Bartini's VVA-14 ASW

"Caspian Sea Monsters" are WIGs (wing in the ground effect) vehicles designed by a number of Soviet experimental design bureaus. The WIG vehicles take advantage of an additional lift provided by cushion of dense air trapped between large wing of the craft and the surface. Induced drag (drag due to the lift) of wing is considerably reduced if the altitude of the aircraft is similar to the chord of the wing. Ground effect provides a considerable fuel economy and increase of range than convenient flight. WIG can operate over water, flat surfaces of Earth (shallows and wetlands), ice and snow. The major application of WIGs is anti-submarine warfare (ASW), search and rescue, sealift, amphibious assault and coastal defense. This class of vehicles is commonly known as "ekranoplanes" in Russia. It is believed that Russia is far ahead of the West in air-cushion vehicle technology and in WIG in particular. Here are few (but not all) WIGs, build in Soviet Union/ Russia starting from 1960:

Name	OKB	TO Wght, tons	Propulsion	Crew/ Pssngrs	Pload (ton)	Spd (km/h)	Ceilng (m)	Rnge (km)	Size lg*spn*ht (m)	Function/Modifications
Lun (Hen- harrier)	TGKB*	400	8*NK-87 Kuznetsov four on each side of the fuselage aft of cockpit	400	-	450 -550	Cruse: 1-4 Search: 100-300 Max: 3,000	3,000	73,8*44*16	Sealift, coastal defense (six canisters with AS missiles atop of the fuselage), search and rescue
Orlenok A.90.150 CASP-B (Eaglet)	TGKB + Sukhoi	110- 125	Main: NK-12 (two contra rotating props) on vertical stabilizer Lift: 2*NK-8 in the nose	100- 150	15-28	400	-	2,000	58*31,5*16	Multimission transport, accommodates small vehicles, swing-open nose to facilitate cargo loading, a gun turret mounted atop of the fuselage
VVA-14** 14MIP M-62 (Caspian Sea Monster)	Bartini + Beriev	36	Main: 4*D-30N Soloviev (two in rear + two in front for cushion) Lift:?	2 man crew	-	360	1- 3,000	-	28,12*30	Anti-submarine warfare
Utka (Duck)	TGKB	20	Tail mounted main engine with single prop. Two lift eng in the nose	15-20 (civilian version)	-	350	-	-	-	Light transport
Strizh PE-201 (Marlet)	Plast (TGKB)	-	Two wing mounted eng with single prop each	2 man crew (student + instructor)	>1	220	-	1,500	-	WIG trainer: dual control cockpits
Dingo***	TGKB + AeroRIK	3.6	Main: P&W; PT6 Lift: TBA-200	2-4	0.84	275	3,500	850	-	General aviation
MiG-TA4 *** "Explorer" Prototype "Finder"	TsAGI + MiG	-	Teledyne IO-550C and Nelson N-63CP	4	-	-	-	-	-	General aviation
ESKA-1	CLLST ****	0.45	Pylon mounted MT-8 (30hp)	2 seat	0.22	110	40	200	7.75*6*?	Experimental rescue amphibian
Amphistar	Pacific Technique Develop ment, Moscow	-	2 tilt-rotor Subaru powered props (220hp)	pilot + 5	-	80m/h	-	-	10.4*?*?	Multipurpose amphibian, leisure
Volga-2	Alekseev OKB	-	2 tilt-rotor props	Similar to Amphistar
Name	OKB	TO Wght, tons	Propulsion	Crew/ Pssngrs	Pload (ton)	Spd (km/h)	Ceilng (m)	Rnge (km)	Size lg*spn*ht (m)	Function/Modifications

*TGKB is Central Hydrofoil Design Bureau located at Nizhnii Novgorod (Gorkii).
**VVA-14 is VSTOL amphibian, utilizing WIG; VVA is Russian acronym for Vertikalno-Vzletayushchaya Amfibia (vertical take-off amphibian).
***Dingo and MiG-TA4 "Explorer" are STOL aircrafts: capable to takeoff and landing within rugged terrain, flat duneland, wet mud and water areas.
****Central Laboratory of Life Saving Technology. Designed by Yuri V. Makarov and V. B. Shavrov.

