Loren Data's SAM Daily™

FBO DAILY ISSUE OF SEPTEMBER 21, 2002 FBO #0293
SPECIAL NOTICE

A -- Contamination Avoidance Detection Test Suite Engineering Design and Demonstration of the Active Standoff Chamber

Notice Date

9/19/2002
 

Notice Type

Special Notice
 

Contracting Office

Department of the Navy, Naval Air Systems Command, Naval Air Warfare Center Training Systems Division, 12350 Research Parkway Code 253, Orlando, FL, 32826-3224
 

ZIP Code

32826-3224
 

Solicitation Number

N61339-01-R-0023-STRICOM-BAA
 

Point of Contact

Leslie Kennedy, Contract Specialist, Phone 407-208-4043, Fax 407-380-4164, - Felix Marrero, Contract Specialist, Phone 407-380-4735, Fax 407-384-3888,
 

E-Mail Address

leslie_kennedy@stricom.army.mil, felix_marrero@stricom.army.mil
 

Description

The US Army STRICOM has a requirement for the engineering design and containment demonstration of an Active Standoff Chamber (ASC) for the test and evaluation (T&E) of emerging chemical/biological (CB) DoD detection systems. The ASC will be used for calibration and validation of test equipment as delineated in the attached Statement of Work (SOW). The Government is requesting white paper submittals in response to STRICOM's BAA N61339-01-R-0023, research interest paragraph 4 (Test and Evaluation Research). Specifically, the white papers should address Sections 1 & 4 of the SOW. White papers shall not exceed 20 pages in length (including appendices). Multiple submittals from a single contractor are acceptable. As a part of the white paper submittal, contractors are required to provide a ROM for the engineering design and demonstration as required by the SOW. The overall budget for the design and construction of the ASC is anticipated not to exceed $5.5M. This request only applies to the engineering design and containment demonstration portion of the project. As a result of these white paper submittals, the Government may solicit a formal proposal from any respondent. Any contract awarded as a result of such proposal submittal will require that all right, title, and interest be conveyed to the Government for design specifications, level I conceptual drawings, or other designated technical data. DFARS 252.227-7020 - Rights in Special Works and DFARS 252.204-7000 - Disclosure of Information shall be incorporated into the resultant contract. Contractors shall identify any patented technology proposed and advise the Government of any licensing agreements required. Offerors are advised that Government sponsored support contractors will be involved in evaluating the white papers. Specifically, Aegis Technologies Group, Inc. and Advanced Systems Technology will be participating in the evaluations. All Government sponsored support contractors will be required to sign nondisclosure agreements and statements of financial interest with the Government. Unless an objection to the use of support contractors is received by this activity, consent is given by the submittal of your white paper. Offerors shall submit the following information by 1600 hours Eastern Standard Time, 7 Oct 2002, to Leslie Kennedy, Code 25361, 12350 Research Parkway, Orlando, FL 32826-3275. Submitted white papers shall consist of one signed original, six printed copies, and one softcopy submitted via email in Microsoft Word to leslie_kennedy@stricom.army.mil. STATEMENT OF WORK FOR Contamination Avoidance Detector Test Suite (CADTS) Engineering Design and Demonstration of the Active Standoff Chamber (ASC) Prepared by U.S. Army Simulation, Training and Instrumentation Command (STRICOM) 12350 Research Parkway Orlando, FL 32826-3276 Statement of Work For Contamination Avoidance Detector Test Suite (CADTS) Active Standoff Chamber (ASC) 1. SCOPE. This Statement of Work (SOW) defines the effort required for the engineering design and containment demonstration of an Active Standoff Chamber (ASC) for the test and evaluation (T&E) of emerging chemical/biological (CB) DoD detection systems versus simulants and the calibration and validation of test equipment. 1.1 Background. The CADTS Project was initiated to rectify the current broad-based, short-term deficiencies that exist for testing DoD detector systems. Much of the current DoD CB instrumentation and facilities can test only point and passive standoff detection systems; future DoD detection systems will use active standoff technology and require a new suite of instrumentation. An active standoff facility is required for the evaluation of emerging CB Light Detection and Ranging (LIDAR) detection systems. 1.2 Objectives. The objective of this effort is to develop an engineering design with specifications and concept drawings plus a demonstration of the containment technology of an Active Standoff Chamber (ASC) that can generate and contain realistic CB simulant threats and challenge/evaluate active detector performance at standoff distances of 0.5 ? 