Loren Data's SAM Daily™

SAMDAILY.US - ISSUE OF JULY 12, 2020 SAM #6800
SOURCES SOUGHT

99 -- FY 2020 DOE Office of Environmental Management (DOE-EM) Minority Serving Institutions Partnership Program (MSIPP)

Notice Date

7/10/2020 2:36:43 PM
 

Notice Type

Sources Sought
 

NAICS

541713 — Research and Development in Nanotechnology
 

Contracting Office

SRNS - DOE CONTRACTOR Aiken SC 29801 USA
 

ZIP Code

29801
 

Solicitation Number

2020-SRNS-MSIPP
 

Response Due

7/24/2020 2:00:00 PM
 

Archive Date

08/08/2020
 

Point of Contact

Susan Goodwin, Phone: 803-725-6072
 

E-Mail Address

susan.goodwin@srnl.doe.gov
(susan.goodwin@srnl.doe.gov)
 

Description

Title: FY 2020 DOE Office of Environmental Management (DOE-EM) Minority Serving Institutions Partnership Program (MSIPP) Classification Code: A - Research & Development NAICS Codes: 541713 -- Research and Technology in Nanotechnology 541714 -- Research and Technology in Biotechnology (except Nanobiotechnology) 541715 -- Research and Development in the Physical, Engineering, and Life Sciences (except Nanotechnology and Biotechnology) 611310 -- Colleges, Universities and Professional Schools Response Date: July 24, 2020� �5:00 PM Eastern Standard Time Contracting Office Address: Savannah River Site� Bldg 730-2B� Aiken, South Carolina 29808� United States� Place of Performance: AS PROPOSED BY THE AWARDEES. United States� Primary Point of Contact: Susan Goodwin Procurement Representative susan.goodwin@srnl.doe.gov Phone: 803-725-6072 Overview: Savannah River Nuclear Solutions (SRNS) solicits Expressions of interest (EOI) from Minority Serving Institutions that provide research, design, development, engineering, test and evaluation and educational services to assist in the accomplishment of the current and future missions of the Department of Energy Office of Environmental Management (DOE-EM). �Services shall include all areas of professional development that support defined DOE-EM research and development needs. �Collaboration with partners and funding agencies, preparation of written reports and presentations of results shall be elements of provided services. This program covers applied research and related activities in science, technology, engineering, and mathematics (STEM) that support defined EM needs in Site Restoration and Tank Waste.� Activities performed in collaboration with DOE laboratories are especially encouraged.� The hub national laboratory for the MSIPP is SRNL.� This program is managed by SRNL, which is operated by Savannah River Nuclear Solutions, LLC (SRNS), at the Savannah River Site (SRS) for the Department of Energy. Any tasks to be furnished will be defined in a Statement of Work associated with a Task Order Agreement.� Universities may be required to submit a Quality Assurance Plan or provide a Safety Plan in support of manual on-site work. Eligibility: MSIs are defined by the U.S. Department of Education as institutions of higher education enrolling populations with significant percentages of minority students, or that serve certain populations of minority students under various programs created by Congress. To be considered eligible for the MSIPP, an MSI must: 1)� award bachelor�s degrees in STEM disciplines 2)� be an accredited postsecondary public or private institution 3)� be a nonprofit institution 4)� enroll populations with significant percentages of undergraduate minority students, or serve certain populations of minority students under various programs created by Congress (http://www2.ed.gov/about/offices/list/ocr/edlite-minorityinst.html). Response Required: Any eligible MSI interested in submitting a proposal for financial assistance for applied research and related STEM activities on the Sub-Program Priority Areas and Research Needs listed below must respond with a Letter of Interest by July 24, 2020.� All letters must be submitted by email to susan.goodwin@srnl.doe.gov.� The following must be included in the Letter of Interest: Institution Name: Institutional Accreditation (Accrediting Agency): Sub-program Priority Area (PA) and Research Need (RN) Category of Proposed Research (List Below): Proposed Title:�������������������������������������������� Eligible institutions that respond with a Letter of Interest will be provided with a Request for Proposal. �Expressions of Interest are to be addressed by email to the Point of Contact identified in this notice. This EOI is a �Sources Sought� notice only for eligible institutions interested in submitting proposals for financial assistance for applied research and related activities in STEM fields that support defined DOE-EM research and development needs.��� The DOE Office of Environmental Management mission is to complete the safe clean-up of the environmental legacy brought about from decades of nuclear�weapons development and government-sponsored nuclear energy research. DOE�Environmental Management (EM) missions and priorities are instrumental in the successful clean-up process.