|
U.S.
DEPARTMENT OF
ENERGY
The Office of Science is now using The Department of Energy e-Center Industry
Interactive Procurement System (IIPS) for the electronic submission of applications. Please
reference
IIPS number
DE-FG01-03ER03-01 when submitting applications for this Solicitation.
Notice:
Only the applicant organization's authorized administrative official(s) may
submit applications through IIPS.
Directions on the Use of IIPS, Tailored to the Office of Science, are available at
Instructions on the Use of IIPS
Click Here to Access
Electronic Submission Instructions and Forms
For more information about the
Office of Science Grant Program, go to the
Office of Science
Grants and Contracts Web Site.
|
Office of Science
Notice 03-01
Annual Notice
Continuation of Availability of Grants and Cooperative Agreements
U.S. Department of Energy
Continuation of Solicitation for the Office of Science Financial Assistance Program -
Notice 03-01
AGENCY: U.S. Department of Energy
ACTION: Annual Notice of Continuation of Availability of Grants and Cooperative Agreements
SUMMARY: The Office of Science (SC) of the Department of Energy (DOE) hereby announces
its continuing interest in receiving grant applications for support of work in the following
program areas: Basic Energy Sciences, High Energy Physics, Nuclear Physics, Advanced
Scientific Computing, Fusion Energy Sciences, Biological and Environmental Research, and
Energy Research Analyses. On September 3, 1992, DOE published in the Federal Register the
Office of Energy Research Financial Assistance Program (now called the Office of Science
Financial Assistance Program), 10 CFR Part 605, Final Rule, which contained a solicitation for
this program. Information about submission of applications, eligibility, limitations, evaluation
and selection processes and other policies and procedures are specified in 10 CFR Part 605.
DATES: Applications may be submitted until September 30, 2003, in response to this Notice of
Availability.
ADDRESSES: Formal applications in response to this solicitation are to be electronically
submitted by an authorized institutional business official through DOE's Industry Interactive
Procurement System (IIPS) at: http://e-center.doe.gov/.
IIPS provides for the posting of solicitations and receipt of applications in a paperless
environment via the Internet. In order to submit applications through IIPS your business official
will need to register at the IIPS website. The Office of Science will include attachments as part
of this notice that provide the appropriate forms in PDF fillable format that are to be submitted
through IIPS. Color images should be submitted in IIPS as a separate file in PDF format and
identified as such. These images should be kept to a minimum due to the limitations of reproducing
them. They should be numbered and referred to in the body of the technical scientific application
as Color image 1, Color image 2, etc. Questions regarding the operation of IIPS may be e-mailed
to the IIPS Help Desk at: HelpDesk@pr.doe.gov or you may call the help desk at: (800) 683-0751.
Further information on the use of IIPS by the Office of Science is available at:
http://www.sc.doe.gov/production/grants/grants.html.
If you are unable to submit an application through IIPS please contact the Office of the Director,
Grants and Contracts Division, Office of Science, DOE at (301) 903-5212 in order to gain
assistance for submission through IIPS or to receive special approval and instructions on how to
submit printed applications.
SUPPLEMENTARY INFORMATION: This Notice is published annually and remains in effect
until it is succeeded by another issuance by the Office of Science, usually published after the
beginning of the fiscal year. This annual Notice 03-01 succeeds Notice 02-01, which was
published December 20, 2001.
It is anticipated that approximately $400 million will be available for grant and cooperative
agreement awards in Fiscal Year 2003. The DOE is under no obligation to pay for any costs
associated with the preparation or submission of an application. DOE reserves the right to fund,
in whole or in part, any, all, or none of the applications submitted in response to this Notice.
The following program descriptions are offered to provide more in-depth information on
scientific and technical areas of interest to the Office of Science:
1. Basic Energy Sciences
The Basic Energy Sciences (BES) program supports fundamental research in the natural sciences
and engineering leading to new and improved energy technologies and to understanding and
mitigating the environmental impacts of energy technologies. The science areas and their
objectives are as follows:
(a) Materials Sciences and Engineering
The objective of this program is to increase the fundamental understanding of phenomena,
properties, and behavior important to materials that will contribute to improving current energy
technologies and developing new energy technologies. This program is comprised of the
subfields materials physics, condensed matter physics, materials chemistry, engineering physics,
and related disciplines where the emphasis is on the science of materials.