• WIG page by Edwin van Opstal. Excellent page covering all known WIGs. Look for images of Russian WIGs and a huge list of references.
• AVIATION WEEK & SPACE TECHNOLOGY has few articles on some of these vehicles:
  May 02, 1988 p. 16 (nice artist's impression of AS version of Lun) Oct 07, 1991 p. 26 (Orlenok) Apr 26, 1993 p. 62 (Lun, Orlenok, Utka, Strizh, Dingo) May 24, 1993 p. 25 (Orlenok)
• SAMOLET 1992, Issue 3-4 feature article on WIG by Victor Sokolov.
  
• POPULAR SCIENCE 1994, v245n2, Aug p. 48-53 (6 pages) features "Wings over Russia" by Bill Sweetman.
  
• "Monster des Kaspischen Meeres" ist enttarnt. Rußland gibt eines der bestgehüteten Geheimnisse preis - Größtes Flugzeug der Welt. Couple of photographs and an article for those who are fluent in German.
  
• January 1996 issue of AIR & SPACE SMITHSONIAN
  
• September 1993 issue of Jane's INTERNATIONAL DEFENSE REVIEW
  
• Bill Gunston's ENCYCLOPEDIA OF RUSSIAN AIRCRAFT.
  
• SUNDAY TIMES March 3rd, 1996.
  
• SOVIET X-PLANES by Yefin Gordon and Bill Sweetman.

From: jwsteel@unity.ncsu.edu (Jefferson W Steel)
agretch@aeroweb.lucia.it wrote:

> This a/c is believed to be a product of Beriev design bureau and is possibly
> some kind of flying boat or WIG a/c. I took the picture this summer in Soviet
> AF museum in Monino.

  It's the VVA-14. (If I'm remembering the designation right.) There was
an article on it in Air International a while ago... If you can wait a few
days, I can dig up the article for you. I've got a photo of it airborne
scanned as well. If I can post it, I will. (If I can FIND it... )











From: ked@unixa.nerc-keyworth.ac.uk (Ken Duffey)

Its the Bartini VVA-14 Wing-in-Ground-Effect Aircraft. There is also a piece
about it in `Soviet X-Planes` by Yefin Gordon and Bill Sweetman.

Bartini was an Italian emigre who set up his own design bureau in Russia.
The aircraft had a central fuselage, short stub wings leading to large side
sponsons on the bottoms of which were floats. Power was provided by four
turbojet engines, two above the rear fuselage and two on either side of the 
nose to provide the air cushion. Wings were mounted outboard of the sponsons.

I too photographed the VA-14 at Monino this summer. I obtained permission to
cross the rope barrier and do a complete walk-around of the aircraft so I 
managed to get some shots of the rear end before I was shooed away by the
museum staff.

There is apparently the wreckage of another VA-14 at the Beriev site at
Taganrog on the Black Sea.

From: jcbowman@aol.com (JCBowman)

"I am trying to read up on [Wing in the] Ground Effect Vehicles and would appreciate it if someone can point to the relevant journals, papers, books or WWW URLs on this topic. Although the concept is sound, why isn't there any commercial application? What are the costs involved in designing such a vehicle? Similar to that of an aircraft? How would FAA look upon the cerfication issue?"

Actually, if you could get a ground effect fleet running, the cost per seat mile or cost per ton mile would actually be cheaper than a non ground effect plane. The performance equations tell you that it would be a slower trip, but that's why it's cheaper. It's a power relationship (currently supertankers are the most efficient in terms of power required and power used). You plot Transport Efficiency (product of weight and speed divided by power to operate) vs speed. For aircraft, Trans Eff is the Lift/Drag ratio in cruise. If you plot all forms of trans., you find a boundary beyond which nothing appears- it slopes down from left to right. This is the technology factor line. With time, it moves up and to the right. As for the FAA look up the FAR's. They would have to follow all altitude restrictions, but efficient ground effect flight can only occur over large expanses of flat land (Russia has lots of this) or water. It would most likely be a seaplane, so look up the seaplane stuff in the FAR's- I did. However, some of those flare craft don't fall under FAR's. They can't climb too high (maybe 10 feet) so they fall under Coast Guard Regulations.

My senior project a few years ago was a ground effect design inspired by the Russian Ekranoplan. I am posting these references for anyone who is interested. Some are not related to technical material but rather are economic reasons for such vehicles.

