Loren Data's SAM Daily™

FBO DAILY - FEDBIZOPPS ISSUE OF JUNE 15, 2014 FBO #4586
SPECIAL NOTICE

15 -- Fixed Wing Utility Aircraft (FUA)

Notice Date

6/13/2014
 

Notice Type

Special Notice
 

NAICS

336411 — Aircraft Manufacturing
 

Contracting Office

ACC-RSA - (Aviation), ATTN: CCAM, Building 5303, Martin Road, Redstone Arsenal, AL 35898-5280
 

ZIP Code

35898-5280
 

Solicitation Number

W58RGZ14FUA
 

Archive Date

6/13/2015
 

Point of Contact

Karen Fletcher, 256-876-5137
 

E-Mail Address

ACC-RSA - (Aviation)
(karen.l.fletcher12.civ@mail.mil)
 

Small Business Set-Aside

N/A
 

Description

This is a Request for Information (RFI) for market survey purposes only. This is not a solicitation for proposals and no contract shall be awarded from this announcement. The Program Executive Office for Aviation, United States Army Aviation and Missile Command (AMCOM), Redstone Arsenal, Alabama, anticipates a potential requirement for up to 92 aircraft to replace the United States Army's C-12 and C-26 Operational Support Aircraft. The Army has an ongoing requirement to provide Commanders with flexibility in meeting time-sensitive movement of key personnel throughout the theater of operations. There is also a requirement to integrate military communications, navigation, surveillance, and survivability equipment. The purpose of this announcement is to gain knowledge of interest, capabilities, and qualifications of business sources to support this potential requirement as a prime contractor. This announcement supports the Federal Acquisition Regulation Part 10 Market Research requirement. A. In order to be considered a suitable candidate, all proposed replacement aircraft must meet the following minimum Critical Performance Requirements: 1.Must be certified IAW Federal Aviation Administration (FAA) Part 21; commercial in nature, currently in production, and capable of being modified to include military communications, navigation, surveillance, and survivability equipment. 2.Airworthiness must be certifiable by either another nation's civil certification recognized by the FAA, or IAW the Support for Military Commercial Derivative Aircraft Federal Reimbursable Agreement between the Department of Transportation Federal Aviation Administration and the U.S. Air Force, the U.S. Army, the U.S. Navy/Marine Corps and the U.S. Coast Guard, Agreement No. AVS-OA-ACE-12-3035. 3.Sustainment Threshold (T): The FUA must maintain an individual aircraft (A/C) Materiel Availability (Am) of 80% across the fleet. Objective (O): The FUA must maintain an individual A/C Am of ninety percent (90%) across the fleet. This value is to be maintained in all operational environments. 4.Energy The FUA must demonstrate energy (fuel burn) efficiency from calculated fuel consumption rates per passenger / per nautical mile, while operating in the normal cruise profile at FL 280 under International Standard Atmosphere (ISA) conditions. The energy (fuel burn) efficiency was determined by dividing the fuel flow rate (534 pounds of fuel) by TAS (261 knots at an aircraft weight of 13,000 pounds); the amount to be further divided by seven (7) passengers. (T): The FUA must demonstrate energy (fuel burn) efficiency better than.29 pounds of fuel per passenger per nautical mile. (O): The FUA must demonstrate energy (fuel burn) efficiency better than.19 pounds of fuel per passenger per nautical mile. (Fuel Burn Efficiency (FBE) = (fuel burn rate/(261 TAS x # of passengers) Use best flight A/C profile and A/C max GW with crew, cargo/passengers.) 5.Aircraft Self-Deployment The FUA must be capable of self-deploying over extended ranges. (T): The FUA, with a minimum of nine (9) passenger seats, 2 crewmembers and their personal baggage (400 lbs max), must be capable of self-deploying over an un-refueled distance of 2,400 NM and land with a 45 minute fuel reserve. If additional, internal, aircraft fuel tanks are installed, they must be completely removed and the FUA configured to FMC (intra-theater requirements) within eight (8) hours after arrival at the deployment destination. (O): A fully mission capable aircraft-nine seats installed-with 2 crewmembers and their personal baggage, must be capable of self-deploying over an un-refueled distance of 2,400 NM and land with a 45 minute fuel reserve. The crewmembers baggage weight must not exceed four hundred (400) pounds. 6.Aircraft Range and Payload (T): A fully mission capable aircraft, with 2 crewmembers, must fly without refueling, 1,200 NM while transporting 9 passengers with equipment, for a cabin payload of at least 2,700 pounds and land with a 45 minute fuel reserve. (O): A fully mission capable aircraft, with 2 crewmembers, must fly without refueling, 2,400 NM while transporting 9 passengers with equipment, for a cabin payload of at least 2,700 pounds and land with a 45 minute fuel reserve. 