Program Contact: (301) 903-3427
(b) Chemical Sciences
The objective of this program is to expand, through support of basic research, knowledge of
various areas of chemistry, chemical engineering and atomic molecular and optical physics with
a goal of contributing to new or improved processes for developing and using domestic energy
resources in an efficient and environmentally sound manner. Disciplinary areas where research is
supported include atomic molecular and optical physics; physical, inorganic and organic
chemistry; chemical physics; photochemistry; radiation chemistry; analytical chemistry;
separations science; actinide chemistry; and chemical engineering sciences.
Program Contact: (301) 903-5804
(c) Geosciences
The goal of this program is to develop a quantitative and predictive understanding of geologic
processes related to energy and environmental quality. The program emphasizes cross-cutting
basic research that will improve understanding of reactive geochemical transport and other
subsurface processes and properties and how to image them using techniques ranging from
electrons, x-rays or neutrons to electromagnetic and seismic waves. Applications of this
fundamental understanding might include transport of contaminant fluids, hydrocarbons,
sequestered CO2 or performance prediction for repository sites. The emphasis is on the
disciplinary areas of geochemistry, geophysics, geomechanics, and hydrogeology with a focus on
the upper levels of the earth's crust. Particular emphasis is on processes taking place at the
atomic and molecular scale. Specific topical areas receiving emphasis include: high resolution
geophysical imaging; rock physics, physics of fluid transport, and fundamental properties and
interactions of rocks, minerals, and fluids.
Program Contact: (301) 903-4061
(d) Energy Biosciences
The primary objective of this program is to generate an understanding of fundamental biological
mechanisms in plants and microorganisms that will support future technological developments
related to DOE's mission. The research serves to provide the basic information foundation for
environmentally responsible production and conversion of renewable resources for fuels,
chemicals, and the conservation of energy. This program has special requirements for the
submission of preapplications, when to submit, and the length of the applications. Applicants are
encouraged to contact the program regarding these requirements.
Program Contact: (301) 903-2873
2. High Energy and Nuclear Physics
This program supports about 90% of the U.S. efforts in high energy and nuclear physics. The
objectives of these programs are indicated below:
(a) High Energy Physics
The primary objectives of this program are to understand the ultimate structure of matter in terms
of the properties and interrelations of its basic constituents, and to understand the nature and
relationships among the fundamental forces of nature. The research falls into three broad
categories: experimental research, theoretical research, and technology R&D in support of the
high energy physics program.
Program Contact: (301) 903-3624
(b) Nuclear Physics (Including Nuclear Data Program)
The primary objectives of this program are a fundamental understanding of the interactions and
structures of atomic nuclei and nuclear matter, and an understanding of the forces of nature as
manifested in nuclear matter.
Program Contact: (301) 903-3613
3. Advanced Scientific Computing Research
This program fosters and supports fundamental research in advanced computing research
(applied mathematics, computer science and networking), and operates supercomputer,
networking, and related facilities to enable the analysis, modeling, simulation, and prediction of
complex phenomena important to the Department of Energy.
(a) Mathematical, Information, and Computational Sciences
This subprogram is responsible for carrying out the primary mission of the ASCR program:
discovering, developing, and deploying advanced scientific computing and communications
tools and operating the high performance computing and network facilities that researchers need
to analyze, model, simulate, and -- most importantly -- predict the behavior of complex natural
and engineered systems of importance to the Office of Science and to the Department of Energy.
The computing and the networking required to meet Office of Science needs exceed the state-of-
the-art by a wide margin. Furthermore, the algorithms, software tools, the software libraries and
the software environments needed to accelerate scientific discovery through modeling and
simulation are beyond the realm of commercial interest. To establish and maintain DOE's
modeling and simulation leadership in scientific areas that are important to its mission, the MICS
subprogram employs a broad, but integrated research strategy. The basic research portfolio in
applied mathematics and computer science provides the foundation for enabling research
activities, which includes efforts to advance networking, to develop software tools, software
libraries and software environments. Results from enabling research supported by the MICS
subprogram are used by computational scientists supported by other Office of Science and other
DOE programs. Research areas include:
(b) Applied Mathematics
Research on the underlying mathematical understanding and numerical algorithms to enable
effective description and prediction of physical systems such as fluids, magnetized plasmas, or
protein molecules. This includes, for example, methods for solving large systems of partial
differential equations on parallel computers, techniques for choosing optimal values for
parameters in large systems with hundreds to hundreds of thousands of parameters, improving
our understanding of fluid turbulence, and developing techniques for reliably estimating the
errors in simulations of complex physical phenomena.
(c) Computer Science
Research in computer science to enable large scientific applications through advances in
massively parallel computing such as very lightweight operating systems for parallel computers,
distributed computing such as development of the Parallel Virtual Machine (PVM) software
package which has become an industry standard, and large scale data management and
visualization. The development of new computer and computational science techniques will
allow scientists to use the most advanced computers without being overwhelmed by the
complexity of rewriting their codes every 18 months.
