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#121
11-22-2014, 02:23 PM
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C-23 Sherpa Model A / B
“This is Black Bird four one to Recon Mike seven, over”.
“This is Black Bird four one to Recon Mike seven, over”. “Hey you Scouts listening to your radios, over?” “This is Black Bird four one to Recon Mike seven, over”. “Mike Seven to Blackbird four, go ahead”“Good to hear you Mike Seven, Black Bird 41 is inbound yours with a drop, over” “Black Bird four one, Dee Zee is hot. Hostiles on North and East flanks with 2 plus, crew served heavy belt feds, and on Arrr Pee Gee, probable platoon strength” “Mike Seven, this is Black Bird four one, this drop will happen in two passes. South side approach, mark your DZ with smoke. Jumpers need air ground speed and direction, over” “Black Bird four one, did you say jumpers, over?” “Mike Seven, affirmative, Jumpers four total, say again Jumpers four total, MARS detachment”. “Black Bird four one, Roger four jumpers, MARS, air speed is still too low from the west. “ “Mike Seven, first drop in nine minutes, two pallets, will home on your location and south 100 meters.” “Black Bird four one, confirm two pallets in drop. My location plus 100 meters South, time now plus nine minutes, over” “Affirmative, Mike Seven” C-23 Sherpa A/B   C-23A Data from Jane's All the World's Aircraft, 1988-1989 General characteristics Crew: Three (Two pilots plus one cabin crew) Capacity: 30 passengers, or 18 Litter based passengers Length: 58 ft 0 in (17.69 m) Wingspan: 74 ft 9 in (22.78 m) Height: 16 ft 3 in (4.95 m) Wing area: 453 ft² (42.1 m²) Airfoil: NACA 63 series, modified Empty weight: 14,200 lb (6,440 kg) Max. takeoff weight: 22,900 lb (10,387 kg) Powerplant: 2 × Pratt & Whitney Canada PT6A-45-R turboprops, 1,198 hp (894 kW) each Performance Maximum speed: 281 mph (245 knots, 453 km/h) at 12,000 ft (2,273 m) Cruise speed: 255 mph (221 knots, 410 km/h) Stall speed: 85 mph (73 knots, 136 km/h) with flaps and landing gear down Range: 770 mi (670 nm, 1,239 km) passenger version, 1,966 kg payload with no reserves Service ceiling: 27,000 ft (5,114 m) Rate of climb: 2,100 ft/min (10.6 m/s) Wing loading: 50.6 lb/ft² (247 kg/m²) Power/mass: 0.052 hp/lb (170 W/kg) C-23B/C Data from U.S. Army Aircraft Since 1947 General characteristics Crew: Three (Two pilots plus one flight engineer) Capacity: 18-20 passengers Length: 58 ft 0 in (17.7 m) Wingspan: 74 ft 10 in (22.8 m) Height: 16 ft 5 in (5.0 m) Wing area: 456 ft² (42.4 m²) Airfoil: NACA 63 series, modified Empty weight: 16,040 lb (7,276 kg) Max. takeoff weight: 25,600 lb (11,610 kg) Powerplant: 2 × Pratt & Whitney Canada PT6A-65AR turboprop, 1,424 shp (1,062 kW) each Performance Maximum speed: 291 mph (252 knots, 468 km/h) Cruise speed: 262 mph (228 knots, 422 km/h) Range: 1,185 mi (1,030 nmi, 1,907 km) Service ceiling: 28,000 ft (5,303 m) C-23 Sherpa Specifications Contractor Short Brothers PLC C-23A Sherpa C-23B Super Sherpa Power Plant 2 Pratt-Whitney PT6A-45R turboprops 2 Pratt-Whitney PT6A-65AR turboprops Take-off power [Sea level static, uninstalled] 1197 shp 1424 shp Design output shaft speed 1700 rpm 1700 rpm Speed 218mph at 10,000ft range 770 miles with 5000lb payload Span 74ft 8in length 58ft height 16ft 3in Weight Gross 25,500lb max Accomodations Crew of three up to 7000lb of freight, including 4 LD3 containers, and engines the size of F100 series Date Deployed Entered USAF inventory 1984 Last edited by ArmySGT.; 11-22-2014 at 02:56 PM. 
