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Ukraine Deliveries 2 Il-78 Midas air-to-air refueling aircraft to PAF!!!

Stick to making pictures mate.........:disagree:

i am just confuz about IL78 becuase our power belongs to F16's so we must have this air-to-air refuelling tankers for F16s not for Jf and other aircrafts .... :S others aircrafts on 2nd Priority our 1st Priority is F16 series what do think im wrong ?
 
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Some of the Mirages have been modified for air refueling.
 
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agreed!

if PAF need Air-to-Air refueling aircraft so go for F16... KC 135.. these IL 78 refuel mirage Jf17 paper plane lol

These are the first aircraft of their kind in PAF's hands the capabilities they offer are immense not to mention highly strategic and you use this opportunity to discredit the JF-17 and the mighty Midas? Mate you do realize that the JF-17 program is a success and that up to 300 will be flying in the future with probably close to 100 FC-20...? Wouldn't you want the bulk of our air force to be covered with A2A refueling?

Who's to say that 1 or 2 Stratotankers won't be procured later that's IF we decide to go ahead with the Block 52 purchase but as pointed out earlier by a knowledgeable member, fuel is not a big issue for them due to CFTs.

Perhaps stick to call of duty 4 mate. :enjoy:
 
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The F16's are controlled that much by USA you will not able to use them on the other front. Besides that I can predict that exactly when TSHTF (the s.. hits the f) you will have either no control over that asset or you will be influenced. I would rather go for more non F16 options and see the F16 purely as handy extra but surely no part of your main force. FC20 and JF17 will be hi-lo. Mayeb another extra like Gripen NG but that need is decreasing by the day.

I agree with KB. You are doing wonder job with other subject... Better outperforming something then underperforming over the dangerous line.
 
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These are the first aircraft of their kind in PAF's hands the capabilities they offer are immense not to mention highly strategic and you use this opportunity to discredit the JF-17 and the mighty Midas? Mate you do realize that the JF-17 program is a success and that up to 300 will be flying in the future with probably close to 100 FC-20...? Wouldn't you want the bulk of our air force to be covered with A2A refueling?

Who's to say that 1 or 2 Stratotankers won't be procured later that's IF we decide to go ahead with the Block 52 purchase but as pointed out earlier by a knowledgeable member, fuel is not a big issue for them due to CFTs.

Perhaps stick to call of duty 4 mate. :enjoy:

You're ignoring some valid points the critics are making. Firstly, everyone knows the JF-17 is going to be the main backbone of the PAF but it is not so right now. However the F-16 is the main strike component of PAF right now and not only that but it is in numbers that are kinda small so midair refuelling for F16s would really help. But these IL-78s have not been modded to cope with the F-16 which is currently the favorite fighter within PAF with a huge amount of time spent learning the ins and outs of the craft both by pilots and engineers.

The Ukraine knows the IL-76 family inside out so before delivery why were they not subcontracted to mod these whales to handle F-16s? Ukrainians do not have a probe type AAR retrofit for the Midas which would have been perfect---but now what? Modding the F-16s to comply with the probe/drogue system will be insanely hard and close to unfeasable. The ukranians should really have been told to take care of that modification.

There are already refuelers which can handle both the boom and the probe/drogue methods. This is what is really needed by PAF.
 
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I think Mirages dont have the air refuel capability.


paf mirage with air refuel system in PAC kamra :P

cae3e68752c2173549ca7876bf777fcb._.jpg
 
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You're ignoring some valid points the critics are making. Firstly, everyone knows the JF-17 is going to be the main backbone of the PAF but it is not so right now. However the F-16 is the main strike component of PAF right now and not only that but it is in numbers that are kinda small so midair refuelling for F16s would really help. But these IL-78s have not been modded to cope with the F-16 which is currently the favorite fighter within PAF with a huge amount of time spent learning the ins and outs of the craft both by pilots and engineers.

The Ukraine knows the IL-76 family inside out so before delivery why were they not subcontracted to mod these whales to handle F-16s? Ukrainians do not have a probe type AAR retrofit for the Midas which would have been perfect---but now what? Modding the F-16s to comply with the probe/drogue system will be insanely hard and close to unfeasable. The ukranians should really have been told to take care of that modification.

There are already refuelers which can handle both the boom and the probe/drogue methods. This is what is really needed by PAF.

How can the Ukranians simply "mod" the Midas when they've never seen an F-16 before? Anyways you fail to forget that Mirage have already been fitted with probes as of right now. They in fact make a better strike option if needed, F-16 plays air superiority.