7.Aircraft Crosswind Component (T) = (O): The FUA must have a maximum demonstrated crosswind component of 25 knots or greater at 90 degrees. 8.Center of Gravity (T): The FUA with 2 crewmembers must accommodate 600 pounds (considered part of the max cabin payload, e.g., 2700 lbs) in the cargo area without exceeding center of gravity limits under all fuel loading conditions. The aircraft with 2 crewmembers must not exceed center of gravity limits while transporting 9 passengers and their equipment under all fuel loading conditions. (O): The FUA with 2 crewmembers must accommodate 900 pounds in the cargo area without exceeding center of gravity limits under all fuel loading conditions. The aircraft with 2 crewmembers must not exceed center of gravity limits while transporting 9 passengers and their equipment under all fuel loading conditions. 9.One Engine Inoperative Climb Performance The FUA must be capable of one engine inoperative (critical engine) climb performance. (T): A fully mission capable aircraft with 2 crewmembers at Maximum Take-Off Weight (MTOW), 2,000 PA and 35 degrees C, must take-off from a level, dry, paved 5,500 foot runway, and obtain a 3.3 percent second segment climb gradient with one engine inoperative. (O): A fully mission capable aircraft with 2 crewmembers at MTOW, 5,000 PA and 35 degrees C, must take-off from a level, dry, paved 5,500 foot runway, and obtain a 3.3 percent second segment climb gradient with one engine inoperative. 10.Heavy Aircraft High Hot Take-Off Performance (T): A fully mission capable aircraft with 2 crewmembers at MTOW, 6000PA and 35 degrees C, must take-off from a level, dry, paved 8,400 foot improved runway, while in compliance with standard departure procedures. In addition, the aircraft must be capable of an accelerate stop distance not to exceed 8,400 feet. (O): A fully mission capable aircraft with 2 crewmembers at MTOW, 6000 PA and 35 degrees C, must take-off from a level, dry, paved 6,400 foot improved runway, while in compliance with standard departure procedures. In addition, the aircraft must be capable of an accelerate stop distance not to exceed 6,400 feet. 11.Operations in Extreme Conditions (FAA part 23.1416 and Part 23.1419) (T): The FUA must have anti-ice/de-ice systems in order to conduct flight operations in moderate icing conditions and be capable of self-sustained world-wide operations in temperature ranges of -40C to +50C. (O): The aircraft must be able to conduct flight operations in moderate icing conditions and be capable of self-sustained world-wide operations in temperature ranges of -46C to +60C. 12.Flight Deck, Cabin and Baggage Area Pressurization (T) = (O): The aircraft pressurization system must be compliant with FAR Part 23.365 and Part 23.787. 13.Flight Deck, Cabin, Baggage Area, Ventilated Air (T) = (O): The Environmental Control System (ECS) must meet FAR Part 23.831 and be optimized for the flight deck. 14.Aircraft - Service Life (T) = (O): The expected service life of the aircraft shall be at least 15,000 flight hours (600 hours annually). 15.Emergency Egress (T) = (O): The FUA must meet FAA requirements for aircrew and passenger emergency egress as per FAR Part 23.803 thru 23.813, as applicable. 16.Supplemental Oxygen System (T) = (O): The FUA must be capable of providing emergency supplemental oxygen to the aircrew and passengers. The aircraft system must be compliant with FAR Part 23.1441. 17.Aircraft Service Ceiling (T): A fully mission capable aircraft with a service ceiling of 35,000 MSL. (O): A fully mission capable aircraft with a service ceiling of 40,000 MSL. 18.Aircraft Survivability Equipment (ASE) for Hostile Fire, Laser, and Radar Frequency threats (T) = (O): The FUA must be equipped with an ASE suite that incorporates the Army's ASE fielded equipment capabilities that is equal to or better than the ASE suite currently on the platform to detect RF, laser and hostile fire, and to provide protection against RF continuous and pulsed radar. The ASE suite must also provide crew warning, automatic countermeasure initiation and manual override capability. The ASE suite software must be readily programmable and upgradeable to account for changing threat capabilities and scenarios. 