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#122
12-31-2014, 05:55 PM
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“Kenworth two Alpha, this is Kenworth two Charlie, over”. The voice came across the digitally encrypted frequency hopping radios with minimal distortion of the woman’s warm Midwestern tenor.
“Kenworth two Charlie, this is Kenworth two Alpha; go ahead, over” Likewise answered with another woman’s Midwestern tenor plus some drawl in the bored tones that pilots exudes to display superior confidence. “Kenworth two Alpha, This is Kenworth two Charlie, On Station, ready for Mission Hand off, over”. “Kenworth two Charlie, This is Kenworth two Alpha, Affirmative, Mission is yours, I am Arrr Tee Bee, don’t cut to many circles out of the sky before Bravo is up to relieve you, over” “Kenworth two Alpha, this is Kenworth two Charlie, thanks, will do. Keep it above angels seven thousand. The dust storms coming up from Colorado and Kansas are kicking up fallout, over”. “Thanks Charlie, will do, Alpha, Out”. The Project discovered that the greater proportion of multi-engine off center line pilots with military and commercial experience easiest to recruit were women. The Project was looking for skills and not genders to fill roles in the desperately understaffed Morrow Project. Women had been flying various large cargo aircraft in various military non-combat roles, airborne surveillance being one.      Grumman E-2 Hawkeye Airborne Early Warning And Control Aircraft DESCRIPTION: Although the US Navy had long desired an airborne surveillance platform, it took several years for electronics to sufficiently decrease in size to be fitted within an aircraft that could operate from an aircraft carrier. Even so, it took several more years for computers to become powerful enough that they could track and process more than a few targets at once. These conditions were finally met, however, culminating in Grumman being named the winner of a Navy contract to develop an airborne early warning and control (AWACS) aircraft. The Grumman design featured twin turboprop engines fitted beneath a high-mounted wing. The long fuselage housed a crew of five, including three mission specialists, and featured a large rotating radome mounted on a pylon above the wing juncture. To compensate for the airflow around the radome, the tail assembly incorporated four fins on a horizontal tail with significant dihedral. This design, first flown in 1960, was originally known as the W2F-1 but was later redesignated the E-2A Hawkeye before entering service. The Navy took delivery of 59 E-2A airframes by 1967, but these were quickly upgraded to the E-2B standard with the installation of a more powerful processing computer and inflight-refueling equipment. Shortly thereafter, Grumman began production of the E-2C model with far superior avionics and more powerful engines. These aircraft have been continuously upgraded with new radar and sensors, improved avionics, more powerful processing equipment, and software upgrades allowing the E-2C Hawkeye to track over 250 targets and control 30 interceptors at once. In addition to protecting the US fleet, the E-2 has also been used in cooperation with law enforcement agencies to interdict drug traffickers. The E-2 has also proven popular with the French Navy and a variety of foreign air forces. As production of the E-2C has wound down, development of a new variant called the E-2D with improved electronics is underway. The US Navy currently plans to purchase 75 of the E-2D model with deliveries beginning in 2010. Data below for E-2C Last modified 06 April 2011 HISTORY: First Flight (W2F-1) 21 October 1961 (E-2C) 20 January 1971 Service Entry (E-2A) 19 January 1964 (E-2C) November 1973 CREW: 2 pilots, 1 radar operator, 1 air control officer, 1 combat information center officer ESTIMATED COST: $51 million AIRFOIL SECTIONS: Wing Root NACA 63A216 Wing Tip NACA 63A414 DIMENSIONS: Length 57.56 ft (17.54 m) Wingspan 80.58 ft (24.56 m) Height 