Hush kit


A hush kit is an aerodynamic device used to help reduce the noise produced by aircraft jet engines. These devices are typically installed on older turbojet and low-bypass turbofan engines, as they are much louder than later high-bypass turbofan engines.[1]

Hush kit for the Pratt and Whitney JT8D-1 through -17 engines which power the Boeing 727, Boeing 737-100 and 200, and Douglas DC-9
Rolls Royce Conway Mk508 (1959) used in Boeing 707-420 at Flugausstellung Hermeskeil, pic1
A Hush kit installed on a Swedish Air Force Sud Aviation Caravelle This Hush kit is actually a Stage 2 hush kit as this aircraft is originally Stage 1 noise. Existing Stage 2 noise aircraft (mainly Low Bypass Turbofan powered) from the Mid 1960s to the Early 1980s were already Stage 2 noise without modification due to having a bypass ratio. Earlier Turbojet driven jetliners from the late 1950s and some early 1960s were Stage 1 noise, and in the 1970s, to balance every civil jet being Stage 2 noise, Stage 1 noise Jetliners received Stage 2 Hush kits to quiet them down slightly to Stage 2 noise levels. You can tell the difference between a Stage 2 and 3 hush kit by the number of lobes on the mixer. A Stage 2 hush kit has 6 to 8 lobes, whereas a Stage 3 hush kit has 10 to 12 lobes. Nowadays aircraft that have been Stage 2 modified must be Stage 3 modified in most countries.

Hush kits are used because the engines on jet aircraft generate a large amount of noise, which significantly increases noise pollution near airports.[2]

Design

The most common form of hush kit is a multi-lobe exhaust mixer. This device is fitted to the rear of the engine and mixes the jet core's exhaust gases with the surrounding air and a small amount of available bypass air. Modern high-bypass turbofan engines build on this principle by utilizing available bypass air to envelop the jet-core exhaust at the rear of the engine, reducing noise.

Most hush kits make further modifications to the exhaust, including acoustically treated tailpipes, revised inlet nacelles and guide vanes. They reduce the forward propagating, high-pitched noise caused by the small, high-speed fan.[1]

This kind of high-pitched noise is much less of an issue on modern high-bypass turbofan engines as the significantly larger front fans they employ are designed to spin at much lower speeds than those found in older turbojet, and low-bypass turbofan, engines.

Use

Modern aircraft equipped with Mid and high-bypass turbofan engines are designed to comply with contemporary aviation noise abatement laws and ICAO regulations. Several older aircraft that are still in service (typically in a cargo capacity) have hush kits retrofitted so that they are able to conform with noise regulations needed to operate in many commercial airports.[1] Some of the examples include:

Impact

Hush kits can adversely affect the range and performance of the aircraft they are fitted to because of the extra weight. It also reduces engine performance and aerodynamic efficiency. For example, the hush kit fitted to the Gulfstream II adds 106 kilograms (234 lb) to the total airplane weight of 65,500 lb (29,700 kg), causing around a 1.6% reduction in aircraft range.[3]

Meanwhile, the hush kit for the Gulfstream G-III jets weighs about 170 kg (370 lb) and cause a calculated 2% drop in range, although the reduction in range has not been noticed during actual flights, which are rarely made to the very limit of the aircraft's range anyway.[4]

On a larger aircraft, like Federal Express's Boeing 727s, the hush kits add 410 kg (900 lb) of extra weight (total airplane weight up to 86,000 kg (190,000 lb)) and this results in an overall 0.5% increase in fuel burn for short trips (but no measurable increase for long flights).[5][6]

Regulation

While hush kits effectively reduce noise emissions from older aircraft, noise cannot always be reduced to the level of modern planes at a reasonable cost.[7]

In 1999, this concern led to a regulatory dispute between the United States and the European Union, where the EU proposed a new noise ordinance which effectively prevented the use of hush kits in Europe. By December 31, 1999, all Stage 2 noise jetliners operating in the US must have Stage 3 hush kits in order to continue to fly in the US after January 1, 2000. This regulation threatened to reduce the value of the mostly-American used airplanes that employed hush kits and hurt the profits of American hush kit manufacturers.[1] EU Regulation 925/99 was passed over US threats to ban Concorde but was superseded (and effectively repealed) by EU Directive No. 2002/30/EC issued March 26, 2002.

In 2013, the FAA modified 14 CFR part 91 rules to prohibit the operation of jets weighing 75,000 pounds or less that are not stage 3 noise compliant after December 31, 2015. Any Stage 2 Business jets that have not been modified by installing Stage 3 noise compliant engines or have not had Stage 3 hush kits installed for non-compliant engines will not be permitted to fly in the contiguous 48 states after December 31, 2015. 14 CFR §91.883 Special flight authorizations for jet airplanes weighing 75,000 pounds or less – lists special flight authorizations that may be granted for operation after December 31, 2015.

See also

References

  1. Mola, Roger A. (January 2005). "Hush Kits". Air & Space/Smithsonian. Retrieved 25 December 2016.
  2. "Hush Kits". Air & Space Magazine. Retrieved 2018-05-07.
  3. "Quiet Technology Aerospace". Qtaerospace.com. 2003-03-20. Archived from the original on 2012-07-21. Retrieved 2013-01-20.
  4. "Hubbard Aviation Technologies QS3 Hush Kit". Hubavtech.com. Retrieved 2013-01-20.
  5. "Stage 3 Jet Kit - Airplane Noise". Fedex.com. Retrieved 2013-01-20.
  6. "Heavy Freight Shipping - Heavy Freight - FedEx Heavy Freight". Fedex.com. Retrieved 2013-01-20.
  7. Majcher, Kristin (July 5, 2013). "Operators face scrapping aircraft as FAA tightens business jet noise rules". Flight Global. Retrieved April 1, 2018.
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