�Research�and technologies proposed in response to the FY20 MSIPP Expression of Interest (EOI) and Request For Proposals (RFP) should align with DOE-EM�key priority areas which include the following: - Alignment with major facility start-ups, construction and or turnover and commissioning (Salt Waste Processing Facility,�Integrated Waste Treatment Unit, WIPP, Direct Feed Low Activity Waste).� - Alignment with key projects that�enable the EM clean-up mission �?-Radioactively contaminated structure demolition� �?-Complex structure removal (stack removal) ?-Radioactively contaminated�building removal� -Contaminated soil/debris removal MSI Research Topic Areas The following program descriptions are offered to provide more in?depth information on STEM areas of interest to the�Office of Environmental Management. Specific areas of research interest are identified in each�Sub?Program Priority Areas and Research Needs list. 1. Site Restoration The mission of the Site Restoration program is to provide integration, planning, and analysis for all soil and groundwater remediation, deactivation and decommissioning (D&D), and facility engineering. The Site Restoration subprograms and their objectives�follow: Soil and Groundwater The U.S. Department of Energy (DOE) manages the largest groundwater and soil remediation effort in the world. The inventory at the DOE sites includes 6.5 trillion liters of contaminated groundwater, an amount equal to about four times the daily U.S. water consumption, and 40 million cubic meters of soil and debris contaminated with radionuclides, metals, and organics. At large sites such as Hanford (Richland, WA), Savannah River (Aiken, SC), and Oak Ridge (Oak Ridge, TN), the�Office of Technology Development conducts research and demonstration projects to test new technologies and remediation approaches. These initiatives are developing remediation alternatives ranging from active engineered systems to passive methods such as natural attenuation to address a variety of DOE?EM contaminants. They are being integrated into a systems?based, risk?informed, remediation framework that is being applied across the DOE?EM complex. Research and Development (R&D) can include characterization and monitoring; stabilization, remediation and processing; and modeling, visualization and analysis. The goal of research and technology development activities is to deliver approaches and technologies from highly leveraged and strategic investments that maximize the reduction of risk and life?cycle cleanup costs. Sub?Program Priority Areas (PA), Research Needs (RN), and Conditions (C): PA1: Attenuation-Based Remedies for the Subsurface RN1: R&D leading to solutions to address contamination resulting�from subsurface metals including iodine and chromium; radionuclides including uranium, plutonium, technetium, and americium; and�recalcitrant organics including technetium, and recalcitrant organics including trichlorethane (TCE) perchlorethylene (PCE), tribuylphosphine (TBP), and others.� C1: Research should complement or extend the work. PA2: Deep Vadose Zone RN2: R&D leading to improved characterization, remediation, monitoring, and prediction for the deep vadose zone C2: Research should complement or extend the work funded at Richland, Washington and address those issues related to uranium, iodine, and chromium�in groundwater. PA3: Remediation of Mercury and Industrial Contaminants RN3: R&D leading to the control of contaminant flux in soil and water environments as well as mitigating the presence of contaminate vapors in confined space. C3: Research should complement or extend the work of the Mercury Initiative based at the Oak Ridge Reservation in Oak Ridge, Tennessee, that focuses on protecting surface water, groundwater, and ecological receptors. The Oak Ridge Mercury Strategy can be found at https://energy.gov/sites/prod/files/2016/05/f32/2016%2C%20Technology%20Plan%20to%20Address%20Mercury.pdf. PA4: Monitoring at Environmental Remediation Sites PA4: Across the DOE Complex, long-term monitoring of residual subsurface contamination that is undergoing naturally attenuation and/or bioremediation requires new approaches, sensors, and data analysis to ensure the safety and health of the environment. For additional information please visit https://www.pnnl.gov/main/publications /external/technical reports/PNNL-21379.pdf. 2. Deactivation & Decommissioning Deactivation and Decommissioning (D&D) is the process of taking an active/excess/abandoned facility to a final disposition end state. Because of residual radioactivity, other hazardous constituents, and the�physical condition of EM�s facilities, D&D presents