De Havilland Heron Explained

The de Havilland DH.114 Heron is a small propeller-driven British airliner that first flew on 10 May 1950. It was a development of the twin-engine de Havilland Dove, with a stretched fuselage and two more engines. It was designed as a rugged, conventional low-wing monoplane with tricycle undercarriage that could be used on regional and commuter routes. A total of 149 were built;[1] it was also exported to about 30 countries. Herons later formed the basis for various conversions, such as the Riley Turbo Skyliner and the Saunders ST-27 and ST-28.

Design and development

In the closing stages of the Second World War, the aircraft manufacturer de Havilland began development of a new small twin-engined passenger aircraft, the DH 104 Dove, intended as a replacement for the earlier Dragon Rapide and which soon proved to be successful. As a further development, the company basically enlarged the Dove; the fuselage was lengthened to make room for more passengers or freight, and the wingspan was increased to make room for two more engines. The Heron was of all-metal construction, and was laid out as a conventional design; the resulting aircraft could use many of the parts originally designed for the Dove, thus simplifying logistics for airlines using both types.

The emphasis was on rugged simplicity to produce an economical aircraft for short- to medium-stage routes in isolated and remote areas which did not possess modern airports. The Heron was designed with a fixed undercarriage and Gipsy Queen 30 engines, which lacked potentially unreliable reduction gearboxes and superchargers.

The Heron prototype registered to the de Havilland Aircraft Company, Hatfield, UK, as G-ALZL undertook its first flight with Geoffrey Pike at the controls on 10 May 1950.[2] The aircraft was unpainted at the time, and after 100 hours of testing was introduced to the public on 8 September 1950 at the Farnborough Airshow, still glistening in its polished metal state. By November, the prototype had received its formal British Certificate of Airworthiness and had flown to Khartoum and Nairobi for tropical trials.

The prototype was then painted and fitted out as a company demonstrator, and was tried by British European Airways in 1951 on its Scottish routes. Following the successful completion of the prototype trials as a regional airliner, series production of the Heron began. The first deliveries were to NAC, the New Zealand National Airways Corporation (later part of Air New Zealand).

Basic price for a new Heron in 1960 was around £60,000, minus radio.[3]

Operational service

The first Heron, Series 1A suffered deficiencies, as NAC soon discovered. First, the aircraft was generally underpowered. Its quite heavy engines (weighing about 220kg (490lb) each), had an output of only 250hp each. By comparison, later modifications or rebuilt aircraft had as much as 50% more power (in the case of the Saunders ST-27). Unlike the Dove, the Heron came with a fixed undercarriage and no nosewheel steering, which simplified maintenance, but reduced top speed. Secondly, the lightweight aluminium alloy wingspars were prone to constant cracking due to the heavy loading on the wing caused by the overweight engines and rough landings on unpaved runways. NAC resolved this by replacing the aluminium spars with heavier steel spars, reducing the performance of the Heron Series 1A (re-classified 1B) to uneconomic levels for the services required of them in New Zealand. NAC disposed of them in 1957.

After 51 Series 1 aircraft had been built, production switched to the Series 2, featuring retractable landing gear, which reduced drag and fuel consumption, and increased the top speed marginally. The 2A was the equivalent of the 1A, the basic passenger aircraft while the 1B and its successor the 2B had higher maximum takeoff weight, the 2C featured fully feathering propellers, the Heron 2D had an even higher maximum takeoff weight, while the Heron 2E was a VIP version.

In service, the Heron was generally well received by flight crews and passengers who appreciated the additional safety factor of the four engines. At a time when smaller airliners were still rare in isolated and remote regions, the DH.114 could provide reliable and comfortable service with seating for 17 passengers, in individual seats on either side of the aisle.

With its larger fuselage, passengers could stand up whilst moving down the aisle and large windows were also provided. Baggage was stored in an aft compartment with an additional smaller area in the nose. A few peculiarities appeared; passengers who filled the aft rows first would find that the Heron gently "sat down" on its rear skid. Pilots and ground crews soon added a tail brace to prevent the aircraft from sitting awkwardly on its tail.

Performance throughout the Heron range was relatively "leisurely", and after production at de Havilland's Chester factory ceased in 1963, several companies, most notably Riley Aircraft Corporation, offered various Heron modification kits, mainly related to replacing the engines, which greatly enhanced takeoff and top speed capabilities. Riley Aircraft replaced the Gipsy Queens with horizontally-opposed Lycoming IO-540 engines.

One U.S. airline that carried out Riley-type conversions at their Opa Locka Airport, Florida, engineering facility was Prinair, of Puerto Rico, which replaced the Gipsy Queens with Continental IO-520 engines.[4] Prinair also considerably stretched Heron 2 N574PR to allow extra passengers to be carried.