19.Civil Navigation System (CNS) / Air Traffic Management (ATM) (T): The FUA must comply with FAA Technical Standard Orders and ICAO Standards and Recommended Practices (SARPS) for flights in the NAS and international civil airspace. The FUA must navigate globally, while conforming to civil airspace Required Navigation Performance (RNP) and Area Navigation (RNAV) requirements. The FUA must also comply with minimum aviation system performance standards for area navigation in an RNP environment. Space based navigation systems must remain compliant with CJCSI 6130.01 (or current update). RNP capability shall include oceanic, enroute, terminal and approach certified IAW FAA/ICAO technical standards or military equivalent. The system must support arrival and departure procedures, LNAV, LNAV/VNAV, LPV approach capability. (O): The FUA must support space based, and when available, ground based augmentation. Rationale: RNP and RNAV capabilities are necessary for unrestricted access to airspace worldwide. B. The aircraft should also have the following additional characteristics: 1.Aircraft Cruise Airspeed Threshold (T): A fully mission capable aircraft, with 2 crewmembers and their personal baggage (both crewmembers total baggage weight not to exceed 400 pounds), must fly an unrefueled distance of 2,400 NM, while maintaining an average cruise airspeed of 300 KTAS. Objective (O): A fully mission capable aircraft, with 2 crewmembers and their personal baggage (both crewmembers total baggage weight not to exceed 400 pounds), must fly an unrefueled distance of 2,400 NM, while maintaining an average cruise airspeed of 400 KTAS. 2.Passenger Seats (T): The aircraft must have nine (9) easily removable passenger seats with fold-out or removable tables and access to the on-board intercom function and meet FAA minimum performance standards. (O): The aircraft must have twelve (12) easily removable passenger seats with fold-out or removable tables and access to the on-board intercom function meet FAA minimum performance standards. 3.Semi-Improved Runway Operations The FUA must be capable of conducting sustained operations to/from semi-improved runways without damage to the aircraft engine driven components, fuselage, landing gear or undercarriage. For purposes of this CPD, a semi-improved runway is an unpaved runway, based on compacted native soils/aggregates, which has been cleared of debris and obstructions to prevent damage to landing aircraft. 4.Enhanced Vision System (EVS) (T): Aircraft interior (cockpit/flight deck) and exterior lighting must allow safe accomplishment of all missions, with and without, current Army night vision equipment. Control panels and displays must be compatible with NVIS/NVG operations by clearly displaying flight and aircraft performance parameters during critical landing or take-off phases of flight. (O): The aircraft enhanced vision system should provide situational awareness at ranges out to 10 nautical miles and provide detailed terrain information during the landing and take-off segments of a mission. As technology evolves, the aircraft must be equipped with a complete Degraded Visional Environment (DVE) capability. 5.Cargo Area and Access (T): The cargo area must accommodate and or be reconfigurable to provide 55 cubic feet of storage space for 600 pounds of equipment, for multiple type loads and have tie down points to secure luggage and equipment. The cargo door must have an opening equal to or greater than fifty-two (52) inches wide by fifty-two (52) inches high and meet FAA minimum performance standards (FAR Part 23.787) to facilitate the loading and unloading of equipment. (O): The cargo area must accommodate 90 cubic feet of space providing storage for 900 pounds of equipment with tie down points to secure luggage and equipment. Cargo door requirement remains the same. 6.Relief Tube and Toilet (T) = (O): The cabin area must have a relief tube, and chemical toilet that meets FAA minimum performance standards and is easily accessible by the aircrew and passengers Toilet. 7.Aircraft Self Sustainability (T): The FUA must be able to operate with self-contained hydraulic and battery electrical power without the need for external ground support. (O): The FUA must be able to operate with self-contained hydraulic and internal auxiliary power unit (APU) electrical power. 8.Fuel System (T) = (O): The FUA must be capable of closed circuit or gravity refueling and de-fueling operations (FAR Part 23.951-1001). The fuel system must provide a means to prevent tank over pressurization in the event of a refueling malfunction, as well as a capability to cross feed fuel from one system to another. 9.Fuel (T) = (O): The FUA must use JP-8 as the standard fuel, but must also safely operate on other approved alternate fuels such as JP-8+100, Jet A, Jet A-1, Jet B, JP-5, and JP-4. Operation on emergency fuel(s) should be in accordance with engine OEM directives. 10.Open Systems Architecture (OSA) (T) = (O): The FUA shall employ a modular and open architecture to support unified programmable interfaces for future growth, improved supportability and the addition of new systems and subsystems. 11.Ditching Equipment (T) = (O): The aircraft will be equipped IAW FAR Part 23.1415. 12.Cockpit Voice Recorder (CVR) (T) = (O): The FUA must have a cockpit voice recorder that is certified and compliant with FAR 23.1457. 13.Flight Data Recorder (FDR) (T) = (O): The FUA must have a flight data recorder that is certified and compliant with FAR 23.1459. 