(d) Networking
Research in high performance networks and information surety required to support high
performance applications - protocols for high performance networks, methods for measuring the
performance of high performance networks, and software to enable high speed connections
between high performance computers and networks. The development of high speed
communications and collaboration technologies will allow scientists to view, compare, and
integrate data from multiple sources remotely.
Program Contact: (301) 903-5800
4. Fusion Energy Sciences
The mission of the Fusion Energy Sciences program is to advance plasma science, fusion
science, and fusion technology -- the knowledge base needed for an economically and
environmentally attractive fusion energy source. The Office of Fusion Energy Sciences (OFES)
supports basic and applied research, encourages technical connectivity with the broader U.S.
science community, and uses international collaboration to accomplish this mission.
(a) Research Division
This Division seeks to develop the physics knowledge base needed to advance the Fusion Energy
Sciences program. Research is conducted on medium to large-scale confinement devices to study
physics issues relevant to basic plasmas and to the production of fusion energy. Experiments on
this scale of devices are used to explore the limits of specific confinement concepts, as well as
study associated physical phenomena. Specific areas of interest include: (1) reducing plasma
energy and particle transport at high densities and temperatures, (2) understanding the physical
laws governing stability of high pressure plasmas, (3) investigating plasma wave interactions, (4)
studying and controlling impurity particle transport and exhaust in plasmas, and (5) interaction
and coupling among these four issues in a fusion experiment.
Research is also carried out in the following areas: (1) basic plasma science research directed at
furthering the understanding of fundamental processes in plasmas; (2) theoretical research to
provide the understanding of fusion plasmas necessary for interpreting results from present
experiments, planning future experiments, and designing future confinement devices; (3) critical
data on plasma properties, atomic physics and new diagnostic techniques for support of
confinement experiments; (4) supporting research on innovative confinement concepts; and (5)
research on issues that support the development of Inertial Fusion Energy, for which high energy
density physics necessary for target development is carried out by the Office of Defense
Programs in the Department of Energy's National Nuclear Security Agency.
Program Contact: (301) 903-4095
(b) Facilities and Enabling Technologies Division
This Division is responsible for overseeing the facility operations and enabling research and
development activity budgets within the OFES. Grant program opportunities are in the enabling
research and development activity. (Grants for scientific use of the facilities operated/maintained
by this Division should be addressed to the Research Division.) The enabling technologies
program supports the advancement of fusion science in the nearer-term by carrying out research
on technological topics that: (1) enable domestic experiments to achieve their full performance
potential and scientific research goals; (2) permit scientific exploitation of the performance gains
being sought from physics concept improvements; (3) allow the U.S. to enter into international
collaborations gaining access to experimental conditions not available domestically; and (4)
explore the science underlying these technological advances.
The enabling technologies program supports pursuit of fusion energy science for the longer-term
by conducting research aimed at innovative technologies, designs and materials to point toward
an attractive fusion energy vision and affordable pathways for optimized fusion development.
Program Contact: (301) 903-3068
5. Biological and Environmental Research Program
For over 50 years the Biological and Environmental Research (BER) Program has been investing
to advance environmental and biomedical knowledge connected to energy. The BER program
provides fundamental science to underpin the business thrusts of the Department's strategic plan.
Through its support of peer-reviewed research at national laboratories, universities, and private
institutions, the program develops the knowledge needed (1) to identify, understand, and
anticipate the long-term health and environmental consequences of energy production,
development, and use, and (2) to develop biology based solutions that address DOE and National
needs.
(a) Life Sciences Research
Research is focused on using DOE's unique resources and facilities to develop fundamental
knowledge of biological systems that can be used to address DOE needs in clean energy, carbon
sequestration, and environmental cleanup and that will underpin biotechnology based solutions
to energy challenges. The objectives are: (1) to develop the experimental and, together with the
Advanced Scientific Computing Research program, the computational resources, tools, and
technologies needed to understand and predict the complex behavior of complete biological
systems, principally microbes and microbial communities; (2) to take advantage of the
remarkable high throughput and cost-effective DNA sequencing capacity at the Joint Genome
Institute to meet the DNA sequencing needs of the scientific community through competitive,
peer-reviewed nominations for DNA sequencing; (3) to develop and support DOE national user
facilities for use in fundamental structural biology at synchrotron and neutron sources; (4) to use
model organisms to understand human genome organization, human gene function and control,
and the functional relationships between human genes and proteins at a genomic scale; (5) to
understand and characterize the risks to human health from exposures to low levels of radiation;
and (6) to anticipate and address ethical, legal, and social implications arising from genome
research.
