Angelo Di Pietro (inventor): Difference between revisions
RockviewLove (talk | contribs) No edit summary |
Jerryobject (talk | contribs) WP:LINKs: WP:RED delink until article exists, adds, update-standardizes, cut needless WP:REPEATLINK in same paragraph. WP:REFerence WP:CITation parameters: respace, reorder, add, fill, update-standardize. Small WP:COPYEDITs WP:EoS WP:TERSE: needless section MOS:HEADing article WP:TITLE MOS:NOBACKREF word repeats cut. Adds: Template:Multiple image, Template:Cite patent, Template:Convert. Cut needless carriage returns in paragraphs. |
||
| Line 1: | Line 1: | ||
{{ |
{{|the cardinal with the same name|Angelo Di Pietro}} |
||
{{Short description|Italian engineer}} |
{{Short description|Italian engineer}} |
||
{{Multiple issues| |
{{Multiple issues| |
||
| Line 10: | Line 10: | ||
== Life == |
== Life == |
||
He qualified as |
He qualified as Congegnatore Meccanico in Avellino and moved to [[Stuttgart]] to work on the [[ rotary engine]] at the [[Mercedes-Benz]] research laboratories 1969 and 1970. In 1971 he migrated to Australia where he established a construction engineering company. From his early experience with Wankel rotary engines, Angelo became interested in developing a more efficient engine than the traditional reciprocating internal combustion engine, and he has worked on various alternative concepts intermittently over the last 30 years. In 1999 he made a major design breakthrough with a rotary motor which runs on compressed air.<ref>{{Cite web|url=https://www.engineair.com.au/licensing|title=Environmentally Friendly, Engine, Invention Melbourne}}</ref> |
||
The engine was called the Angelo Di Pietro |
The engine was called the Angelo Di Pietro Rotary Positive Displacement Air Engine and Di Pietro claims that his engine is 100% more efficient than competitors' products and that the reduction in friction will allow the engine to turn with a pressure of 1 psi.<ref>{{cite web |url=http://www.engineair.com.au/airmotor.htm |title=Engineair |website= |access-date=6 June 2022 |archive-url=https://web.archive.org/web/20181222115137/http://www.engineair.com.au/airmotor.htm |archive-date=22 December 2018}}</ref>{{Citation needed|date=July 2021}} |
||
Di Pietro targeted locations in which automotive vehicles are required, but cause immense health hazards such as produce markets and warehouses. Di Pietro was determined to find an alternative that was both environmentally conscious, comparable in desired power, and inexpensive. |
Di Pietro targeted locations in which automotive vehicles are required, but cause immense health hazards such as produce markets and warehouses. Di Pietro was determined to find an alternative that was both environmentally conscious, comparable in desired power, and inexpensive. |
||
==Rotary motor== |
|||
==Angelo Di Pietro's Rotary Positive Displacement Air Engine== |
|||
{{Multiple image |
|||
[[File:9 expansion chambers motor..jpg|thumb|Nine expansion chambers motor.]] |
|||
| direction = vertical |
|||
[[File:Di Pietro Engine Drawing Colored.svg|thumb|labeled Drawing with 6 expansion chambers]] |
|||
| width = 220 |
|||
[[File:Di Pietro Engine Animation2.gif|thumb|animation with 6 expansion chambers]] |
|||
| header = The Di Pietro Motor |
|||
| ⚫ | |||
| image1 = 9 expansion chambers motor..jpg |
|||
| caption1 = Motor with 9 expansion chambers. |
|||
| image2 = Di Pietro Engine Drawing Colored.svg |
|||
| caption2 = Labeled drawing with 6 expansion chambers |
|||
| image3 = Di Pietro Engine Animation2.gif |
|||
| caption3 = Animation with 6 expansion chambers |
|||
}} |
|||
| ⚫ | |||
The CA-patent for this engine was published in 2001.<ref>{{Cite web|url=https://patents.google.com/patent/CA2378960A1/de|title=Rotary piston engine}}</ref> |
The CA-patent for this engine was published in 2001.<ref>{{Cite web|url=https://patents.google.com/patent/CA2378960A1/de|title=Rotary piston engine}}</ref> |
||
The US-patent for this engine was granted in 2005.<ref>{{US patent|6868822}}</ref> |
|||
Unlike other rotary engines, the Di Pietro |