18.31 ft (5.58 m) Wing Area 700.0 ft² (65.03 m²) Canard Area not applicable WEIGHTS: Empty 37,945 lb (17,210 kg) Normal Takeoff unknown Max Takeoff 51,815 lb (23,505 kg) Fuel Capacity 19,015 lb (8,625 kg) Max Payload unknown PROPULSION: Powerplant two Allison T56-425 turboprops Thrust 9,820 ehp (7,322 kW) PERFORMANCE: Max Level Speed at altitude: 390 mph (625 km/h) at sea level: unknown cruise speed: 310 mph (500 km/h) Initial Climb Rate unknown Service Ceiling 36,955 ft (11,275 m) Range typical: 1,500 nm (2,780 km) ferry: 1,540 nm (2,850 km) Endurance 6 hr 15 min g-Limits unknown ARMAMENT: Gun none Stations none Air-to-Air Missile none Air-to-Surface Missile none Bomb none Other none KNOWN VARIANTS: W2F-1 Original designation for the E-2 E-2A Initial production model; 59 built TE-2A E-2 trainers modified from E-2A airframes; 2 converted E-2B Designation for upgraded E-2A airframes modified with an improved computer and inflight-refueling capability E-2C Improved model with far more capable avionics; over 150 built by 2000 TE-2C Trainer model based on the E-2C; 2 built E-2C+ Upgrade for US aircraft including improvements to the radar, software updates, and installation of more powerful engines E-2D New build model equipped with an improved radar system, new workstations, better satellite communications gear, and advanced cockpit displays; 75 to be built from 2009 to 2020 E-2T Former E-2B aircraft upgraded for use by Taiwan; 6 converted C-2 Greyhound Ship-to-shore transport aircraft derived from the E-2 airframe KNOWN COMBAT RECORD: Vietnam War (USN, 1965-1972) Lebanon (Israel, 1982) Libya - Operation El Dorado Canyon (USAF, 1986) Iraq - Operation Desert Storm (USN, 1991) Bosnia - Operation Deliberate Force (USAF, 1995) Afghanistan - Operation Enduring Freedom (USN, 2001-present) Iraq - Operation Iraqi Freedom (USN, 2003-present) Libya - Operation Unified Protector / Harmattan (France, 2011) KNOWN OPERATORS: Egypt, Al Quwwat al Jawwiya il Misriya (Egyptian Air Force) France, Aéronautique Navale (French Naval Air Arm) Israel, Tsvah Haganah le Israel - Heyl Ha'Avir (Israeli Defence Force - Air Force) Japan, Nihon Koku-Jieitai (Japan Air Self Defence Force) Singapore (Republic of Singapore Air Force) Taiwan, Chung-Kuo Kung Chuan (Republic of China Air Force) United States (US Navy) 3-VIEW SCHEMATIC: E-2 Hawkeye SOURCES: Bishop, Chris, ed. The Encyclopedia of Modern Military Weapons: The Comprehensive Guide to Over 1,000 Weapon Systems from 1945 to the Present Day. NY: Barnes & Noble, 1999, p. 347. Bonds, Ray, ed. The Modern US War Machine: An Encyclopedia of American Military Equipment and Strategy. NY: Military Press, 1987, p. 184-185. Donald, David, ed. The Complete Encyclopedia of World Aircraft. NY: Barnes & Noble, 1997, p. 472, Grumman E-2 Hawkeye/TE-2/C-2 Greyhound. Donald, David and Lake, Jon, ed. The Encyclopedia of World Military Aircraft. NY: Barnes & Noble, 2000, p. 185-187, Grumman E-2 Hawkeye. Gunston, Bill, ed. The Encyclopedia of Modern Warplanes. NY: Barnes & Noble, 1995, p. 128, Grumman E-2 Hawkeye. Laur, Timothy M. and Llanso, Steven L. Encyclopedia of Modern U.S. Military Weapons. NY: Berkley Books, 1995, p. 54-57, Hawkeye (E-2). Miller, David, ed. The Illustrated Directory of Modern American Weapons. London: Salamander Books, 2002, p. 184-185, Northrop Grumman E-2C Hawkeye. Müller, Claudio. Aircraft of the World. NY: Muddle Puddle Books, 2004, p. 258-259, Northrop Grumman Hawkeye 2000. Rendall, David. Jane's Aircraft Recognition Guide, 2nd ed. London: Harper Collins Publishers, 1999, p. 167, Northrop Grumman E-2C Hawkeye. Taylor, Michael. Brassey's World Aircraft & Systems Directory 1996/1997. London: Brassey's, 1996, p. 191-192, Northrop Grumman E-2C Hawkeye and Hawkeye II. Taylor, Michael J. H. Brassey's World Aircraft & Systems Directory 1999/2000. London: Brassey's, 1999, p. 169-170, Northrop Grumman E-2C Hawkeye, Group II Hawkeye II and Hawkeye 2000. US Navy E-2 Fact Sheet Last edited by ArmySGT.; 12-31-2014 at 06:28 PM.