Program Contact: (301) 903-5468
(b) Medical Applications and Measurement Sciences
The research is designed to develop the beneficial applications of nuclear and energy-related
technologies for bio-medical research, medical diagnosis and treatment. The objectives are: (1)
to utilize innovative radiochemistry to develop new radiotracers for medical research, clinical
diagnosis and treatment, (2) To develop the next generation of non-invasive nuclear medicine
technologies, such as positron emission tomography, (3) To develop advanced imaging detection
instrumentation capable of high resolution from the sub-cellular to the clinical level, (4) To
utilize the unique resources of the DOE in engineering, physics, chemistry and computer
sciences to develop the fundamental tools to be used in biology and medicine, particularly in
imaging sciences, photo-optics and biosensors.
Program Contact: (301) 903-3213
(c) Environmental Remediation
This research delivers the scientific knowledge, tools, and enabling discoveries in biological and
environmental research to reduce the costs, risks, and schedules associated with the cleanup of
the DOE nuclear weapons complex; to extend the frontiers of biological and chemical methods
for remediation; to discover the fundamental mechanisms of contaminant transport in the
environment; to develop cutting edge molecular tools for investigating environmental processes;
and to develop an understanding of the ecological impacts of remediation activities. Research
priorities include bioremediation, contaminant fate and transport, nuclear waste chemistry and
advanced treatment options, and the operation of the William R. Wiley Environmental Molecular
Sciences Laboratory (EMSL) and the Savannah River Ecology Laboratory (SREL). The
research performed for this program will provide fundamental knowledge on a broad range of
remediation problems.
Program Contact: (301) 903-4902
(d) Climate Change Research
The program seeks to understand the basic physical, chemical, and biological processes of the
Earth's atmosphere, land, and oceans and how these processes may be affected by energy
production and use. The research is designed to provide data that will enable an objective
assessment of the potential for and the consequences of human-induced climate change at global
and regional scales. It also provides data to enable assessments of mitigation options to prevent
such a change. The program is comprehensive with an emphasis on understanding and
simulating the radiation balance from the surface of the Earth to the top of the atmosphere
(including the effect of clouds, water vapor, trace gases, and aerosols), on enhancing the
quantitative models necessary to predict possible climate change at global and regional scales,
and on understanding ecological effects of climate change. The carbon sequestration research
seeks the understanding necessary to exploit the biosphere's natural carbon cycling processes to
enhance the sequestration of carbon dioxide in terrestrial systems and the ocean, and to
understand its potential environmental implications. The program includes research that can lead
to the development of approaches to reduce or overcome the environmental and biological
factors or processes that limit the sequestration of carbon in these systems to enhance the net
sequestration of carbon. The research includes studies on terrestrial and ocean carbon
sequestration and disposal, including research to modify the carbon sequestration capacity and
rate by marine and terrestrial organisms and to understand the potential environmental
implications.
Program Contact: (301) 903-3281
6. Energy Research Analyses
This program supports energy research analyses of the Department's basic and applied research
activities. Specific objectives include assessments to identify any duplication or gaps in scientific
research activities, and impartial and independent evaluations of scientific and technical research
efforts. Consistent with these overall objectives, this program conducts numerous research
studies to assess directions in science and to identify and assess new and improved approaches to
science management.
Program Contact: (202) 586-9942
7. Experimental Program to Stimulate Competitive Research (EPSCoR)
The objective of the EPSCoR program is to enhance the capabilities of EPSCoR states to
conduct nationally competitive energy-related research and to develop science and engineering
manpower to meet current and future needs in energy-related fields. This program addresses
basic research needs across all of the Department of Energy research interests. Research
supported by the EPSCoR program is concerned with the same broad research areas addressed
by the Office of Science programs that are described in this notice. The EPSCoR program is
restricted to applications, which originate in twenty-one states (Alabama, Alaska, Arkansas,
Hawaii, Idaho, Kansas, Kentucky, Louisiana, Maine, Mississippi, Montana, Nebraska, Nevada,
New Mexico, North Dakota, Oklahoma, South Carolina, South Dakota, Vermont, West Virginia,
and Wyoming) and the commonwealth of Puerto Rico. It is anticipated that only a limited
number of new competitive research grants will be awarded under this program subject to the
availability of funds.
Program Contact: (301) 903-3427
John Rodney Clark
Associate Director of Science
for Resource Management
Published in the Federal Register October 17, 2002, Volume 67, Number 201, Pages 64103-64106.
|