Connellan Airways also converted its Herons, using Riley kits. When available aircraft reached the end of their service lives, the engine conversions gave the elderly airliner a new lease of life as a number of examples were converted in the 1970s and 1980s including N415SA, a Riley Heron still flying in Sweden as of 20 May 2012 and a Riley Turbo Skyliner, tail number N600PR currently registered in the United States (this example appeared in the 1986 movie Club Paradise[5]).

The most radical modification of the basic Heron airframe was the Saunders ST-27/-28, that changed the configuration as well as the "look" of the whole aircraft with two powerful turboprop engines replacing the lethargic four-engine arrangement, a stretched fuselage, the shape of the windows changed and the wingtips squared instead of rounded.

Variants

Operators

See also: List of de Havilland Heron operators.

Military operators

Civil operators

Accidents and incidents

References

Bibliography

Notes and References

  1. Web site: De Havilland DH114 Heron.
  2. Jackson, A.J. British Civil Aircraft Since 1919, Volume 2. London: Putnam & Company, 1973. .
  3. Web site: Archived copy . 24 July 2012 . 12 May 2013 . https://web.archive.org/web/20130512174522/http://www.flightglobal.com/pdfarchive/view/1960/1960%20-%202684.html . dead .
  4. http://rgl.faa.gov/Regulatory_and_Guidance_Library/rgstc.nsf/0/FB2A55478F8143EB85256CCB00601865 "FAA Supplemental Type Certificate SA1685WE."
  5. Ebert, Roger. " 'Club Paradise' Review". Roger Ebert.com. Retrieved: 1 April 2007. Note: The Riley Heron is integral to the plot as it unloads planeloads of unsuspecting tourists at a ramshackle resort.
  6. http://rgl.faa.gov/Regulatory_and_Guidance_Library/rgstc.nsf/0/BDB945FF897C517E85256CC100820FB5 "FAA Supplemental Type Certificate SA1368WE."
  7. Taylor 1965, p. 107.
  8. Web site: Congo, Part 1; 1960–1963 . ACIG . https://web.archive.org/web/20150113052328/http://www.acig.org/artman/publish/article_182.shtml. 13 January 2015. 2003. Tom Cooper.
  9. Air International November 1985, p. 229.
  10. Web site: Ranter . Harro . ASN Aircraft accident de Havilland DH-114 Heron 1B F-BGOI Mount Kupe . 2022-06-03 . aviation-safety.net.
  11. Web site: Ranter . Harro . ASN Aircraft accident de Havilland DH-114 Heron 2B LN-SUR Hummelfjell Mountain . 2022-06-03 . aviation-safety.net.
  12. Web site: Ranter . Harro . ASN Aircraft accident de Havilland DH-114 Heron 1B G-AOFY Islay-Glenegedale Airport (ILY) . 2022-06-03 . aviation-safety.net.
  13. Web site: Ranter . Harro . ASN Aircraft accident de Havilland DH-114 Heron 2D EC-ANZ Son Bonet Airport Airport . 2022-06-03 . aviation-safety.net.
  14. Web site: Ranter . Harro . ASN Aircraft accident de Havilland DH-114 Heron 1B G-APJS Mount Scifarello . 2022-06-03 . www.asndata.aviation-safety.net . 2 December 2021 . https://web.archive.org/web/20211202095541/https://www.asndata.aviation-safety.net/database/record.php?id=19580219-3 . dead .
  15. Web site: Ranter . Harro . ASN Aircraft accident de Havilland DH-114 Heron 2D EC-ANJ Barcelona Airport (BCN) . 2022-06-03 . aviation-safety.net.
  16. Web site: Ranter . Harro . ASN Aircraft accident de Havilland DH-114 Heron 2 I-AOMU Mt Capanne . 2022-06-03 . aviation-safety.net.
  17. Web site: Ranter . Harro . ASN Aircraft accident de Havilland DH-114 Heron 1B F-OCED Moroni Airport (HAH) . 2022-06-03 . aviation-safety.net.
  18. Web site: ASN Aircraft accident de Havilland DH-114 Heron 2D N563PR San Juan.
  19. Web site: Ranter . Harro . ASN Aircraft accident de Havilland DH-114 Heron 1B HR-ASN Tegucigalpa-Toncontin Airport (TGU) . 2022-06-03 . aviation-safety.net.
  20. Web site: Ranter . Harro . ASN Aircraft accident de Havilland DH-114 Prinair Heron 2B N554PR Ponce-Mercedita Airport (PSE) . 2022-06-03 . aviation-safety.net.
  21. Web site: Ranter . Harro . ASN Aircraft accident de Havilland DH-114 Riley Heron 2E/A1 VH-CLS Cairns Airport, QLD (CNS) . 2022-06-03 . aviation-safety.net.
  22. Web site: Ranter . Harro . ASN Aircraft accident de Havilland DH-114 Heron 2D N575PR Saint Croix-Alexander Hamilton Airport (STX) . 2022-06-03 . aviation-safety.net.
  23. Web site: Aviation Safety Network. aviation-safety.net. 7 November 2016.