the specified due date, the guidelines contained in NSF may apply to proposals submitted in response to this funding opportunity.

Proposals submitted to other program announcements and solicitations, including the Faculty Early Career Development Program CAREERmust meet their respective deadlines; please refer to the deadline dates specified in the appropriate announcement or solicitation.

Proposals for supplements or workshops can be submitted at any time, and PIs are encouraged to contact the cognizant program director prior to submission. The Process Systems, Reaction Engineering and Molecular Thermodynamics program is part of the Chemical Process Systems cluster, which also includes: 1 the Catalysis program; 2 the Electrochemical Systems program; and 3 the Interfacial Engineering program.

The goal of the Process Systems, Reaction Engineering and Molecular Thermodynamics program is to advance fundamental engineering research on the rates and mechanisms of chemical reactions, systems engineering and molecular thermodynamics as they relate to the design and optimization of chemical reactors and the production of specialized materials that have important impacts on society.

The program supports the development of advanced optimization and control algorithms for chemical processes, molecular and multi-scale modeling of complex chemical systems, fundamental studies on molecular thermodynamics, and the integration of this information into the design of complex chemical reactors. An important area supported by the program focuses on the development of energy-efficient and environmentally-friendly chemical processes and materials.

The program also supports new approaches that enable the design of modular chemical manufacturing systems. High priority research topics include process intensification, modular process systems, smart manufacturing, real-time optimization and control of complex chemical systems integrated with sustainability, and optimization of enterprise-wide processes involved in planning, scheduling and control. The focus is on processes that address environmental concerns while producing tailor-made macromolecular materials.

The ultimate goal is to enable the development of more efficient chemical processes, improve environmental sustainability and water quality, and design functional materials with tailored properties. Innovative proposals outside of these specific interest areas may 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. The novelty or potentially transformative nature of the research should be included, as a minimum, in the Project Summary of each proposal.

The duration of unsolicited proposal awards in CBET is generally up to three years. Proposal budgets that are much larger than typical should be discussed with the Program Director prior to submission. Award duration is five years. Proposals for Conferences, Workshops, and Supplements : PIs are strongly encouraged to discuss their requests with the Program Director before submission of the proposal. Please note that proposals of these types must be discussed with the program director before submission.

Contact Help Search search. Search search. Home Funding. Email Print Share. Adomaitis radomait nsf.Not only do students gain valuable research skills, they learn how to manage their time, work as part of a team, and experience what it means to challenge themselves in a real-life situation. It can be very interesting or exciting! Under the direction of a faculty member, students work on a research problem that may involve laboratory work, computer programming and data analysis, and literature searching.

Undergraduate Research

This provides students with experience solving open-ended research problems and is ideal for students who enjoy working in the lab or on the computer, or those who are interested in graduate school. Students with university honors designation cumulative point hour ratio of 3. Completing a thesis project requires students to prepare a written final report and oral presentation to department faculty.

Before beginning the project, students have the option of writing a research proposal; the College of Engineering evaluates these proposals and a significant number of applicants receive fellowship awards. Students successfully defending their thesis and completing their coursework with a cumulative GPA of 3. Students who have a CPHR between 3.

The process is the same as that of the Honors thesis, however, students will register for CBE instead. A minimum of four semester hours of H or must be completed. Course work in undergraduate research that does not result in a thesis may count for up to four hours of technical elective credit under the course CBE Course work in undergraduate honors research which does result in a thesis may count for up to six hours of technical elective credit under the course CBE H.

These hours do not count towards the requirement of six hours in CBE coursework. You will still have to take two courses from the department to fulfill your elective requirements. The first thing you should do is a bit of research of your own. Consult the department's faculty directory to see which professors you would like to work based on their particular research areas. Think about how much time per week that you have to complete research. Typically, a professor requires 3 to 4 hours of work per week for each credit hour that a student earns.

Keep in mind that if you are being paid for research you cannot earn credit for those hours in which you are paid. However, if a professor can partially fund you than you can split funding and credit hours, depending on the amount of time you can work per week.