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#123
01-08-2015, 08:26 AM
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I think another good aircraft would the Grumman S-2 Tracker, and it Variants
the C-1 Trader COD, E-1 Tracer AWACS, and the Conair Firecat (Water Bomber)
__________________
I will not hide. I will not be deterred nor will I be intimidated from my performing my duty, I am a Canadian Soldier.
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#124
01-11-2015, 10:32 PM
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F4's or A4's would be a good choice as some are still in the bone yards and still in use in some third world Air Forces. If updated with more modern capabilities (electronics) and engines these would be good backbone forces, kind of like the B-52's. On that note if it were possible for the MP procurers to get their hands on some A-6 intruders these would be the B-52's of the project.
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#125
01-12-2015, 11:46 AM
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I am thinking if the project needs a low cost quiet low level reconnaissance aircraft they might have Lockheed YO-3 "Quiet Star"
Lockheed YO-3 "Quiet Star" General characteristics Crew: Two Length: 30 ft 0 in (9.14 m) Wingspan: 57 ft 0 in (17.37 m) Wing Area: 180 sq. ft. (16.70 sq. m) Powerplant: 1 × Continental six-cylinder horizonally-opposed, 210 Source http://en.wikipedia.org/wiki/Lockheed_YO-3
__________________
I will not hide. I will not be deterred nor will I be intimidated from my performing my duty, I am a Canadian Soldier.
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#126
05-23-2015, 04:03 PM
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    General characteristics Crew: 1-2 Capacity: 4-5 passengers Length: 23 ft 0 in (7.01 m) Rotor diameter: 26 ft 4 in (8.03 m) Height: 8 ft 6 in (2.59 m) Disc area: 544.63 ft² (50.60 m²) Empty weight: 1,320 lbs (599 kg) Max. takeoff weight: 3,000 lbs (1361 kg) Powerplant: 1 × One Allison 250-C20B Turboshaft, 420 hp (313 kW) Performance Maximum speed: 160 mph (257 km/h) Range: 230 miles (370 km) Service ceiling: 13,800 ft (4,205 m) Rate of climb: 1,650 ft/min (503 m/min (8.4 m/s)) Armament four TOW anti-tank missiles, or two 7.62mm General Electric M134 Miniguns plus ammuntion, or four General Dynamics Stinger air-to-air missile, or Mk 44 or Mk 46 lightweight torpedoes (ASW Version), or two seven-shot rocket pods
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#127
05-24-2015, 11:11 AM
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One of the bad things about aircraft and helicopters is they have a logistics chain. Fuel we can take care of with handwaving. But what about parts, grease, repairs, and dedicated tools? The Morrow Air Assets are all great five years after the war. But if they survive a hundred fifty years the maintenance alone will ground everything real damn fast.
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#128
05-24-2015, 05:46 PM
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#129
05-25-2015, 01:49 PM
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At the same time, it should be noted that electric vehicles in general have significantly lower maintenance requirements than ICE vehicles. There are a LOT fewer moving parts and that makes everything a lot easier. Your supply and support needs are going to be a lot lower for Morrow vehicles than the original versions required.
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#130
05-25-2015, 06:54 PM
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Very true, for Fourth Edition we have much more in the way of options for air assets. But there all also much more fragile-tech wise and expensive. So I think that older gear is better. Aircraft like the Huey or the Little Bird for Helicopters. Tried and true designs and C-130's for aircraft. Does the Project need anything more than those? Not really.
