Title:  Environmental/Ocean Systems  (NSF 99-20)
Date:   November 20, 1998





                     Environmental/Ocean Systems


                          Bioengineering
                               and
                        Environmental Systems
                             Division


                     Directorate for Engineering
                        Janie Fouke, Ph.D.
                        Division Director
                         jfouke@nsf.gov










                      National Science Foundation

Environmental/Ocean Systems

This program supports research on environmental systems with the goal of
applying engineering principles to reduce adverse effects of solid,
liquid, and gaseous discharges into land, fresh and ocean waters and air
that result from human activity and impair the value-of those resources.
It also supports research on innovative biological, chemical, and
physical processes used alone or as components of engineered systems to
restore the usefulness of polluted land, water, and air resources.

The program emphasizes engineering principles underlying pollution
avoidance as well as processes and systems to restore the quality of
polluted environmental resources. Environmental technology research for
improved sensors, innovative production processes, waste reduction and
recycling, and industrial ecology are important to this program.
Research may be directed toward improving the cost effectiveness of
pollution avoidance as well as developing new principles for pollution
avoidance technologies.

Research in ocean systems engineering and technology seeks to expand the
knowledge base to develop the ocean resources in an environmentally
conscious manner.  Projects can be supported in any area of ocean
engineering   with particular attention on engineering practices
involving man-made devices in the coastal ocean.

Areas of Research

* Applications of ionizing radiation in improving the treatability of
wastes and accelerating the biodegradability of biologically refractory
residues from other physical, chemical and biological treatment
processes.

* Engineering issues regarding management of residues derived from
processing of wastewaters.

* Advanced oxidation technologies including ozonation, radiation,
photolysis, nonthermal plasmas, ionizing radiation, electrohydraulic
cavitation, sonolysis and supercritical oxidation for destruction of
organic substances.

* Industrial Ecology, which aims to allow industry to adopt the cyclical
laws of a natural ecosystem in order to incorporate environmental
concerns into the design and manufacture of products and the processing
of materials.

* Sensors and instrumentation to monitor environmental processes for
control and feedback.

* Models which address problems such as recycling, material recovery,
disassembly, remanufacturing, life-cycle analysis and pollution
prevention.

* Technology for minimizing or eliminating point source and non-point
source pollution.  This includes recovery, recycling, and re-use
technology as well as materials for containment of pollutants.

* Fundamental research in coastal  ocean space utilization including
platforms/systems autonomous undersea vehicles, sub-sea robotics, and
other instrumented and remotely operated systems for use in
characterization of the ocean environment, seafloor, and subsea floor;
and for the development and utilization of ocean resources.

* Engineering research contributing to  development of new materials,
marine organisms, and development and improvement of ocean grown and
harvested products.

* Advanced techniques for sensing, processing, and communicating ocean
and sea floor data as well as ocean energy, power sources, and
environmentally benign ocean space development.

Bioengineering and Environmental Systems Division

The Bioengineering and Environmental Systems (BES) Division supports
research that:

a)expands the knowledge base of bioengineering at scales ranging
from proteins and cells to organ systems, including mathematical models,
devices and instrumentation systems.  Current interest areas include
tissue engineering and the development of biological substitutes;
biosensors, i.e., devices that use a biological component; food
processing, especially with respect to food safety; and metabolic
engineering, including the application of systems analysis tools to
understand metabolic transport.

b)applies engineering principles to the understanding of living
systems, development of new and improved devices, and products for human
health care.  Emphasis is placed on engineering research that
contributes to better and more efficient health care delivery and aid to
people with disabilities.

c)improves our ability to apply engineering principles to avoid
and/or correct problems that impair the usefulness of land, air and
water.  Current interest areas include environmental remediation,
especially with respect to understanding the fate and
transport of surface and groundwater pollutants; novel processes for
waste treatment; industrial ecology; technologies for the avoidance of
pollution; technology to limit fouling of the ocean.

d)advances fundamental engineering knowledge of the ocean
environment and develops technological innovation related to
conservation, development, and use of the oceans and their resources.

Three program areas comprise the BES Division:

* Biomedical Engineering/Research to
   Aid Persons with Disabilities
* Biotechnology/Biochemical Engineering
* Environmental/Ocean Systems

Environmental/Ocean Systems

Program Directors:

Edward H. Bryan, Ph.D.
ebryan@nsf.gov

A.Frederick Thompson, Ph.D.
athompso@nsf.gov

Norman Caplan
ncaplan@nsf.gov

NATIONAL SCIENCE FOUNDATION
Engineering Directorate
Bioengineering and Environmental Systems
4201 Wilson Blvd. Suite 565
Arlington, VA 22230
Phone: 703-306-1318
Fax:   703-306-0312

Information on application procedures may be found in the NSF Grant
Proposal Guide (NSF 99-2) and on the NSF Home Page (http://www.nsf.gov).

The Foundation welcomes proposals from all qualified scientists and
engineers and strongly encourages women, minorities, and persons with
disabilities to compete fully in any of the research and education
related programs described here.  In accordance with federal statutes,
regulations, and NSF policies, no person on grounds of race, color, age,
sex, national origin, or disability shall be excluded from participation
in, be denied the benefits of, or be subject to discrimination under any
program or activity receiving financial assistance from the National
Science Foundation.  Facilitation Awards for Scientists and Engineers
with Disabilities (FASED) provide funding for special assistance or
equipment to enable persons with disabilities (investigators and other
staff, including student research assistants) to work on NSF projects.
See the program announcement or contact the program coordinator at (703)
306-1636. The National Science Foundation has TDD (Telephonic Device for
the Deaf) capability, which enables individuals with hearing impairment
to communicate with the Foundation about NSF program employment, or
general information.  To access NSF TDD dial (703) 306-0090, for FIRS,
1-800-877-8339.

                 NSF 99-20  (Replaces NSF 97-115)