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Honors students should decide in their junior year if they would like to consider a Honors Thesis project before contacting the instructor so they are prepared to talk with the instructor about in depth projects that they can work on.

You can find more about writing an honors thesis and its implications at the college's website. Finally, contact the professor s directly that you are interested in working with to inquire about research opportunities. To be best prepared you should be able to indicate an area of their research that you would like to work on. This will give the faculty a better idea of what projects you may be available for. Note: To register for H credit, you must first have a approved research proposal on file with the College Office.

Please note that you will not automatically be scheduled for research each semester. You must email the undergraduate advisor each semester with the required information to be registered for the course.

Research opportunities abound for those who look. Check the resources below for more information:. The Denman Undergraduate Research Forum and the College of Engineering Undergraduate Research Forum are annual research competitions in which chemical engineering students frequently win awards. Summer Research Opportunities. There are many opportunities to complete research during the summer at universities throughout the United States.

If you are interested in pursuing graduate school or wish to gain valuable experience in many different engineering fields, we strongly encourage students to apply for these opportunities.

Breadcrumb Home. Undergraduate Research. Non-Departmental and Summer Research Opportunities.The proposal is the part of the application where you get to lay out a plan for your graduate research career. The personal statement gives you space to explain the big picture of your past and future career; the research proposal is a place for more nuts and bolts. It is an opportunity to convince the selection panel that you are capable of being a successful researcher: that you have the intellectual ability to propose a creative, feasible plan of research.

Note that if you win the Fellowship, no one will actually hold you to this particular research plan; this is a demonstration of critical thinking, not a commitment.

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These are academics, usually from your broad area of science e. The people on the committee read many, many applications. Make it easy for them to figure out that you are qualified for the award by referencing the Intellectual Merit and Broader Impact criteria that they use to judge your application. Use simple language rather than field jargon.

The selection panel knows that this is a graduate student fellowship and not the sort of grant that is going to a principal investigator. Real grants are big documents with heaps of citations and references. Because this application is about funding you and not a specific project, the panel is more interested in seeing what your proposal says about you rather than about your project.

Spend more words showing that you are capable and creative rather than showing that you can cite many papers. A mature and sophisticated proposal for research is more likely to win you the Fellowship.

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Before sitting down to write, do your homework. Read the literature in the field to ensure the project that you are proposing is both novel and feasible. Find mentors to help you develop and refine your ideas. Senior scientists such as postdocs and faculty members have more experience writing research proposals and can give valuable feedback. Additionally, they may be representative of members of your selection committee.

Your proposal should also excite someone who is in your exact field. If they have any reservations about whether the project is interesting or feasible, then scientists outside your field will have an even more difficult time believing that the research is worth pursuing.

They also tend to be low on reward. Projects that are very ambitious and have huge rewards tend to be unbelievable and impossible for a grad student. When you write a paper or a grant, it will probably be minutely reviewed by people in your exact field. When discussing research approach and outcomes, make it clear that the project has a clear endpoint that is well within the timeline of a PhD.

To win the Fellowship, the proposed research should be able to be completed within a few years.

Potential PhD projects

As best you can, describe concrete outcomes. Will you discover a protein? Will you have designed a certain tool? You may also indicate multiple possible outcomes, showing that you have given careful thought to the project. However, if we observe Zwe will have to look at an alternative route. Your research proposal will be judged, in part, on the basis of whether or not the panel members believe you will actually be able to carry it out.

It might therefore be wise to name the key resources in your target institution and program. Make it clear that you will have the right equipment and intellectual input that you will need to solve your problem.

research proposal chemical engineering process

Criteria for Success Your proposed research is eligible for the Fellowship e. Your research proposal convinces a panel of academics that you are qualified to receive the Fellowship, with equal consideration of the Intellectual Merit and Broader Impact criteria. You show that the proposed research is creative, original, or transformative. You show that you are actually capable of performing the research.


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