"Technical and Economic Assessment of Span-Distributed
Loading Cargo Aircraft Concepts" Boeing Commercial
Airplane Company. Contract NAS1-13963 June 76

Committee on Productivity of Marine Terminals, Marine Board,
Commission on Engineering and Technical Systems, National
Research Council.  "Improving Productivity in US Marine
Container Terminals."  National Academy Press, Wash DC 1986

Keith-Lucas, D. "The Relative Effectiveness of Large Landplanes
and Flying Boats"  2nd International Aeronautical Conference. New
York May 24-27 1949

Dane, A. "Wingships"  Pop Mech May 1992

Balow, F.A. et al "Design and Evaluation of a Midsize Wing-in-
Ground Effect Transport"  AIAA Aircraft Design, Systems, and
Operations Meeting AIAA Paper 93-3952 Aug 11-13 1993

Fink, M, Lastinger, J. Aerodynamic Characterisitics of Low-Aspect
Ratio Wing in Close proximity to the Ground"  NASA Tech Note
D-926

Reeves, J.M.  Ram Wings- a future?  Proceedings of the Ram Wing
and Ground Effect Craft Conference May 19, 1987

Staufenbiel, R.W. "On the design of stable ram wing vehicles"
Proceedings of the Ram wing and Ground Effect Conf May 19, 1987

Gallington, R.W. "Power Augmentation of Ram wings"  Proceedings
of the Ram Wing and Ground Effect Conf May 19, 1987

Papadales, B.S. Jr.  An Evaluation of a 2D Power Augmented Wing in
Ground Effect Model Under Static and Dynamic Freestream Conditions
DTNSRCDC (David Taylor Naval Ship Research ...) ASED - 353 June 76

Ando, S. PARWIG performance prediction during acceleration from
water-borne to airborne.  Transactions of the Japan Society for
Aeronautical and Space Sciences Vol 34, Number 105 Jan 1991

Woodward, J.B. "Marine Gas Turbines" Wiley-Interscience 1975

Moore, J.W. et al "Conceptual Design Study of Power Augmented Ram
Wing-in-Ground Effect Aircraft"  AIAA Aircraft Systems and
Technology Conf Los Angeles AIAA paper 78-1466 Aug 21-23 1978

Saarlas, M. Steam and Gas Turbines for Marine Propulsion.
Naval Institute Press Annapolis 1978

Ando, S.  Critical Review of Design Philosophies for Recent
Transport WIG Effect Vehicles.  Transactions of the Japan
Society for Aeronautical and Space Sciences.  Volume 33,
number 99 may 1990

Carson B.H.  Experimental Observations of the 2D, Power
Augmented RAM WING operated statically over water.  AIAA/
SNAME Advanced Marine Vehicles Conference AIAA paper
78-751 April 17-19 1978

I am an Aerospace engineer have spend several years working in the advance marine field.
The concept of Wing-in-Ground Effect have been around for many years. Tests back in the 1920 show the increased lift of a wing operating near the ground.
One general problem is the there is a reduction in control. Power increase for hill climbing with general have restricted them to over water operations. Also you have to operate very low. As with Seaplanes the hull must be strong (and therefore heavy)to land on water. While you may not need much power in operate in ground effect, you much more it to get up to speed on water to lift off.
The Russian have solved some problems, but not all of the problems. They have a high mounted large tail for control. They use thrust vectoring with a RAM effect under the wing to reduce the lift off power required. However, they are still heavy. In addition they have loss some craft due accidents.
Regulation is one of the big problems the Russian have trying to sell there craft. They are not airplanes or boats. If you read FAR you will find out that you can't get the certification for the a WIG. According to the US FAA if they don't meet the requirement for aircraft they don't FLY !!!
You will have to talk to the US Coast Guard. They have let some experiment WIG in the US.
By the way in the UK it is the CAA not FAA. They maybe deal with them, but not the US FAA.
I am sure that someday they will find a use in the West.
You need to make sure it can operate in the marine environment, but still be light enough to lift off. Not a easy thing to do. I have work on hovercraft other marine craft for many years and speak from personal experience. You also have to deal with lot of marine craft issue that most aircraft don't.
Unfortunately, Most of the Russian and Western work in this area has been classified until resently. Check out Jane's High Speed Marine Craft. They have some info on WIG. Look for my name in the back under consultant in the latest (94-95) edition.