Unlike other rotary engines, the Di Pietro uses a simple cylindrical rotary piston (shaft driver) which rolls, with no friction, inside cylindrical stator.<ref>[http://www.rexresearch.com/pietro/us6868822.pdf Di Pietro's rotary piston engine]</ref> |
||
Only 1 [[Pounds per square inch|psi]] (≈ 6,8 [[kPa]]) of pressure is needed to overcome the friction.<ref>{{Cite web |url=http://www.engineair.com.au/airmotor.htm |title=www.engineair.com.au<!-- Bot generated title --> |access-date=2007-10-28 |archive-url=https://web.archive.org/web/20181222115137/http://www.engineair.com.au/airmotor.htm |archive-date=2018-12-22 |url-status=dead }}</ref> |
|||
The space between stator and rotor is divided |
The space between stator and rotor is divided 6 expansion chambers by pivoting dividers. These dividers follow the motion of the shaft driver as it rolls around the stator wall. |
||
The cylindrical shaft driver, forced by the air pressure on its outer wall, moves eccentrically, thereby driving the motor shaft by means of two rolling elements mounted on bearings on the shaft. The rolling motion of the shaft driver inside the stator is cushioned by a thin air film. Timing and duration of the air inlet and exhaust is governed by a slotted timer which is mounted on the output shaft and rotates with the same speed as the motor. |
|||
Variation of performance parameters of the motor is achieved by varying the time during which the air is allowed to enter the chamber: A longer air inlet period allows more air to flow into the chamber and therefore results in more torque. A shorter inlet period will limit the air supply and allows the air in the chamber to perform expansion work at a much higher efficiency. In this way compressed air (energy) consumption can be exchanged for higher torque and power output depending on the requirements of the application (this is identical to function of the [[Cutoff (steam engine)| |
Variation of performance parameters of the motor is achieved by varying the time during which the air is allowed to enter the chamber: A longer air inlet period allows more air to flow into the chamber and therefore results in more torque. A shorter inlet period will limit the air supply and allows the air in the chamber to perform expansion work at a much higher efficiency. In this way compressed air (energy) consumption can be exchanged for higher torque and power output depending on the requirements of the application (this is identical to function of the [[Cutoff (steam engine)|cutoff]] control in a [[steam engine]]). |
||
Motor speed and torque are controlled by throttling the amount or pressure of air into the motor. The Di Pietro motor gives instant torque at zero RPM and can be precisely controlled to give soft start and acceleration control. |
Motor speed and torque are controlled by throttling the amount or pressure of air into the motor. The Di Pietro motor gives instant torque at zero RPM and can be precisely controlled to give soft start and acceleration control. |
||
The Di Pietro |
The Di Pietro can be used in boats, cars, burden carriers and other vehicles.<ref>{{Cite web |url=http://www.engineair.com.au/applications.htm |title= |-= |archive-url=https://web.archive.org/web/20161002080556/http://www.engineair.com.au/applications.htm |archive-date=2016-10-02 |-=}}</ref> In this application, the engine has all the , advantages and disadvantages all [[-air vehicle]]s share. |
||
==See also== |
==See also== |
||
| Line 43: | Line 48: | ||
==External links== |
==External links== |
||
* |
* www.engineair.com.au |
||
* {{YouTube|ZGiviT-C_oY}} |
* {{YouTube|ZGiviT-C_oY}} |
||
{{ |
{{ control}} |
||
{{DEFAULTSORT:Pietro, Angelo Di}} |
{{DEFAULTSORT:Pietro, Angelo Di}} |
||
Revision as of 01:26, 8 April 2024
 | This article has multiple issues. Please help improve it or discuss these issues on the talk page. (Learn how and when to remove these messages)
|
Angelo Di Pietro (born 1950 in Avellino, Italy) is an engine designer who developed the Di Pietro Motor air engine.
