Woodward, Inc.

Last updated

Woodward, Inc. is an American designer, manufacturer, and service provider of control systems and control system components (e.g. fuel pumps, engine controls, actuators, air valves, fuel nozzles, and electronics) for aircraft engines, industrial engines and turbines, power generation and mobile industrial equipment. The company also provides military devices and other equipment for defense. [1]

Contents

Woodward, Inc.
FormerlyThe Woodward Governor Company
Company type Public
Nasdaq:  WWD (WGOV prior to 2011)
S&P 400 Component
ISIN US9807451037
Industry Aerospace, Industrial [2]
Founded Rockford, Illinois, United States (1870 (1870)) [3]
FounderAmos Woodward [3]
Headquarters
Fort Collins, Colorado
,
United States
Number of locations
42 plants and offices in 13 countries [3]  (2021)
Area served
Worldwide
Key people
Tom Cromwell|(Vice Chairman & COO)
Products Control systems and components
Revenue
  • Decrease2.svg US$ 2.25 billion
  • (FY SEP 2021) [4]
  • Decrease2.svg US$ 280.08 million
  • (FY SEP 2021) [4]
  • Decrease2.svg US$ 208.65 million
  • (FY SEP 2021) [4]
Total assets
  • Increase2.svg US$ 4.09 billion
  • (FY SEP 2021) [4]
Total equity
  • Increase2.svg US$ 2.21 billion
  • (FY SEP 2021) [4]
Number of employees
~7,200 (FY MAY 2021)
Website www.woodward.com

40°33′13.45″N105°3′39.82″W / 40.5537361°N 105.0610611°W / 40.5537361; -105.0610611

Woodward, Inc. was founded as The Woodward Governor Company by Amos Woodward in 1870. [5] Initially, the company made controls for waterwheels (first patent No. 103,813), and then moved to hydro turbines. [6] In the 1920s and 1930s, Woodward began designing controls for diesel and other reciprocating engines and for industrial turbines. Also in the 1930s, Woodward developed a governor for variable-pitch aircraft propellers. [7] Woodward parts were notably used in the GE engine on United States military's first turbine-powered aircraft. Starting in the 1950s, Woodward began designing electronic controls, first analog and then digital units.

Historical information

The company was founded in Rockford, Illinois, in 1870 with Amos W. Woodward's invention of a non compensating mechanical waterwheel governor (U.S. patent No. 103,813). [5] [8] Thirty years later, his son Elmer patented the first successful mechanical compensating governor for hydraulic turbines (U.S. patent No. 583,527). [9] In 1933, the company expanded its product line to include diesel engine controls (U.S. patent No. 2,039,507) [10] and aircraft propeller governors (British patent No. 470,284). [11] Woodward governors followed the rapid advancement of diesel engine applications for railroads, maritime and electrical generation in many fields. The advent of gas turbine engines for aircraft and industrial uses offered still more opportunities for Woodward designed fuel controls. And, of course, the science of electronics has added impetus to this industry.

Elmer E. Woodward conceived, designed, and developed the first successful propeller control in 1933. [11] This model PW-34 propeller governor is on display at the Udvar-Hazy annex of the Smithsonian National Air and Space Museum. [12]

Modern day company

As of 2007, Woodward Governor Company became a billion-dollar company with establishments worldwide, including Japan, China, and Europe.[ citation needed ]

On January 26, 2011, the company announced that shareholders had approved the name change to Woodward, Inc. [13]

A growing number of general aviation and commuter aircraft rely on Woodward AES overspeed governors, synchronizers and synchrophasers for turboshaft, turboprop, and reciprocating engines. As of September 2016, approximately 34% of the company's sales were to the defense market, including parts for the V-22 Osprey ($645,000 revenue per aircraft) and the F/A-18 ($335,000 revenue per aircraft). [14] The engines that are controlled by Woodward Aircraft engines systems include those from Honeywell (TPE331), General Electric (CT7), Pratt & Whitney Canada (PT6A series), Raytheon, Vans, and Rotax Corporations.