14.Information Display System (T): The FUA must provide full-color, multifunction, reversionary displays at each crew station that include: Advisories, Cautions, and Warnings (ACAWS) messages, flight instruments, engine performance, navigation information and civil moving map imagery. (O): In addition to the threshold requirements, the aircraft must have a third multi-functional display (MFD) suitable for shared use by all crewmembers. 15.Flight Management System (T): The FUA must have a dual Flight Management System (FMS) that implements digital messaging systems with open architecture support for digital communications equipment to simplify and automate flight navigation tasks and to increase safety, while reducing pilot workload. The system must provide a single, certified control source for both civil and tactical (enroute/terminal/approach) route management. (O): In addition to the threshold requirements, the aircraft must provide ADS-C (Automatic Dependant Surveillance-Contract), CPDLC (Controller to Pilot Data Link) and AFN (ATS Facilities Notification) available via ARINC compliant SATCOM system. HF and VHF data link support is desired. 16.Weather Information (Multi-Mode Weather Radar System) (T): The system must be capable of lightning detection and of displaying weather information out to 300 nm. The system must be capable of displaying weather information at 10, 25, 50, 100, 200, and 300 nm. The radar system must be able to tilt 12 degrees and have azimuth coverage of 30 degrees of the centerline. The system must depict weather using 3 levels of color and have a ground correlation capability. Wind shear must also be detected 5 nm in front of the aircraft. (O): The FUA Multimode Radar System must meet all Threshold requirements. In addition, the system (weather radar, lightning and wind shear) must depict weather using 6 levels of color and detect wind shear up to 10 nm in front of the aircraft. 17.Line of Sight (LOS) Civil Air Traffic Communications - Voice (T) = (O): Dual civil compatible VHF-AM radio with 8.33 channel spacing is required. 18.Beyond Line of Sight (BLOS) Civil Air Traffic Communications (T): One Satellite Communications (SATCOM) radio, compatible with civil aviation standards, is required for voice communication. (O): In addition to the threshold requirements, the radio must be capable of establishing an ATC data link. 19.Civil Airspace Management (T) = (O): The aircraft must be IFR certified. 20.Reduced Vertical Separation Minimum (RVSM) (T) = (O): The aircraft must be RVSM certification capable. 21.Civil Surveillance (ADS-B) (T): The FUA must have an ADS-B OUT (Automatic Dependent Surveillance - Mode B/transmit) capability. (O): The aircraft must have ADS-B OUT and IN (transmit and receive) with Universal Access Transceiver/Traffic Information Service-Broadcast (UAT/TIS - B) and Cockpit Display of Traffic Information (CDTI) capabilities. 22.Line of Sight (LOS) Military Communications - Secure Voice (T) = (O): The aircraft must have one (1) VHF FM Army SINCGARS compatible radio capable of secure voice communication. 23.Line of Sight (LOS) Military Communications - Secure Voice (T) = (O): The FUA must have one (1) UHF radio, capable of secure communications on a HaveQuick II net. 24.Beyond Line of Sight (LOS) Military Communications - Secure Voice (T) = (O): The aircraft must have one (1) HF radio with Automatic Link Establishment (ALE) and Selective Calling (SELCAL) capabilities. 25.Beyond Line of Sight (BLOS) Military Communications - Secure Voice (T): The FUA must have one (1) DAMA-IW (Demand Assigned Multiple Access-Integrated Waveform) SATCOM radio capable of secure voice communication.(O): In addition to the threshold capability, the DAMA-IW SATCOM radio should have a path to achieve a MUOS (Mobile User Objective System) capability. 26.Beyond Line of Sight (BLOS) Military Communications - Secure Data Link (T): The aircraft must have an EDM (Electronic Data Manager) device, accessible from either crew station that provides crewmembers with digital flight information and access to the battle command system. (O): In addition to threshold requirements, the EDM must provide digital flight information integrated into aircraft display systems. 27.Aircraft - Situational Awareness Blue Force Tracker (BFT) - Blue Forces (T) = (O): The FUA must be able to accommodate installation of the (BFT) system. An integrated cockpit display system or separately mounted terminal in the cockpit must be installed. The system must be compatible with the upgrade path of Force XXI Battle Command Brigade and Below (FBCB2) and BFT. 28.Military Certified Protected Navigation (T): The aircraft will use PPS (Precise Positioning Service) for primary navigation input. (O): In addition to threshold requirements, the aircraft must use SPS (Standard Positioning Service) for secondary navigation input. 