Life
He qualified as Congegnatore Meccanico in Avellino and moved to Stuttgart to work on the pistonless rotary Wankel engine at the Mercedes-Benz research laboratories 1969 and 1970. In 1971, he migrated to Australia where he established a construction engineering company. From his early experience with Wankel rotary engines, Angelo became interested in developing a more efficient engine than the traditional reciprocating internal combustion engine, and he has worked on various alternative concepts intermittently over the last 30 years. In 1999, he made a major design breakthrough with a rotary motor which runs on compressed air.[1] The engine was called the Angelo Di Pietro Rotary Positive Displacement Air Engine and Di Pietro claims that his engine is 100% more efficient than competitors' products and that the reduction in friction will allow the engine to turn with a pressure of 1 psi.[2][citation needed]
Di Pietro targeted locations in which automotive vehicles are required, but cause immense health hazards such as produce markets and warehouses. Di Pietro was determined to find an alternative that was both environmentally conscious, comparable in desired power, and inexpensive.
Rotary motor
The Di Pietro Motor, developed by the Australian company EngineAir, is a positive displacement pneumatic rotary engine powered by compressed air. Per unit of power, it is smaller than any internal combustion engine although the size may differ between models.
The CA-patent for this engine was published in 2001.[3] The US-patent for this engine was granted in 2005.[4]
Unlike other rotary engines, the Di Pietro Motor uses a simple cylindrical rotary piston (shaft driver) which rolls, with almost no friction, inside a cylindrical stator.[5] Only 1 pound per square inch (6.9 kPa) psi (≈ 6,8 kPa) of pressure is needed to overcome the friction.[6]
The space between stator and rotor is divided into 6 expansion chambers by pivoting dividers. These dividers follow the motion of the shaft driver as it rolls around the stator wall. The cylindrical shaft driver, forced by the air pressure on its outer wall, moves eccentrically, thereby driving the motor shaft by means of two rolling elements mounted on bearings on the shaft. The rolling motion of the shaft driver inside the stator is cushioned by a thin air film. Timing and duration of the air inlet and exhaust is governed by a slotted timer which is mounted on the output shaft and rotates at the same speed as the motor.
Variation of performance parameters of the motor is achieved by varying the time during which the air is allowed to enter the chamber: A longer air inlet period allows more air to flow into the chamber and therefore results in more torque. A shorter inlet period will limit the air supply and allows the air in the chamber to perform expansion work at a much higher efficiency. In this way compressed air (energy) consumption can be exchanged for higher torque and power output depending on the requirements of the application (this is identical to function of the cutoff control in a steam engine).
Motor speed and torque are controlled by throttling the amount or pressure of air into the motor. The Di Pietro motor gives instant torque at zero RPM and can be precisely controlled to give soft start and acceleration control.
The Di Pietro motor can be used in boats, cars, burden carriers, and other vehicles.[7] In this application, the engine has all of the environmental implications, advantages, and disadvantages which all compressed-air vehicles share.
See also
References
- ^ "Environmentally Friendly, Engine, Invention". Engineair Pty Ltd. Melbourne.
- ^ "Engineair". Engineair Pty Ltd. Archived from the original on 22 December 2018. Retrieved 6 June 2022.
- ^ "Rotary piston engine".
- ^ States6868822 United States Expired – Lifetime 6868822, Angelo Di Pietro, "Rotary piston engine", published 2005-03-22, assigned to Engineer Pty Ltd and Engineair Pty Ltd
- ^ Di Pietro's rotary piston engine
- ^ "Engineair Pty Ltd". Archived from the original on 2018-12-22. Retrieved 2007-10-28.
- ^ "Engineair Pty Ltd". Archived from the original on 2016-10-02. Retrieved 2008-04-09.
External links
- Official website, Engineair Pty Ltd
- Video on YouTube