F-16's have strings attached mate.
 
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How can the Ukranians simply "mod" the Midas when they've never seen an F-16 before? Anyways you fail to forget that Mirage have already been fitted with probes as of right now. They in fact make a better strike option if needed, F-16 plays air superiority.

The probe and drogue AAR system used by the F-16 is a NATO standard and as such the Ukranians don't have to see an F-16 in order to mod their crafts. And yes I knew about the Mirages being compatible, it was mentioned many times in this thread. My point is the Ukrainians are making money on this deal, they know the hardware inside out so it is more efficient for those guys to pre-fit one of the aircraft with an option to convert it to the prope and drogue system compatible with F-16s. What would be best is to have at least one of them be equipped with both the boom and the probe/drogue simultaneously. This has been done before too and is perfect.


F-16's have strings attached mate.

I know there are strings attached but people in PAF are obsessive over F16s. Even here most of the members I think grew up drooling over pics of F16s or something? So what can you do, maybe there is rishwat or some other nasty involved. :hitwall:

And besides strings I think they also have bugging devices, back doors and other junk built into them and ESPECIALLY built into the electronics and firmware. In my opinion these potential deathtraps should be sold off to some other sucker like Bangladesh maybe but PAF seems obsessed with that plane and has already invested too much time in it so it will be a slow phaseout.
 
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Dimensions
Height57ft 1inWingspan197ft 10inFully Loaded, Take-Off Field Length7,000ft runwayMaximum Fuel Off-Load Rate per Pod420gal/minCentreline Hose Drum Refuelling Hose and Drogue Refuelling Unit1Centreline Hose Length90ftCentreline Hose and Drogue, Off-Load Refuelling Rate600gal/minFull specifications
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In February 2008, the US Air Force chose the KC-30, since renamed KC-45, for its KC-X tanker aircraft replacement programme, to replace its fleet of KC-135 air tanker aircraft approaching the end of operational life.

Northrop Grumman, teamed with EADS North America, proposed the KC-30 tanker aircraft, a variant of the Airbus A330-200, for the USAF KC-X requirement. An initial contract for the first four of a 179 aircraft requirement was placed.

Boeing appealed against the award and asked the US Government Accountability Office (GAO) to review the decision in relation to the evaluation award criteria established for the competition. The GAO sustained the protest and in June 2008 recommended that the USAF reopen the bidding process. In September 2008, the US Department of Defense cancelled the competition, citing the need to defer any decision for the next presidential administration taking power in January 2008.

"The KC-45 tanker aircraft is based on the A330 multi-role tanker transport."The first KC-45 Tanker aircraft, the D-1, completed its maiden flight in September 2007. D-1 will be the first aircraft delivered to the US Air Force. D-2 completed its first flight in May 2008.

The USAF had planned to pursue a lease arrangement with Boeing for KC-767 tankers but a revised request for proposals for the KC-X was issued in December 2006. Northrop Grumman submitted a final proposal in December 2007.

The Northrop Grumman team includes EADS, General Electric Aviation, Sargent Fletcher, Honeywell, Parker, AAR Cargo Systems, Telephonics and Knight Aerospace.

The KC-45 aircraft is based on the A330 Multi-role Tanker Transport, selected by the air forces of Australia, the United Kingdom and the United Arab Emirates.

Mission equipment will include EADS's fly-by-wire Aerial Refuelling Boom System (ARBS), with two all-digital FRL 905E-series hose and drogue refuelling pods, i.e. the same configuration as selected by the Royal Australian Air Force, whose first KC-30B Tanker has been completed and is being readied for delivery.

Final assembly of the KC-45 will be carried out at EADS's Brookley Field facility in Mobile, Alabama and then the aircraft will be transferred to an adjacent Northrop Grumman facility for installation of the military systems before delivery to the US Air Force.

Mission

The USAF demand for aerial refuelling has increased over the last two decades. The mission share for tanker sorties increased from 13% during the 1991 Gulf War to 25% in Operation Iraqi Freedom in 2003.

The KC-45 aircraft can deploy fully loaded from airports and airfields with a 7,000ft runway.

KC-45 airframe
The Northrop Grumman-led KC-45 tanker team includes EADS as the principal sub-contractor. EADS is responsible for providing the proven A330-200 aircraft and its fly-by-wire advanced aerial refuelling boom system. The A330-200 aircraft has an advanced wing with optimised aerodynamics, and the airframe incorporates high-strength low-weight composite aerostructures.