5.0 km. All tests will be run under steady state (non-dynamic) threat cloud conditions. It is also desirable that the facility can be easily moved from one test site to another at the test range. The ASC will also be used to calibrate and validate range test equipment such as the referee LIDAR systems. The ACS will need to provide: 1) a means for transmission of the laser beam through opposite ends of the chamber with no optical disturbance to either the incident beam or scattered light (i.e., be ?invisible? to the LIDAR detector); 2) unobstructed view of the CB cloud within the chamber; 3) minimum back scatter and reflection from any instrument or chamber material; 4) the ability to disseminate simulants of chemical vapors/liquid aerosols/solid aerosols/particulates and biological liquid/solid aerosols; 5) a homogeneous cloud within the chamber for at least 15 minutes for the particle size distributions and concentrations listed in Table 1 (< 1% concentration change due to aerosol settling); 6) a 3 m diameter ?circular? or 3 m square optical aperture; 7) an optical working length of at least 30 m; 8) techniques and SOPs for the chamber and associated equipment to be readily and easily decontaminated; 9) means for preventing leakage/release of the CB simulant materials into the atmosphere; 10) capability to be easily moved to different locations at any one test range. The ASC must have instrumentation so cloud characterization can be monitored for a minimum of 15 minutes. It is also desirable that the chamber has limited temperature-conditioning capability to allow for year-round operation in cold climates (no colder than 40 degrees F). Table 1. Range of dissemination requirements Threat Threshold Objective Vapor (mg/m3) 0.1 - 100 0.01 - 1000 Liquid (micron) 10 ?500 1 ? 1000 Aerosol (particles/liter) 1000 - 2000 10 ? 10,000 Particulate (micron) 2 - 500 0.7 ? 1000 Aerosol (particles/liter) 500 ? 10,000 10 ? 100,000 The engineering design study should address but not be limited to the following: Overall size and shape of chamber; construction materials; coating materials to minimize unwanted reflections yet provide for ease of decontamination; technology/methodology to achieve unobstructed end ?windows?; the number and location of access and instrumentation ports; methodology to achieve a homogeneous/stable cloud; threat cloud dissemination and recirculation systems; referee and monitoring systems; means for minimizing test cycle time; filtration system; sustainability issues including decontamination methodology and maintenance; test cycle control system; real-time data integration and processing. It is mandatory that the design study include experimental verification that the technology chosen for the end ?windows? satisfies all optical and leakage requirements. 1.3 Assumptions. The ASC will be initially based at Dugway Proving Ground, UT and will use CB simulants only. A separate control room will be used to operate the ASC systems. The containment technique for the simulants needs to achieve the same levels that are acceptable (mandated) for ?live? agents (approximately 0.0001 milligram per cubic liter). Assume life span of this facility to be 10 years with an expected operational use of 1000 hours per year. 2. APPLICABLE DOCUMENTS. The following documents are applicable to this SOW to the extent specified herein. 2.1 Other Government Documents. Test Capability Requirements Document (TCRD) for the Contamination Avoidance Detector Test Suite (CADTS). 2.2 Availability of Other Government Documents. Applicable EPA documents (These document will be provided electronically. 3. REQUIREMENTS. 3.1 Program Management. The contractor shall provide overall program management and administrative support to ensure that the requirements of the contract are accomplished. (DI-MGMT-80227) 3.1.1 Program Schedule. It is desired that the engineering design and experimental verification/demonstration of the end ?window? technology be completed 6 months after contract award. 3.1.2 Meetings and Reviews. The contractor shall attend and conduct meetings, reviews, and conferences. They shall document action items, coordinate resolutions, and track action items until closure. 3.1.3 Integrated Product Team (IPT) Meetings . The contractor shall participate and conduct IPT meetings of the CADTS team and CB community to include but not limited to STRICOM, SBCCOM, DPG, PMs for Artemis and JBSDS, ATEC, DOTE JPOCBD, (others to be defined by CADTS team leader) and address the full spectrum of the program concerns including system engineering, schedule, financial, and demonstration. You shall present the following: a. Program schedules b. Allocated and detailed designs. c. Identify problems. d. Program status. 3.2 System Engineering. The contractor shall plan, organize, manage, analyze, design, integrate, test, install, and deliver the engineering design in accordance with this Statement of Work and the TCRD. 3.3 Test and Evaluation. The contractor shall plan, coordinate, establish and implement a test and evaluation program to verify the Active Standoff Chamber will be in compliant to all provided documents. 4.0 Restrictions. The nature and sensitivities involved with the activities conducted under this task may require organizational structure and special safeguards. There will be no privileged, proprietary or otherwise sensitive information exchanged without the Government?s direction or knowledge. If the final engineering design and demonstration meets the government?s needs, the government may elect to have the facility constructed. Government requires unconditional data rights to the design specifications and level one conceptual drawings.
 

Place of Performance

Address: Contractor Facility
 

Record

SN00171405-W 20020921/020919213756 (fbodaily.com)
 

Source

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

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