unique hazards that must be addressed from a safety, programmatic, environmental, and technological standpoint. The general D&D process applies to all facilities across the EM complex. The D&D function within the Office of Infrastructure and D&D focusses on innovative applications and timely insertion of existing commercially available technologies, to address D&D risks and challenges. In cases where appropriate technologies do not exist or are not at the�required level of maturity, the Office supports R&D to increase technology maturation. The program supports the development of an informed facility D&D strategy such as In?Situ Decommissioning (entombment), enhanced verifiability of the efficacy of D&D operations, increased productivity, personnel safety of D&D operation, facilitation of acceptable facility end?states, and independent verification. Sub?Program Priority Areas (PA), Research Needs (RN), and Conditions (C): PA1: Unique sensor networks for remote monitoring of entombed facilities and tanks RN1: R&D leading to the development and deployment of these networks C1: Research should extend techniques already developed at DOE labs PA2: Interactions between radiological and chemical contaminants of concern to DOE (e.g. plutonium, cesium, mercury, etc.) and facility materials (e.g. concrete, steel, nickel, etc.) RN2: R&D leading to a better scientific understanding of these interactions C2: Scientific understanding should support the development of cost-effective methods to decontaminate facility materials. PA3: Incombustible fixatives and decontamination agents RN3: R&D leading to the development of these fixatives and agents for a nuclear facility. Also, the development of testing protocols to demonstrate their acceptance. C3: Meets ASTM standard from E10.03. Protocols should be applicable to various DOE facilities. PA4: Enhanced Characterization and Real-Time Monitoring Technologies RN4: R&D Leading to improved field deployable instrumentation; with increased detection limits and precision and accuracy for both radiological and chemical contaminants C4: Research could include development of a real-time field-deployable asbestos characterization/quantification instrument and fixed radiation monitors with automatic shift in the direction of prevailing and changing winds. PA5: Robotics and remote systems with plug?and?play interchangeable components RN5: There are several areas where advancements in robotics will benefit the DOE Environmental Management mission. Research in any of the areas described below will be considered: (1) R&D leading to advances in the development of multi-use robots and remote systems ranging from simple tele-operated units to fully autonomous systems applicable to DOE Environmental Management tasks including D&D. (2) R&D targeting sensors that can be deployed on mobile platforms. Sensors of interest include devices to characterize the condition of inaccessible nuclear facilities (e.g. concrete structures) such as gamma scanning, UT, IR, GPR, laser mapping, etc. (3) Wearable robotics to enhance worker capability and safety. The DOE complex employs numerous gloveboxes where operators work through rubber gloves. R&D involving tele-operated manipulators that can be deployed through existing gloves and requires no modification to the existing infrastructure would be beneficial. https://energy.gov/em/office-environmental-management C5: Research should support component development with application�to DOE nuclear facilities. Devices developed for DOE nuclear facilities must be rugged and able to operate in radioactive environments ranging from low to highly radioactive. Developers should consider the facilities to be an industrial setting with the objective to execute tasks that are dirty (contaminated), dull (routine, repetitive), dangerous (occupational hazards), and difficult (requires engineered measures). PA6: Models for facility decommissioning RN6: R&D leading to model development for facility integrity, decommissioning strategy, and environmental impact of nuclear decommissioning and demolition.� C6: Research could include modeling of degradation and its effects on decommissioning scope and costs PA7: Enhanced Characterization and Real Time Monitoring Technologies RN7: R&D Leading to improved field deployable instrumentation; with increased detection limits, precision, and accuracy for both radiological and chemical contaminants. C7: Research could include development of a real time, field deployable asbestos characterization/quantification instrument and fixed radiation monitors with automatic shift in the direction of prevailing and changing winds � 3. Tank Waste EM is dedicated to safely disposing of waste and seeks cost-effective and environmentally responsible project execution methods. EM offices that focus on waste management