Cockpit

The KC-45 has a crew of three: the pilot, co-pilot and the boom operator. The aircraft incorporates fly-by-wire technology and has cockpit commonality with the A318, A319, A320, A321 and A340 families of aircraft. The cockpit has side-stick controllers.

Smiths Aerospace, based in Grand Rapids, Michigan, was selected to provide the aircraft's flight management system.

"The USAF tanker aircraft replacement programme is designated
KC-X."Honeywell of Phoenix, Arizona is supplying the KC-45's radio management system, mission avionics suite and mechanical systems, including the Military Airborne Collision Avoidance System – Formation Rendezvous (MILACAS-FR) system.

The Communications Systems Division of Telephonics Corporation will supply the KC-45's intercommunication system.

Refuelling system

The KC-45 has a maximum fuel capacity of 250,000lb, (representing 25% more fuel than the capacity of the KC-135 aircraft) and a multi-point refuelling system with a mix of boom, hose and drogue, and hose drum systems which provide flexibility, high off-load rates and servicing of more aircraft per mission, thereby reducing or eliminating queues of waiting aircraft and lowering fuel-related mission-abort rates.

The KC-45 has two under-wing refuelling pods and a centreline hose and drogue unit, which allow probe-equipped receiver aircraft from the US Navy, Marine Corps and allied forces to be refuelled.

EADS is responsible for providing the advanced Aerial Refuelling Boom System (ARBS). Northrop Grumman is developing two options for the operation of the boom and hose and drogue system.

One operating option involves the direct view of the receiver aircraft from the rear of the KC-30. The other option involves the use of a Remote Air Refuelling Operator station (RARO station) installed in the flight deck. Both the direct view option and the RARO station option are optimised in terms of the man-machine interfaces. For day and night boom operation the aircraft is fitted with a 3D stereoscopic enhanced vision system.

Sargent Fletcher Inc, a wholly owned subsidiary of the UK company Cobham, is providing the two digital FRL 905E series hose and drogue (900 series wing pods and drogues) which will be installed on the KC-45 tanker's outboard under-wing positions. The maximum fuel offload rate of the pods is 420gal a minute (2,800lb a minute). The system will provide full interoperability with all refuelling-capable US and NATO military aircraft.

The 900 series pods already are used on EADS A310 MRTTs for the Canadian and German air forces and on the US Air Force MC-130H. The under-wing refuelling pods are installed on pre-existing hardpoints already outfitted for fuel and power and therefore require no structural modifications to the wing.

"The first KC-45 tanker aircraft, the D-1, completed its maiden flight on 25 September 2007."The centreline hose drum refuelling unit is installed under the aft section of the fuselage, and provides an additional hose and drogue contact point with a 90ft hose length and a maximum offload refuelling rate of 4,000lb a minute.

The EADS ARBS uses the same fly-by-wire technology as the KC-45's flight control system and includes an automatic load elevation system, an independent disconnect function, redundant actuation systems and power supply.

The boom is fitted with a roll and pitch joint which provides improved controllability. The maximum fuel off-load rate for the boom is 1,200gal a minute.

The boom is suitable for all current receiver aircraft and is easily adaptable for future mission requirements including the refuelling of Unmanned Air Vehicles (UAVs). The boom's geometric refuelling envelope is automatically configured for each type of receiver aircraft by the KC-45's onboard intelligent control system.

In-flight refuelling of the KC-45
The KC-45 is fitted with a Universal Aerial Refuelling Receptacle Slipway Installation (UARRSI) supplied by Parker Aerospace, based in Irvine, California. The UARRSI is the refuelling receptacle installed on top of the KC-45 that allows it to receive fuel. This allows a tanker returning to base to off-load any excess fuel to the incoming tanker thus saving fuel and costs.

Cabin and cargo decks

The aircraft can carry up to 280 troops or passengers on the main deck and there is additional volume for equipment and material in the lower deck cargo bays.

The aircraft supports the fighter squadron's deployment by transporting the operational personnel and equipment in addition to carrying out the refuelling escort for the squadron's aircraft to an overseas base. This allows the fighter squadron to deploy as a unit, and then after arrival, to quickly ramp up to a combat-level sortie.

The large cabin provides volume for additional mission equipment and the onboard power supply can accommodate add-on loads such as Scalable Multi-function Automated Relay Terminals (SMART).

"The KC-45 aircraft can deploy fully loaded from airports and airfields with a 7,000ft runway."The aircraft has the volume and power capacity to support add-on Command and Control, Intelligence, Surveillance and Reconnaissance (C2ISR) systems.