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#131
05-25-2015, 10:39 PM
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The Little Bird bugs me for a different reason - it is too little. It is fine for observation and even light attack, but if it cannot transport a typical MARS or Recon team, along with standard crew including a door gunner or two, then it is going to be too limited in the missions it can handle. It would be fine as part of an assortment of helicopters, but an assortment of helicopters is what the Project should avoid. Last edited by cosmicfish; 05-26-2015 at 09:52 AM.
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#132
05-26-2015, 12:38 PM
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I always try to reign in the "Oooo... Pretty! Me Want!" reaction by thinking how it would fit into the reconstruction plan. When I apply this to aircraft, I keep coming back to a short list for my manned depot/manufacturing incubator base. There are two VTOLs that usually make the list, CH-47 and V-22, and the C-130. I can make a good case for the C-27 as well. All these aircraft are proved, some with a shaky start, and have reconstruction uses as well. The CH-47 makes for an suitable sky crane, carries 10 tonnes and has the ability to transport many patients as an air ambulance. V-22 is much faster than the CH-47 with half the payload. The C-130 can carry a newly rebuilt or manufactured CNC Mill in the cargo bay for delivery to a plant with an improvised runway far way. The fact that all these aircraft are multi role from early warning, in-flight/ground vehicle refueling, vehicle and troop transport to support MARS operation is good too.
I think this is a needed conversation. It is completely unreasonable to assume the Project would not have air assets. But I keep going back to thinking why they would have them first and then picking airframes that make sense.
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#133
05-26-2015, 01:08 PM
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Of course a Little Bird and any helicopter is just fine five years after the nukes, but a 150 showing up in one really isn't the way to recon a settlement.
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#134
05-26-2015, 01:45 PM
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It can take video or still images for assessment and using milimeter wave radar or LIDAR make accurate measurements for assessing areas to rebuild.
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#135
05-26-2015, 07:44 PM
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And it has twice the footprint of a Stryker, so I am not sure how you figure fitting one into a bolthole is going to be easy, but then again boltholes aren't standardized anyway. Quote:
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#136
05-26-2015, 07:49 PM
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#137
05-26-2015, 08:12 PM
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I find it hard to discuss specific vehicles (especially specialized ones) without the context of the overall inventory. For those advocating the OH-6, what is your vision of the Morrow aerial force? How many aircraft of each type, and how are they distributed?
For example, I recently tossed together a TOE for my version of TMP. I had a large airbase at Prime Base and 6 much smaller regional airbases. Scattered between these I had 8 MH-53M, 16 MH-60M, 24 MV-22B, 8 C-130J, 12 Twin Otters, and 48 MQ-9 Reapers, for a Project of approximately 50,000 people. Bear in mind that this was just a first cut, but I thought that was actually quite a lot of aircraft even though I thought it was what the Project really needs. Even still, it runs heavy simply because these aircraft need to fulfill a lot of different roles and would replace the thousands and thousands of aircraft the US has flying at any given time. And even with 68 manned aircraft I don't see the advantage of the OH-6, because pilots are hard to come by and everything the OH-6 can do, a UH-60 or V-22 can do better.
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#138
05-26-2015, 09:07 PM
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I never figured for a large Morrow Air Force but I did plan on it being scattered about. Prime Base itself only having a small number of aircraft. Its C+C, not an airbase. The Regional Bases have the same thing. Few Aircraft. The Main Supply Depots are the aircraft hubs as there the ones getting supply's out and transporting them. The various teams themselves maybe one in a dozen has a helicopter for use and never an aircraft as landing strips will be few and far between.
Say Prime Base and the Regional Hubs have maybe five Blackhawks and one or two private jets each. The Supply Hubs have a dozen C-130's (For supply airdrops), another dozens Blackhawks (for when dropping it out of an airplane cannot happen or to transport MARS teams), and maybe two dozen Little Birds (For Air Support and scouting) and space for scavenged aircraft the project might find and reuse five years after the nukes drop.. And several teams across the US are equipped with Little Birds.
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#139
05-26-2015, 09:29 PM
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I have 24 A/MH-6s that are to be used during the first phase of recon and then shifted to be be scouting/liason/med-evac/gunship.
