In the Summer 2004 Issue of
Reminiscences of Experimental Piston Engine Test
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"In 1930 my family moved to Derby and as a 15-year old school boy I was well aware that this was the home of Rolls-Royce who made the engines that held so many world records.
While at Derby School three miles across town from Royce’s, as Rolls-Royce is locally known, I frequently heard what I later realized were R engines running open exhaust in preparation for an attempt on land, air or water speed record. In about 1931 we had a school visit to the factory. The speedboat Miss England happened to be at Derby as we gazed with amazement at the seemingly complicated R engine cam and rocker mechanism uncovered for maintenance. There could be no question that Rolls-Royce standards were magnificent.
In 1931 I applied for an apprenticeship but due to scoring a couple of distinctions and topping the matriculation results the headmaster talked my parents into keeping me at school. However I eventually, via the back door, got into Rolls-Royce. After periods in the machine shop, inspection and production control and turning down a chance of a job on the works managers staff, finished up on the experimental beds."
This is the account of Chris Harrison, a Rolls-Royce engine tester, who saw them all, from the "R" racing engine to the amazing Crecy.
V-12 Firing Orders
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Twelve independent cylinders can be arranged to fire in nearly 20,000,000 different ways. If a requirement is imposed that firing alternate between banks in a V-12 this is reduced to only 580,400. Finding an acceptable pattern meeting realistic physical and dynamic constraints could be a daunting task! Fortunately a conventional V-12 is in fact two inline 6s mounted on a common crankshaft. The number of unique firing sequences for an inline 6 is 60, reducing to 32 for a V-12 firing alternate banks and using a realistically configured crankshaft. This article has found nine firing orders that have been used to one degree or another. Prior to the age of the digital computer analyzing even this number still presented a daunting task.
This article provides an in-depth analysis of V-12 firing orders used in a number of V-12 engines.
It Will Never Run
"I
was to hear these words many times from just about everyone. All those 'It will
never run' people are now 'I see it but don’t believe it' fans."
An account of the restoration of a Le Rhone rotary engine.
Man Flies
Nothing
can dim the glory of the Wright Brothers’ flight at Kill Devil Hills in 1903.
The brothers transformed the heavier than air flying machine from a toy into a
practical and above all controllable forefather of every aircraft up to the wide
bodied jet. While we celebrate the Wrights, let’s not forget Alberto
Santos-Dumont who five years earlier produced the first purpose-built internal
combustion (IC) aero engine which propelled him around Paris in his Dirigible
No. 1. It was twice the capacity of any other reasonably light IC engine, ran at
speeds regarded as insane by the engineering establishment and produced
creditable specific outputs by weight and engine capacity.
Aircraft Engine Condition Analysis
The
Sperry Aircraft Engine Analyzer was a CRT “scope” which showed individual spark
plug condition in the final generation of 18 and 28 cylinder reciprocating
engines. These were used on multiengine aircraft such as the Lockheed
Constellation, Douglas DC-7, C-124, Boeing B-50, C-97, B-377 and Convair B-36.
John Lindberg, a Pan American Airlines engineer, came up with the Engine
Analyzer concept.
Shortly after joining Sperry as a project engineer, just as the first Lockheed Constellation analyzers were installed, I took over new analyzer versions and installations in other types of aircraft.
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