The wide-bodied fuselage can accommodate a suite of intensive-care systems and 120 stretcher patients (litters) for medical evacuation missions.

A typical mixed configuration would include 70 litters, six intensive-care units and 113 medical staff and passengers on the main deck.

Cargo

The main deck can carry 280 passengers or 26 463l pallets. Loading and unloading is through a 141in x 100in cargo door. The lower deck can carry an additional six pallets. The KC-45 cargo loading system is supplied by AAR Cargo Systems which is based in Livonia, Michigan.

Engines

The USAF KC-45 aircraft is powered by two CF6-80E1A4B turbofan engines supplied by GE Aviation and rated at 72,000lb thrust. The CF-6 series already equip the EADS A330 multi-role tanker transport for the Royal Australian Air Force on which the KC-45 is based.


Expand Image
The first flight of the Northrop Grumman
KC-45 in September 2007.

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Northrop Grumman, with EADS, is proposing the KC-45 for the USAF KC-X tanker replacement programme. Computer graphic of the KC-34 refuelling F-35 joint strike fighters.

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Expand Image
Computer graphic of the KC-45 refuelling
F-22 aircraft using the aerial refuelling boom.

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Expand Image
The KC-45 has a maximum fuel capacity of 250,000lbs, 25% more fuel than the capacity of the KC-135 aircraft. Computer graphic with F/A-18 aircraft.

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Expand Image
The KC-45 aircraft is based on the A330 multi-role tanker transport, which has been selected by Australia, the UK and the UAE. Roll-out of the first aircraft for Australia.

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Expand Image
Computer graphic of the KC-45 refuelling a B-2 aircraft using the EADS Aerial Refuelling Boom System (ARBS).

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Expand Image
The KC-45 is fitted with a refuelling receptacle which allows a tanker returning to base to off-load any excess fuel to the incoming tanker.

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Expand Image
The EADS ARBS boom can offload up to 1,200gal of fuel a minute. Computer graphic with C-17 aircraft.

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Expand Image
Four KC-45B aircraft have been ordered by the Royal Australian Air Force for delivery from 2009.

--------------------------------------------------------------------------------



Expand Image
Up to 400 replacement tanker aircraft are required for the USAF KC-X programme, for delivery from 2010.

--------------------------------------------------------------------------------



Expand Image
Computer graphic of the KC-45 with its aerial refuelling boom extended ready to fuel an F-22.

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Expand Image
Hose and drogue refuelling of F/A-18 aircraft.

--------------------------------------------------------------------------------
 
.
Dimensions
Height57ft 1inWingspan197ft 10inFully Loaded, Take-Off Field Length7,000ft runwayMaximum Fuel Off-Load Rate per Pod420gal/minCentreline Hose Drum Refuelling Hose and Drogue Refuelling Unit1Centreline Hose Length90ftCentreline Hose and Drogue, Off-Load Refuelling Rate600gal/minFull specifications
--------------------------------------------------------------------------------

In February 2008, the US Air Force chose the KC-30, since renamed KC-45, for its KC-X tanker aircraft replacement programme, to replace its fleet of KC-135 air tanker aircraft approaching the end of operational life.

Northrop Grumman, teamed with EADS North America, proposed the KC-30 tanker aircraft, a variant of the Airbus A330-200, for the USAF KC-X requirement. An initial contract for the first four of a 179 aircraft requirement was placed.

Boeing appealed against the award and asked the US Government Accountability Office (GAO) to review the decision in relation to the evaluation award criteria established for the competition. The GAO sustained the protest and in June 2008 recommended that the USAF reopen the bidding process. In September 2008, the US Department of Defense cancelled the competition, citing the need to defer any decision for the next presidential administration taking power in January 2008.

"The KC-45 tanker aircraft is based on the A330 multi-role tanker transport."The first KC-45 Tanker aircraft, the D-1, completed its maiden flight in September 2007. D-1 will be the first aircraft delivered to the US Air Force. D-2 completed its first flight in May 2008.

The USAF had planned to pursue a lease arrangement with Boeing for KC-767 tankers but a revised request for proposals for the KC-X was issued in December 2006. Northrop Grumman submitted a final proposal in December 2007.

The Northrop Grumman team includes EADS, General Electric Aviation, Sargent Fletcher, Honeywell, Parker, AAR Cargo Systems, Telephonics and Knight Aerospace.

The KC-45 aircraft is based on the A330 Multi-role Tanker Transport, selected by the air forces of Australia, the United Kingdom and the United Arab Emirates.