In April 2018, Woodward Inc. purchased L'Orange GmbH for $859 million. This supplier of fuel-injection components for stationary, marine, offshore, and industrial engines was part of Rolls-Royce's power-systems business in Germany, the US and China. [15] On January 12, 2020, the company announced an intent to merge with Hexcel, according to the Wall Street Journal. On April 20, it was announced the merger was called off, as a result of the health crisis caused by the COVID-19 pandemic. [16] The COVID19 crisis also led to a sharp drop in revenues for Woodward, Inc. [17]

In February 2024, a protest outside facilities in Niles, Illinois resulted in arrests of 7 men and 26 women. Protesters say that Woodward is complicit in the Israel–Hamas war called for an end to contracts with Boeing and Israel. [18] A previous protest in support of the Palestinian cause brought about 300 people to the facility in Fort Collins, Colorado, in November 2023. [19]

Woodward family patents

Related Research Articles

<span class="mw-page-title-main">Engine</span> Machine that converts one or more forms of energy into mechanical energy (of motion)

An engine or motor is a machine designed to convert one or more forms of energy into mechanical energy.

<span class="mw-page-title-main">Locomotive</span> Self-propelled railway vehicle

A locomotive or engine is a rail transport vehicle that provides the motive power for a train. If a locomotive is capable of carrying a payload, it is usually rather referred to as a multiple unit, motor coach, railcar or power car;

<span class="mw-page-title-main">Turboprop</span> Turbine engine driving an aircraft propeller

A turboprop is a turbine engine that drives an aircraft propeller.

<span class="mw-page-title-main">Gas turbine</span> Type of internal and continuous combustion engine

A gas turbine or gas turbine engine, by its old name internal combustion turbine, is a type of continuous flow internal combustion engine. The main parts common to all gas turbine engines form the power-producing part and are, in the direction of flow:

<span class="mw-page-title-main">Aircraft engine</span> Engine designed for use in powered aircraft

An aircraft engine, often referred to as an aero engine, is the power component of an aircraft propulsion system. Aircraft using power components are referred to as powered flight. Most aircraft engines are either piston engines or gas turbines, although a few have been rocket powered and in recent years many small UAVs have used electric motors.

In mechanical and control engineering, a servomechanism is a control system for the position and its time derivatives, such as velocity, of a mechanical system. It often includes a servomotor, and uses closed-loop control to reduce steady-state error and improve dynamic response. In closed-loop control, error-sensing negative feedback is used to correct the action of the mechanism. In displacement-controlled applications, it usually includes a built-in encoder or other position feedback mechanism to ensure the output is achieving the desired effect. Following a specified motion trajectory is called servoing, where "servo" is used as a verb. The servo prefix originates from the Latin word servus meaning slave.

<span class="mw-page-title-main">Pratt & Whitney Canada PT6</span> Turboprop aircraft engine family by Pratt & Whitney Canada

The Pratt & Whitney Canada PT6 is a turboprop aircraft engine produced by Pratt & Whitney Canada. Its design was started in 1958, it first ran in February 1960, first flew on 30 May 1961, entered service in 1964, and has been continuously updated since. The PT6 consists of two basic sections: a gas generator with accessory gearbox, and a free-power turbine with reduction gearbox. In aircraft, the engine is often mounted "backwards," with the intake at the rear and the exhaust at the front, so that the turbine is directly connected to the propeller. Many variants of the PT6 have been produced, not only as turboprops but also as turboshaft engines for helicopters, land vehicles, hovercraft, and boats; as auxiliary power units; and for industrial uses. By November 2015, 51,000 had been produced, which had logged 400 million flight hours from 1963 to 2016. It is known for its reliability, with an in-flight shutdown rate of 1 per 651,126 hours in 2016. The PT6A turboprop engine covers the power range between 580 and 1,940 shp, while the PT6B/C are turboshaft variants for helicopters.

<span class="mw-page-title-main">Diesel–electric powertrain</span> Propulsion system for vehicles

A diesel–electric transmission, or diesel–electric powertrain, is a transmission system for vehicles powered by diesel engines in road, rail, and marine transport. Diesel–electric transmission is based on petrol–electric transmission, a transmission system used for petrol engines.

<span class="mw-page-title-main">Steam turbine locomotive</span>

A steam turbine locomotive was a steam locomotive which transmitted steam power to the wheels via a steam turbine. Numerous attempts at this type of locomotive were made, mostly without success. In the 1930s this type of locomotive was seen as a way both to revitalize steam power and challenge the diesel locomotives then being introduced.