provide leadership in planning and executing EM programs for the storage, retrieval, pretreatment, treatment, and final preparation of nuclear materials for disposal and tank closure planning. Tank Waste and Waste Processing The Department has approximately 88 million gallons of liquid waste stored in underground tanks and approximately 4,000 cubic meters of solid waste derived from the liquids stored in bins. The current DOE estimated cost for retrieval, treatment and disposal of this waste exceeds $50 billion to be spent over several decades. The highly radioactive portion of this waste, located at the Hanford Site, Idaho National Laboratory, and Savannah River Site, must be treated, immobilized, and prepared for shipment to a waste repository. Efforts currently focus on improving pre?treatment to reduce the amount of waste that must be disposed, retrieval technologies, vitrification performance, and breakthrough immobilization technologies. Sub?Program Priority Areas (PA), Research Needs (RN), and Conditions (C): PA1: Current DOE tank waste and waste processing approaches RN1: R&D leading to the development of technology improvements that address technology gaps or optimize the current�DOE flow sheets. C1: Research should be in at least one of the following areas: Characterization of Physical and Chemical Properties; Improvement in Slurry Transport, Mixing, and Flammability Control; Refining the Separations Processes; and Optimizing Processing Facilities and Waste Forms. PA2: Alternative DOE tank waste processing options RN2: R&D leading to addressing challenges to alternative processes, to eliminate the need for new massive facilities, to start waste treatment operations sooner, and to�accelerate reduction of hazards from materials stored in tanks. C2: Research should be in at least one of the following areas: Development of Alternative Separations Methods and Deployment Strategies or Development of Alternative Waste Forms and Processes PA3: Tank Management and Closure RN3: R&D leading to improved tank integrity, water intrusion detection, and leak detection.� Closure objectives include achieving retrieval goals, developing protocols for residual waste characterization and immobilization, establishing barriers to the release of constituents of interest, and development of closure materials. C3: Research should be in at least one of the following areas: Improvement in tank leak and intrusion detection and mitigation; improvement in�in-situ�sampling, analysis, characterization, and monitoring for tank closure; development of retrieval method alternatives (mechanical and chemical); and improvement in the technical basis for closure and performance assessments. � 4. Artificial Intelligence (AI) EM�s vision is to transform DOE into a world-leading AI enterprise by accelerating the research, development, delivery, and adoption of AI. The Artificial Intelligence and Technology Office (AITO), the Department of Energy�s center for Artificial Intelligence, will accelerate the delivery of AI-enabled capabilities, scale the department-wide development and impact of AI, and synchronize AI activities to advance the agency�s core missions, expand partnerships, and support American AI Leadership. Sub?Program Priority Areas (PA), Research Needs (RN), and Conditions (C): PA1: Cutting-Edge Airborne Methane Detection Technology RN1: The objective of the new research is to develop an airborne, autonomous, real-time leak detection technology that applies machine learning techniques to passive optical sensing modalities to mitigate emissions through early detection. C1: Smart Methane�Emission Detection System Development (SLED/M): Develop technologies which allow SLED/M to operate from an aerial platform or drone. Perform testing, collect data, and develop a machine-learning-based methane detection algorithm to detect leaks from a drone using the existing SLED/M components. PA2: Machine Learning (ML) RN2: Machine Learning (ML) and Artificial Intelligence (AI) technologies are being used to extract actionable information from vast environmental datasets and to support key decisions�in environmental closure and monitoring strategies. Examples include the use of AI techniques to better evaluate historical groundwater monitoring data to optimize long-term monitoring strategies, interpret spatially integrative geophysical methods to improve environmental monitoring and to better evaluate long-term mobility of plumes as the geochemistry evolves.
 

Web Link

SAM.gov Permalink
(https://beta.sam.gov/opp/71a7a202bff84231ade0b473a84aed34/view)
 

Place of Performance

Address: USA

Country: USA
 

Record

SN05718251-F 20200712/200710230201 (samdaily.us)
 

Source

SAM.gov Link to This Notice
(may not be valid after Archive Date)

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