Mission equipment will include EADS's fly-by-wire Aerial Refuelling Boom System (ARBS), with two all-digital FRL 905E-series hose and drogue refuelling pods, i.e. the same configuration as selected by the Royal Australian Air Force, whose first KC-30B Tanker has been completed and is being readied for delivery.

Final assembly of the KC-45 will be carried out at EADS's Brookley Field facility in Mobile, Alabama and then the aircraft will be transferred to an adjacent Northrop Grumman facility for installation of the military systems before delivery to the US Air Force.

Mission

The USAF demand for aerial refuelling has increased over the last two decades. The mission share for tanker sorties increased from 13% during the 1991 Gulf War to 25% in Operation Iraqi Freedom in 2003.

The KC-45 aircraft can deploy fully loaded from airports and airfields with a 7,000ft runway.

KC-45 airframe
The Northrop Grumman-led KC-45 tanker team includes EADS as the principal sub-contractor. EADS is responsible for providing the proven A330-200 aircraft and its fly-by-wire advanced aerial refuelling boom system. The A330-200 aircraft has an advanced wing with optimised aerodynamics, and the airframe incorporates high-strength low-weight composite aerostructures.

Cockpit

The KC-45 has a crew of three: the pilot, co-pilot and the boom operator. The aircraft incorporates fly-by-wire technology and has cockpit commonality with the A318, A319, A320, A321 and A340 families of aircraft. The cockpit has side-stick controllers.

Smiths Aerospace, based in Grand Rapids, Michigan, was selected to provide the aircraft's flight management system.

"The USAF tanker aircraft replacement programme is designated
KC-X."Honeywell of Phoenix, Arizona is supplying the KC-45's radio management system, mission avionics suite and mechanical systems, including the Military Airborne Collision Avoidance System – Formation Rendezvous (MILACAS-FR) system.

The Communications Systems Division of Telephonics Corporation will supply the KC-45's intercommunication system.

Refuelling system

The KC-45 has a maximum fuel capacity of 250,000lb, (representing 25% more fuel than the capacity of the KC-135 aircraft) and a multi-point refuelling system with a mix of boom, hose and drogue, and hose drum systems which provide flexibility, high off-load rates and servicing of more aircraft per mission, thereby reducing or eliminating queues of waiting aircraft and lowering fuel-related mission-abort rates.

The KC-45 has two under-wing refuelling pods and a centreline hose and drogue unit, which allow probe-equipped receiver aircraft from the US Navy, Marine Corps and allied forces to be refuelled.

EADS is responsible for providing the advanced Aerial Refuelling Boom System (ARBS). Northrop Grumman is developing two options for the operation of the boom and hose and drogue system.

One operating option involves the direct view of the receiver aircraft from the rear of the KC-30. The other option involves the use of a Remote Air Refuelling Operator station (RARO station) installed in the flight deck. Both the direct view option and the RARO station option are optimised in terms of the man-machine interfaces. For day and night boom operation the aircraft is fitted with a 3D stereoscopic enhanced vision system.

Sargent Fletcher Inc, a wholly owned subsidiary of the UK company Cobham, is providing the two digital FRL 905E series hose and drogue (900 series wing pods and drogues) which will be installed on the KC-45 tanker's outboard under-wing positions. The maximum fuel offload rate of the pods is 420gal a minute (2,800lb a minute). The system will provide full interoperability with all refuelling-capable US and NATO military aircraft.

The 900 series pods already are used on EADS A310 MRTTs for the Canadian and German air forces and on the US Air Force MC-130H. The under-wing refuelling pods are installed on pre-existing hardpoints already outfitted for fuel and power and therefore require no structural modifications to the wing.

"The first KC-45 tanker aircraft, the D-1, completed its maiden flight on 25 September 2007."The centreline hose drum refuelling unit is installed under the aft section of the fuselage, and provides an additional hose and drogue contact point with a 90ft hose length and a maximum offload refuelling rate of 4,000lb a minute.

The EADS ARBS uses the same fly-by-wire technology as the KC-45's flight control system and includes an automatic load elevation system, an independent disconnect function, redundant actuation systems and power supply.

The boom is fitted with a roll and pitch joint which provides improved controllability. The maximum fuel off-load rate for the boom is 1,200gal a minute.

The boom is suitable for all current receiver aircraft and is easily adaptable for future mission requirements including the refuelling of Unmanned Air Vehicles (UAVs). The boom's geometric refuelling envelope is automatically configured for each type of receiver aircraft by the KC-45's onboard intelligent control system.

