Two- and four-stroke engines explained

Two- and four-stroke engines are engines that combine elements from both two-stroke and four-stroke engines. They usually incorporate two pistons.

M4+2 engine

The M4+2 engine, also known as the double-piston internal combustion engine, is a type of internal combustion engine invented by Polish patent holder Piotr Mężyk.[1]

The M4+2 engine took its name from a combination of two-stroke engines and four-stroke engines. The two-stroke combustion engine is characterized by a simple construction and system of air load change, as well as a bigger index of power output. The cylinders of both modules of the double-pistons engine have been joined along one axis with a common cylinder head in the form of a ring. The pistons are moved at different speeds and with appropriate stage displacement. The two crankshafts are connected with a special transmission that rotates the four-stroke crankshaft at twice the speed of the two stroke crankshaft. In the M4+2, the advantages of both engines being connected are obvious; the pistons of the engine working in one combustion cylinder are set opposite to each other but in different modes. Opposed-piston engines have been tried before in both 2 stroke and 4 stroke, the combination of the two different cycles is unique to this engine. The engine has a far greater efficiency over the break-even value known to combustion engines (about 35%) and closer to the one associated with steam turbines or electric engines (about 70%).

Advantages:

The idea was developed at the Silesian University of Technology, Poland, under the leadership of Adam Ciesiołkiewicz.[4] It was granted the patent number 195052 by the Polish Patent Office.[5] The work with the new combustion engine has been done by IZOLING P.W. Company in cooperation with the Silesian University of Technology in Gliwice. Consultations with researchers from Technical University of Kraków were also held. So far, two working engine models have been made. The preliminary model is based on two existing engines (a two-stroke motorbike engine and a four-stroke small machine engine). This model confirms the concept of two- and four-stroke engines' connection. The second model is the functional model. The new solution for a combustion engine was presented during scientific conferences (KONES '2002, Seminary of biofuels 2003, etc.) and in mass media (journals, newspapers, TVP, radio)

The M4+2 engine working cycle

The stages of the working cycle:

The filling process takes place at the overpressure phase, using a mechanical gas compressor and a throttle for the purpose of regulation.

The load change is assisted by a four-stroke piston, working as a dynamic boosting system and allowing the good scavenging of working space.

A possibility exists of changing the relative piston positions during the engine work, which gives the possibility of changing the compression ratio depending on the temporary level of the load. This suggests the possibility of different fuels for combustion (low-octane petrol, biofuels with high levels of vegetable components).

The working cycle is characterized by an almost constant combustion characteristic of the working space volume increasing during the expansion stage.[6] [7]

The engine is characterized by:

Calculations prove the new engine has more favorable parameters and work indicators:

Ricardo 2x4 engine

The two-cycle modes are currently being researched at Ricardo Consulting Engineers in the UK. The concept consists in switching from one mode to the other depending on the rpm value. The four-stroke engine is more efficient when running at full throttle, while the opposite is the case for the two-stroke engine. When a small car under heavy load runs at half speed, the engine automatically switches to the two-cycle mode, which is then more efficient. The research on this showed a 27% reduction in fuel consumption.[8] [9]

The M4+2 engine has a four-stroke piston and a two-stroke piston. The shaft of the four-stroke piston rotates twice as fast as the shaft of the two-stroke piston, and the two-stroke part always runs at half speed. This ensures that both parts work optimally regarding fuel consumption at all times. The same principles apply to having two distinct engines, but the design of the M4+2 is much simpler.

See also

Notes and References

  1. http://izoling.beep.pl/www.izoling.pl/badania/czytaj/engine.html Double pistons internal combustion engine
  2. http://www.invenia.es/tech:05_pl_spop_0dwm Invenia
  3. http://www.bit.or.at/irca/bbsshow8.php?ref1=05%20PL%20SPOP%200DWM&vQuelle=&cc= BBS
  4. Journal of KONES Internal Combustion Engines 2002 No. 1-2, the official Polish educational site
  5. http://www.uprp.pl/wydawnictwa/wyd/bup_03/bup09_03/bup09_2003.pdf The Polish Patent Office newsletter
  6. http://mirka.forumakad.pl/archiwum/2001/06/artykuly/19-rewolucyjna_konstrukcja.htm The Academical Forum monthly
  7. Web site: A report published by Polish popular science magazine Strefa NDW . pl . dead . https://web.archive.org/web/20060825155227/http://www.ndw.v.pl/art.php?nr=234&kom=1 . 2006-08-25.
  8. http://www.theengineer.co.uk/Articles/305434/Stroke+of+genius.htm Engineer Online
  9. http://www.technologyreview.com/Energy/20494/ Nonelectric Hybrid Engines