<span class="mw-page-title-main">Allison T56</span> American-built military turboprop (1954–)

The Allison T56 is an American single-shaft, modular design military turboprop with a 14-stage axial flow compressor driven by a four-stage turbine. It was originally developed by the Allison Engine Company for the Lockheed C-130 Hercules transport entering production in 1954. It has been a Rolls-Royce product since 1995 when Allison was acquired by Rolls-Royce. The commercial version is designated 501-D. Over 18,000 engines have been produced since 1954, logging over 200 million flying hours.

<span class="mw-page-title-main">Variable-pitch propeller (aeronautics)</span> Propeller with blades that can be rotated to control their pitch while in use

In aeronautics, a variable-pitch propeller is a type of propeller (airscrew) with blades that can be rotated around their long axis to change the blade pitch. A controllable-pitch propeller is one where the pitch is controlled manually by the pilot. Alternatively, a constant-speed propeller is one where the pilot sets the desired engine speed (RPM), and the blade pitch is controlled automatically without the pilot's intervention so that the rotational speed remains constant. The device which controls the propeller pitch and thus speed is called a propeller governor or constant speed unit.

Overspeed is a condition in which an engine is allowed or forced to turn beyond its design limit. The consequences of running an engine too fast vary by engine type and model and depend upon several factors, the most important of which are the duration of the overspeed and the speed attained. With some engines, a momentary overspeed can result in greatly reduced engine life or catastrophic failure. The speed of an engine is typically measured in revolutions per minute (rpm).

<span class="mw-page-title-main">Marine propulsion</span> Systems for generating thrust for ships and boats on water

Marine propulsion is the mechanism or system used to generate thrust to move a watercraft through water. While paddles and sails are still used on some smaller boats, most modern ships are propelled by mechanical systems consisting of an electric motor or internal combustion engine driving a propeller, or less frequently, in pump-jets, an impeller. Marine engineering is the discipline concerned with the engineering design process of marine propulsion systems.

<span class="mw-page-title-main">Stipa-Caproni</span> Experimental aircraft

The Stipa-Caproni, also known as the Caproni Stipa, was an experimental Italian aircraft designed in 1932 by Luigi Stipa (1900–1992) and built by Caproni. It featured a hollow, barrel-shaped fuselage with the engine and propeller completely enclosed by the fuselage—in essence, the whole fuselage was a single ducted fan. Although the Regia Aeronautica was not interested in pursuing development of the Stipa-Caproni, its design influenced the development of jet propulsion.

Solar Turbines Incorporated, a wholly owned subsidiary of Caterpillar Inc., designs and manufactures industrial gas turbines for onshore and offshore electrical power generation, for marine propulsion and for producing, processing and transporting natural gas and oil.

<span class="mw-page-title-main">McCauley Propeller Systems</span> American propeller manufacturer

McCauley Propeller Systems is an American aircraft propeller manufacturer, founded in Dayton, Ohio in 1938 by Ernest G. McCauley. At its peak, it was reportedly the world's largest aircraft propeller manufacturer, or at least the largest manufacturer of general aviation propellers. For most of its existence, McCauley was headquartered in or near Dayton. In the 21st century, its headquarters were moved to then-parent-company Textron Aviation's headquarters in Wichita, Kansas.

Willans & Robinson Limited manufacturing engineers of Thames Ditton, Surrey. Later, from 1896, at Victoria Works, Rugby, Warwickshire, England. They were manufacturers of stationary reciprocating steam engines then steam turbines, Diesel motors and generators. They also ran their own foundry.

<span class="mw-page-title-main">Cyclorotor</span> Perpendicular axis marine propulsion system

A cyclorotor, cycloidal rotor, cycloidal propeller or cyclogiro, is a fluid propulsion device that converts shaft power into the acceleration of a fluid using a rotating axis perpendicular to the direction of fluid motion. It uses several blades with a spanwise axis parallel to the axis of rotation and perpendicular to the direction of fluid motion. These blades are cyclically pitched twice per revolution to produce force in any direction normal to the axis of rotation. Cyclorotors are used for propulsion, lift, and control on air and water vehicles. An aircraft using cyclorotors as the primary source of lift, propulsion, and control is known as a cyclogyro or cyclocopter. A unique aspect is that it can change the magnitude and direction of thrust without the need of tilting any aircraft structures. The patented application, used on ships with particular actuation mechanisms both mechanical or hydraulic, is named after German company Voith Turbo.