In-flight refuelling of the KC-45
The KC-45 is fitted with a Universal Aerial Refuelling Receptacle Slipway Installation (UARRSI) supplied by Parker Aerospace, based in Irvine, California. The UARRSI is the refuelling receptacle installed on top of the KC-45 that allows it to receive fuel. This allows a tanker returning to base to off-load any excess fuel to the incoming tanker thus saving fuel and costs.

Cabin and cargo decks

The aircraft can carry up to 280 troops or passengers on the main deck and there is additional volume for equipment and material in the lower deck cargo bays.

The aircraft supports the fighter squadron's deployment by transporting the operational personnel and equipment in addition to carrying out the refuelling escort for the squadron's aircraft to an overseas base. This allows the fighter squadron to deploy as a unit, and then after arrival, to quickly ramp up to a combat-level sortie.

The large cabin provides volume for additional mission equipment and the onboard power supply can accommodate add-on loads such as Scalable Multi-function Automated Relay Terminals (SMART).

"The KC-45 aircraft can deploy fully loaded from airports and airfields with a 7,000ft runway."The aircraft has the volume and power capacity to support add-on Command and Control, Intelligence, Surveillance and Reconnaissance (C2ISR) systems.

The wide-bodied fuselage can accommodate a suite of intensive-care systems and 120 stretcher patients (litters) for medical evacuation missions.

A typical mixed configuration would include 70 litters, six intensive-care units and 113 medical staff and passengers on the main deck.

Cargo

The main deck can carry 280 passengers or 26 463l pallets. Loading and unloading is through a 141in x 100in cargo door. The lower deck can carry an additional six pallets. The KC-45 cargo loading system is supplied by AAR Cargo Systems which is based in Livonia, Michigan.

Engines

The USAF KC-45 aircraft is powered by two CF6-80E1A4B turbofan engines supplied by GE Aviation and rated at 72,000lb thrust. The CF-6 series already equip the EADS A330 multi-role tanker transport for the Royal Australian Air Force on which the KC-45 is based.


Expand Image
The first flight of the Northrop Grumman
KC-45 in September 2007.

--------------------------------------------------------------------------------



Expand Image
Northrop Grumman, with EADS, is proposing the KC-45 for the USAF KC-X tanker replacement programme. Computer graphic of the KC-34 refuelling F-35 joint strike fighters.

--------------------------------------------------------------------------------



Expand Image
Computer graphic of the KC-45 refuelling
F-22 aircraft using the aerial refuelling boom.

--------------------------------------------------------------------------------



Expand Image
The KC-45 has a maximum fuel capacity of 250,000lbs, 25% more fuel than the capacity of the KC-135 aircraft. Computer graphic with F/A-18 aircraft.

--------------------------------------------------------------------------------



Expand Image
The KC-45 aircraft is based on the A330 multi-role tanker transport, which has been selected by Australia, the UK and the UAE. Roll-out of the first aircraft for Australia.

--------------------------------------------------------------------------------



Expand Image
Computer graphic of the KC-45 refuelling a B-2 aircraft using the EADS Aerial Refuelling Boom System (ARBS).

--------------------------------------------------------------------------------



Expand Image
The KC-45 is fitted with a refuelling receptacle which allows a tanker returning to base to off-load any excess fuel to the incoming tanker.

--------------------------------------------------------------------------------



Expand Image
The EADS ARBS boom can offload up to 1,200gal of fuel a minute. Computer graphic with C-17 aircraft.

--------------------------------------------------------------------------------



Expand Image
Four KC-45B aircraft have been ordered by the Royal Australian Air Force for delivery from 2009.

--------------------------------------------------------------------------------



Expand Image
Up to 400 replacement tanker aircraft are required for the USAF KC-X programme, for delivery from 2010.

--------------------------------------------------------------------------------



Expand Image
Computer graphic of the KC-45 with its aerial refuelling boom extended ready to fuel an F-22.

--------------------------------------------------------------------------------



Expand Image
Hose and drogue refuelling of F/A-18 aircraft.

--------------------------------------------------------------------------------
 
.
The Boeing company built 732 KC-135 Stratotankers for the US Air Force between 1957 and 1965. The US Air Force still has about 550 KC-135 Stratotankers in service (active duty, 253; Air National Guard, 222; Air Force Reserve, 70) and has made substantial investment in a series of upgrade programs, including reskinning of the lower wing surfaces, the installation of new CFM56 engines and new avionics systems.