29.Military Aircraft Identification (Transponder) (T): The aircraft must support IFF Modes 1,2,3,4 and 5 Level 1. (O): In addition to threshold requirements, the aircraft must support IFF Modes 1,2,3,4 and 5 Level 2. 30.Search and Rescue (ELT) (T): The aircraft must have one (1) 406 MHz ELT with automatic activation and manual (tactical) disarm capability. (O): The FUA must have two (2) 406 MHz ELTs with automatic activation and manual (tactical) disarm capability. 31.Passenger External Communications (T): The FUA cabin area must provide passengers data access to both NIPR and SIPR net communications. (O): In addition to threshold requirements, the FUA cabin area must provide passengers access to commercial cellular networks and direct video feeds from sensors or from the systems with similar capabilities, such as the One Station Remote Video Terminal (OSRVT). 32.Civil Alternate Navigation Capability (Ground Based) (T): The aircraft must be certified for navigation and approach using VOR and P-ILS (Protected Instrument Landing System quote mark FM immunity quote mark ) systems. (O): In addition to threshold requirements, the aircraft can use dual DME to meet RNAV requirements. The aircraft must provide supplemental support for TACAN navigation/approach. 33.Civil Situational Awareness (Air) (T) = (O): The aircraft must support the latest version of the traffic collision avoidance system (TCAS) by providing fully integrated audio and visual situational awareness information on a primary flight displays(PFD) and/or multi-functional displays(MFD), that is easily visible to and programmable by both pilots. 34.Characteristic 35: Civil Situation Awareness (Terrain) (T) = (O): The FUA must provide the aircrew with a 1) ground proximity, 2) forward-looking and 3) premature descent alert TAWS/EGPWS (Terrain Awareness Warning System/Enhanced Ground Proximity Warning System). 35.Production Certification (T) = (O): The aircraft shall have a production certification issued by the IAW with FAR Part 21 for aircraft manufactured inside the United States or an FAA recognized equivalent for aircraft manufactured outside the United States. 36.Baseline Certification FAR Part 23 (T) = (O): The aircraft shall be certificated to the requirements of FAR Part 23, Normal, Utility, Acrobatic and Commuter Category Aircraft, with a US Type Certificate (TC) and Supplemental Type Certificate(s) (STC) or Amended Type Certificate(s), as required. C.Offeror's response to this announcement shall be limited to 15 pages (excluding coversheets and/or table of contents) and shall include the following information: 1.Offeror's name, address, point of contact, phone number, and e-mail address. 2.Does the offeror's proposed replacement aircraft meet the criteria listed in paragraphs A and B of this RFI? If yes, explain quote mark how quote mark the criteria will be met. 3.Copy of the Offeror's Type Certificate Data Sheet verifying US civil type certification or a copy of the Federal Aviation Administration (FAA) 8110-12 application for US civil type certification or a copy of a foreign civil airworthiness authority's application and submittal letter to the FAA for US civil type certification validation. 4.Offeror's type of small business and Business Size (whether HUB Zone, Service Disabled Veteran Owned Small Business, 8(a), etc...) 5.Offeror's Joint Venture information if applicable -existing and potential 6.Aircraft technical specification brochures and supporting information 7.Aircraft current market sales price 8.Estimated annual aircraft operational costs and cost per flight hour 9.What is the offeror's excess production capacity to potentially meet the Army's requirement for delivery of up to 92 aircraft within a 10 year window beginning in 2017? D.All responses shall be submitted to the U.S. Army Fixed Wing Project Management Office, ATTN: SFAE-AV-FW/Frederick L. Thompson (Procurement Analyst), 650 Discovery Drive, Huntsville, Alabama 35806. Electronic email responses will be accepted at frederick.l.thompson.civ@mail.mil. Your responses are required by 1600 CST 11 July 2014. This is market research and is not a solicitation for requests for proposal. No reimbursement shall be made for any costs associated with providing information in response to this announcement or any follow up information requests. Nothing shall be construed herein or through this market research process to commit or obligate the Government to further action as a result of this research. POINT OF CONTACT: Mr. Freddy Thompson, 256-313-3184
 

Web Link

FBO.gov Permalink
(https://www.fbo.gov/notices/dfc4545919bc742f1e0d60bdf69c184f)
 

Record

SN03394932-W 20140615/140613234732-dfc4545919bc742f1e0d60bdf69c184f (fbodaily.com)
 

Source

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

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