<span class="mw-page-title-main">Ernest G. McCauley</span> American aviation innovator and industrialist

Ernest Gilbert McCauley was an American aviation pioneer who in 1938 founded McCauley Aviation Corporation. He began his career at the government's Propeller Research Department of the Airplane Design Section, Aviation Section of the Signal Corps based at McCook Field, Dayton, Ohio. In 1939, McCauley reincorporated McCauley Aviation Corporation into McCauley Steel Propeller Company. In December 1941 McCauley's company increased production from 700 to 1500 propellers per month, supporting the war effort.

<span class="mw-page-title-main">Internal combustion locomotive</span> Railway locomotive that produces its pulling power through an internal combustion engine

An internal combustion locomotive is a type of railway locomotive that produces its pulling power using an internal combustion engine. These locomotives are fuelled by burning fossil fuels, most commonly oil or gasoline, to produce rotational power which is transmitted to the locomotive's driving wheels by various direct or indirect transmission mechanisms. The fuel is carried on the locomotive.

References

  1. https://www.woodward.com/industry/military/smart-defense
  2. "Explore Our Markets" . Retrieved 2015-01-07.
  3. 1 2 3 "About Woodward". Woodward. September 2014. Retrieved 2015-01-07.
  4. 1 2 3 4 5 "US SEC: Form 10-K Woodward, Inc". U.S. Securities and Exchange Commission . Retrieved June 28, 2022.
  5. 1 2 "Woodward's History". Woodward, Inc. Retrieved 5 March 2019.
  6. "Hydro Governors and Controls: A Perspective | Energy Central". energycentral.com. Retrieved 2020-06-30.
  7. Kinney, Jeremy R. (2017-03-24). Reinventing the Propeller. Cambridge University Press. ISBN   978-1-107-14286-2.
  8. U.S. patent 103,813 USpatent 103813,Woodward, Amos W.,"Improvement in Water-Governors",issued 1870-05-31
  9. U.S. patent 583,527 USpatent 583527,Woodward, Amos W.&Woodward, Elmer E.,"Governor for Water Wheels",issued 1897-06-01
  10. U.S. patent 2,039,507 USpatent 2039507,Woodward, Elmer E.,"Diesel Engine Governor",issued 1936-05-05, assigned to Woodward Governor Company
  11. 1 2 GBpatent 470284,Woodward, Elmer E.,"Automatic Governor Control for Controllable Pitch Propeller",issued 1937-08-12, assigned to Woodward Governor Co
  12. Brown, Steven; McCutcheon, Kimble D. (2003). "Aircraft Propulsion Artifacts Case; Stephen F. Udvar-Hazy Center". Aircraft Engine Historical Society. Retrieved 2015-01-07.
  13. Woodward Governor drops the ‘Governor’, Bizjournals.com, 26 January 2011
  14. "Gabelli & Company's 22nd Annual Aircraft Supplier & Connectivity Conference" (PDF). Gabelli.com. 20 September 2016. p. 31. Retrieved 2 May 2019.
  15. Pat Ferrier, Woodward buys part of Rolls-Royce, pays $17M to move California operations to Fort Collins, Coloradoan.com, 9 April 2018
  16. "Woodward and Hexcel Announce Mutual Termination of Merger". 2020-04-20. Retrieved 2020-07-21.
  17. Pat Ferrier, Woodward's sales plunge amid ongoing COVID-19 pandemic, Coloradoan.com, 7 August 2020
  18. "33 arrested in Niles protest at Woodward Manufacturing, accuse company of complicity in Gaza war". ABC7 Chicago. 2024-02-07. Retrieved 2024-02-13.
  19. Anderson, Chloe (2023-11-13). "100s support Palestinians during 'die-in' outside Colorado-based Woodward". Colorado Newsline. Retrieved 2024-02-13.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.