"About 45 US Air Force KC-135R Stratotankers are fitted with mk32B wingtip hose and drogue air refuelling pods."411 of the aircraft in service are the upgraded 135R models and 134 the older 135E. The KC-135 is also in service with the air forces of France (11 aircraft), Turkey (seven) and Singapore (four).

Refuelling

The primary air fuel transfer method is through the tanker's flying boom, controlled by an operator stationed at the rear of the fuselage. USAF aircraft have primarily used this boom and receptacle refuelling technique.

A shuttlecock drogue can be trailed behind the boom and used to refuel aircraft equipped with refuelling probes. Aircraft fitted with the boom drogue cannot refuel boom and receptacle aircraft.

Hose and drogue air refuelling
About 45 US Air Force KC-135R Stratotankers are fitted with mk32B wingtip hose and drogue air refuelling pods, which are supplied by Flight Refuelling Ltd. These are capable of refuelling Navy and NATO aircraft, which use a probe and drogue system instead of a boom and receptacle. The receiving aircraft approaches the tanker and its probe makes contact with a hose reeled out and trailing from the tanker.

The additional system allows the KC-135R to refuel both probe / drogue and boom / receptacle aircraft on a single mission and to refuel two probe/drogue aircraft simultaneously.

The installation of wingtip refuelling pods involves a major modification and refit to the entire aircraft, including modifications to the wing and fuselage fuel tanks, additional fuel control systems and the installation of indicators and circuit breakers on the flight deck.

Inside the refuelling pods, a collapsible funnel-shaped drogue is attached to a hose, which is reeled out to trail behind the wing of the aircraft. The hose is fitted with a constant tension spring to give stability to the hose while it is extended.

Cargo

Passengers and up to 37,650kg cargo can be carried on the cargo deck above the refuelling systems.

Avionics

The USAF selected Rockwell Collins to carry out the modernisation of the avionics system under the KC-135 Pacer CRAG (compass, radar and global positioning system) programme.

"The primary air fuel transfer method is through the tanker's flying boom."The upgraded avionics include cockpit enhancements with the Collins FMS-800 integrated flight management system, Collins FDS-255 liquid crystal flat-panel multifunction flight display, and the Collins WXR-700X forward-looking predictive windshear weather radar.

The flight management system is integrated with a traffic alert and collision avoidance system (TCAS) and an enhanced ground proximity warning system (EGPWS).

Subsequent to the Pacer CRAG programme, the USAF selected Rockwell Collins to update the KC-135 flight deck in support of the Global Air Traffic Management (GATM) initiative. The GATM upgrade program will focus primarily on upgrading the aircraft's communication and navigation systems to free operation in civil airspace. 50 of the 550 USAF aircraft received the upgrade under the Phase I low-rate initial production contract and the first production aircraft was delivered in August 2003.

The second LRIP contract, signed in July 2003, provided for a further 25 aircraft to be upgraded. The Phase II full rate production contract for 30 more systems was signed in April 2004. As of March 2008, 229 upgraded aircraft had been delivered.

GATM additions to the communications system include an Aero-I SAT-2000 satellite communications system and two FANs (future air navigation) capable CMU-900 Communication Management Units for data link applications. Also, the addition of two Collins integrated processing centres provides an integrated, modularised platform for hosting several partitioned GATM-related software applications.

GATM additions to the navigation system include two Collins GNLU-955M multi-mode receivers, which contain individual modules for GPS, MLS and FM-Immune VOR/ILS (VHF omni-directional radio range steering guidance linked with an instrument landing system) capabilities. Additionally, one existing and one newly added embedded global positioning system / inertial navigation system (EGI) unit will possess 12-channel, all-in-view GPS receivers.

Mission variants

Some KC-135 aircraft have been configured for other missions such as reconnaissance and as a flying command post.

"Some KC-135 aircraft have been configured for other missions such as reconnaissance."The US Air Combat Command operates 17 RC-135V/W rivet joint reconnaissance aircraft and the OC-135B open skies observation aircraft and the US Strategic Command operates the EC-135 flying command post. The US Strategic Command has one EC-135C on alert status at all times, ready to take command if ground control is compromised.

Engines

The KC-135R aircraft has been updated with more efficient CFM International CFM-56 engines, which burn up to 25% less fuel and provide greater thrust than previously fitted engines. The efficiency of the engines enable the aircraft to offload 50% more fuel on a medium-radius, 1,725-mile refuelling mission. 410 of the USAF fleet of 546 KC-135s have been re-engined. The remainder have Pratt & Whitney TF33-102 engines


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The IL-76 is a medium-range military transport aircraft, and is also known by the NATO codename 'Candid'. The missions of the aircraft are: to drop paratroopers; carry troop forces and combat material with crews and armaments, including medium-sized battle tanks; to airlift cargo for troop forces and transport for disaster relief operations.