They have a few advantages IMO
Other than some small drones, they are my only dispersed aviation assets. The rest being at prime or my 8 regional bases
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#140
05-26-2015, 10:53 PM
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Oh, and there are a ton of small airplanes (bush planes) that can land just about anywhere flatish. Quote:
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#141
05-26-2015, 11:04 PM
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Last edited by cosmicfish; 05-26-2015 at 11:10 PM.
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#142
05-26-2015, 11:11 PM
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#143
05-26-2015, 11:40 PM
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The Supply Hubs are outright Supply Bases and Airfields. They exist to be the stockpiled supply's and are the Teams Grocery Store. They like the various Recon Teams, MARS Teams, Medical Teams, etc report to there Regional Hubs who in turn report to Prime Base.
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#144
05-26-2015, 11:42 PM
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Drones are possible now, and if I plan a modern game with a modern wardate I use them everywhere (down to a 40mm disposable one fired from an M203). I still like to plan for an earlier wardate as well. Duningan's how to make war has the OH-6 beating the UH-60 in Attack rating, Sortie rate and Average Availability. Personally I would go with the UH-1 over the UH-60 as there are literally thousands of retired airframes that could be brought into the program. My project plans to use the stealth (sound) factors of the AH-6 for placement of initial recon teams. As far as my bolt holes go, yes all are generally custom, but I expected my aircraft boltholes to be placed in abandoned railway tunnels, The dimensions of the OH-6 would allow for tighter turning (not flying of course) inside of such a small space. Yes I admit the OH-6 would not be as good as a UH-60 (or UH-1) for Medevac, but it could certainly perform the role as well as the OH-1 (as made famous by M*A*S*H) did. It did perform the role in Vietnam, so I am guessing it maybe saved a life or two.
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#145
05-26-2015, 11:46 PM
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And even if you could, why would Morrow want the added complexity? Are they really in that much of a hurry?
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#146
05-26-2015, 11:47 PM
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I'm using equipment I'm familiar with. C-130's were prime movers of gear and are old dependable aircraft with an easy to maintain airframe. Blackhawks have a relatively good safety record and can pull plenty of gear and personnel around. Huey's would be good too but I know nothing about there operations or repair. Just that there are plenty of them around. I mean if you look there everywhere. The Little Birds are on my list because of there size and multi-purpose nature. They can act as gunships, transports, small scale supply, and medevac. And most importantly there small. They can be buried in a Bolthole and pulled out when needed. larger helicopters will require a full on hanger, something that in the original 5-year timeframe can be destroyed, damaged by weather or human disaster, or just to conspicuous.
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#147
05-26-2015, 11:58 PM
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So do a little math, and list your complete Morrow Air Force. Until you have an actual inventory it is impossible to say whether or not any given aircraft makes sense.
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#148
05-27-2015, 12:13 AM
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#149
05-27-2015, 12:28 AM
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#150
05-27-2015, 02:36 AM
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The way I see it, spare parts are going to be an issue with aircraft.
Assuming best case scenario where the Morrow teams can find intact factories (either built with stuff the Morrow project had hidden in bunkers or simply salvageable factories from before the war) aircraft parts still won't be priority number 1. Even worse if you have several types of aircraft and you would need highly specialized parts. Worst case scenario where everything outside has been destroyed and the Morrow project has to do with the meager stuff they had in their facilities... Spare parts will run out soon. How long can you fly a helicopter without proper maintenance? Or even an airplane. You can keep a car functional for years (although some spare parts will be required) and in that time you can: Recon the area, establish contact with the survivors, start educating the survivors (if they have lost knowledge of modern technology) and even rebuilding the society. Who knows, you could even manage to keep the cars in working condition until you can make more parts and fuel for them. (Though you might have to store the fancy fusion powered stuff for a while and switch back to bio-diesel until a few decades have passed.) With aircraft... Well, you can achieve things that would otherwise be impossible but they will be nearly one-shot devices. "Do you have a battle where air-support is absolutely vital? Do you need to pick up someone/something from a location that cannot be accessed by foot? Yeah, we can do that. ...Once."
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