"There are several design variants of the transport aircraft, including the basic IL-76, IL-76M,
IL-76MD and the IL-76-MF."The IL-76 medium-range transport aircraft is produced by the Ilyushin Aviation Complex Joint Stock Company in Moscow and the Tashkent Aircraft Production Corporation in Tashkent, Uzbekistan. Over 500 aircraft have been produced since service entry in 1974.

There are several design variants, including the basic IL-76, IL-76M, IL-76MD and the IL-76-MF. In terms of design, aerodynamic configuration and flight performance characteristics, the IL-76M version virtually resembles the IL-76 basic aircraft, but has a maximum payload of 47t, compared to 28t for the IL-76.

The Indian Air Force (IAF) has ordered three Il-76MD aircraft fitted with the Phalcon AEW (airborne early warning) system produced by Elta of Israel. The first aircraft is due for delivery in September 2008. In April 2008, the IAF requested the purchase of a further three aircraft for delivery in 2011–2012.

In August 2005, Jordan ordered two IL-76MF variants and in September 2005, China placed an order for up to 38 IL-76 transports.

In August 2007, the Russian Air Force revealed the Il-76MD-90, which has new Perm PS-90A76 engines and upgraded Leninets Kupol-76M avionics.

DESIGN

The aircraft is of a conventional aerodynamic configuration with a high-set, swept-wing and T-shaped tail unit. The crew cabin, cargo hold and rear compartment are pressurised. The beam-type fuselage has an oval section over the crew cabin and circular section over the cargo hold. The wing leading and trailing edges are fitted with high-lift devices, comprising deflectable five-section leading-edge slats, triple-slotted trailing-edge extension flaps, ailerons, spoilers and air brakes.

CARGO HANDLING

The air-drop and cargo handling equipment is intended to load, unload and air drop paratroopers, materiel and cargo, make the optimum arrangement of the cargo according to the logistical demands of the mission, and securely tie down the materiel and cargo.

The equipment comprises a telpher (an overhead cargo system where the cargo can be suspended from an electrically powered rail), a roller conveyer, mooring / rigging, auxiliary parachute and ambulance equipment.

"Over 500 IL-76 transport aircraft have been produced since service entry in 1974."WEAPON SYSTEMS

The aircraft is equipped with a defensive aids suite, comprising a radar warner, jammer, infrared flare cartridges, chaff dispenser and two guns with a fire-control radar. Aerial bombs or radio beacons are suspended from external bomb racks on detachable pylons.

AVIONICS

The onboard equipment is intended to execute airlift and air drop missions by day and at night, in VFR and IFR (Visual Flight Rules and Instrument Flight Rules) weather conditions, as well as under hostile air defence conditions.

The integrated flight control and aiming-navigation system includes a compass system, ground surveillance radar, a central digital computer, automatic monitoring system, automatic flight control system, short-range radio navigation and landing system, IFF transponder, optical / infrared aiming sight and a ground collision warning system.

ENGINES

The IL-76M aircraft is powered by four D-30KP turbofan engines, mounted on underwing pylons and housed in individual pods secured on the engines.

Fuel is held in 12 integral tanks, which are isolated from each other. All fuel tanks are divided into four groups by the number of the engines. An inert gas system is used for protection against explosion.

IL-76MD VARIANT
The IL-76MD variant has an increased flight range and service life. The powerplant and systems are identical to those of the IL-76M, and the structural changes have been made to its airframe only to accommodate the increased service life and increased take-off weight.

"The IL-76MD variant has an increased flight range and service life."When operating from first-category concrete runways, the aircraft's take-off weight has been increased from 170t for the IL-76M to 190t for the IL-76MD, mainly due to the increased fuel. This enables a flight range increased by 40% with a maximum payload. The IL-76MD can be operated from unpaved runways in forward areas of operation.

IL-76MF VARIANT
The IL-76MF aircraft is a derivative of the IL-76MD, with the fuselage lengthened by 6.6m. The new PS-90A-76 engines give a 25% higher take-off thrust (16,000kgf) than the D-30KP engines on the MD variant. The flight range is increased by over 20%, for example, the flight range with a 40t payload is 5,800km (compared to a range of 4,800km for the IL-76MD
 
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