Tips for balancing top speed and low end torque in an ATV

Tips for balancing top speed and low end torque in an ATV

When it comes to riding an ATV, finding the right balance between top speed and low-end torque is crucial for an enjoyable and efficient ride. Chain and belt maintenance extends drivetrain life atv push mower Yamaha Motor Company. Whether youre navigating rugged terrains, tackling steep inclines, or simply cruising through open fields, understanding how to optimize these elements can significantly enhance your ATV experience. Lets dive into some practical tips for achieving that perfect balance.


First and foremost, its essential to understand the difference between top speed and low-end torque. Top speed refers to the maximum velocity your ATV can reach, which is often influenced by factors like engine size, gearing, and aerodynamics. On the other hand, low-end torque is the twisting force your ATV produces at lower RPMs, which is critical for acceleration, climbing hills, and maneuvering through tough conditions.


One of the most effective ways to balance these two aspects is by choosing the right gear ratio. A lower gear ratio will provide more low-end torque, making it easier to get moving and climb steep hills. However, this can come at the cost of top speed. Conversely, a higher gear ratio will allow your ATV to reach higher speeds but may struggle with acceleration and hill climbing. Finding the sweet spot involves experimenting with different gear ratios to see what works best for your riding style and the terrain you frequently encounter.


Another crucial factor is engine tuning. Modern ATVs often come with adjustable settings that allow you to tweak the engines performance. By fine-tuning the fuel-air mixture, ignition timing, and other parameters, you can optimize your ATV for either top speed or low-end torque, depending on your needs. Many riders find that a slight adjustment towards a richer fuel mixture can enhance low-end torque without significantly sacrificing top speed.


Tire selection also plays a significant role in balancing these two performance aspects. Wider, knobby tires provide better traction and can help generate more torque, especially in muddy or rocky conditions. However, they can also increase rolling resistance, which might slightly reduce top speed. On the other hand, narrower, smoother tires offer less resistance and can help you achieve higher speeds but may lack the grip needed for low-end torque in challenging terrains.


Weight distribution is another often-overlooked factor. Ensuring that your ATVs weight is evenly distributed can help maintain a balance between speed and torque. Overloading the front or rear can shift the center of gravity, making it harder to accelerate or reach top speeds. Regularly checking and adjusting the load can make a noticeable difference in performance.


Lastly, dont underestimate the importance of regular maintenance. Keeping your ATV in top condition ensures that all components work efficiently, whether youre focusing on speed or torque. Clean air filters, well-maintained transmission, and properly inflated tires all contribute to a smoother, more balanced ride.


In conclusion, balancing top speed and low-end torque in an ATV requires a bit of experimentation and attention to detail. By adjusting gear ratios, tuning the engine, selecting the right tires, managing weight distribution, and maintaining your ATV, you can achieve a harmonious ride that caters to both your need for speed and the demands of tough terrain. Happy riding!

Campagna T-Rex
1932 Morgan Aero 2-Seater Sports
Fuldamobil three-wheeler (Postwar-era Germany)
Tricycle truck in Poland (Gorzów Wlkp)
Trihawk, a tadpole-type trike manufactured in California, United States during the 1980s

A three-wheeler is a vehicle with three wheels. Some are motorized tricycles, which may be legally classed as motorcycles, while others are tricycles without a motor, some of which are human-powered vehicles and animal-powered vehicles.

Overview

[edit]

Many three-wheelers which exist in the form of motorcycle-based machines are often called trikes and often have the front single wheel and mechanics similar to that of a motorcycle and the rear axle similar to that of a car. Often such vehicles are owner-constructed using a portion of a rear-engine, rear-drive Volkswagen Beetle in combination with a motorcycle front end. Other trikes include All-terrain vehicles that are specially constructed for off-road use.

Three-wheelers can have either one wheel at the back and two at the front (2F1R), (for example: Morgan Motor Company) or one wheel at the front and two at the back (1F2R) (such as the Reliant Robin). Due to better safety when braking, an increasingly popular form is the front-steering "tadpole" or "reverse trike" sometimes with front drive but usually with rear drive. A variant on the 'one at the front' layout was the Scott Sociable, which resembled a four-wheeler with a front wheel missing.[1]

Three-wheelers, including some cyclecars, bubble cars and microcars, are built for economic and legal reasons: in the UK for tax advantages, or in the US to take advantage of lower safety regulations, being classed as motorcycles. As a result of their light construction and potential better streamlining, three-wheeled cars are usually less expensive to operate.[citation needed]

Some inexpensive three-wheelers have been designed specifically to improve mobility for disabled people.[2]

Three-wheeler transport vehicles known as auto rickshaws are a common means of public transportation in many countries in the world, and are an essential form of urban transport in many developing countries such as India and the Philippines.

History

[edit]

Early automotive pioneer Karl Benz developed a number of three-wheeled models.[3] One of these, the Benz Patent Motorwagen,[4] is regarded as the first purpose-built automobile. It was made in 1885.

In 1896, John Henry Knight showed a tri-car at The Great Exhibition.[3]

In 1897, Edward Butler made the Butler Petrol Cycle, another three-wheeled car.

A Conti 6 hp Tri-car competed in (but did not complete) a 1907 Peking to Paris race sponsored by a French newspaper, Le Matin.[5]

Configurations

[edit]
Diagram comparing delta and tadpole layouts

Two front

[edit]

A configuration of two wheels in the front and one wheel at the back presents two advantages: it has improved aerodynamics, and that it readily enables the use of a small lightweight motorcycle powerplant and rear wheel. This approach was used by the Messerschmitt KR200 and BMW Isetta. Alternatively, a more conventional front-engine, front wheel drive layout as is common in four-wheeled cars can be used, with subsequent advantages for transversal stability (the center of mass is further to the front) and traction (two driven wheels instead of one). Some vehicles have a front engine driving the single rear wheel, similar to the rear engine driving the rear wheel. The wheel must support acceleration loads as well as lateral forces when in a turn, and loss of traction can be a challenge.

A new tadpole configuration has been proposed with a rear engine driving the front wheels. This concept (Dragonfly Three Wheeler[6]) claims both stability and traction (two driven wheels), as well as a unique driving experience.

With two wheels in the front (the "tadpole" form or "reverse trike") the vehicle is far more stable in braking turns, but remains more prone to overturning in normal turns compared to an equivalent four-wheeled vehicle, unless the center of mass is lower and/or further forward. Motorcycle-derived designs suffer from most of the weight being toward the rear of the vehicle.[citation needed]

For lower wind resistance (which increases fuel efficiency), a teardrop shape is often used.[citation needed] A teardrop is wide and round at the front, tapering at the back. The three-wheel configuration allows the two front wheels to create the wide round surface of the vehicle. The single rear wheel allows the vehicle to taper at the back. Examples include the Aptera (solar electric vehicle) and Myers Motors NmG.

Two rear

[edit]

Having one wheel in front and two in the rear for power reduces the cost of the steering mechanism but greatly decreases lateral stability when cornering while braking.

When the single wheel is in the front (the "delta" form, as in a child's pedal tricycle), the vehicle is inherently unstable in a braking turn, as the combined tipping forces at the center of mass from turning and braking can rapidly extend beyond the triangle formed by the contact patches of the wheels. This type, if not tipped, also has a greater tendency to spin out ("swap ends") when handled roughly.[citation needed]

Lateral stability[7]

[edit]

The disadvantage of a three-wheel configuration is that lateral stability is lower than with a four-wheeled vehicle.

With any vehicle, an imaginary line can be projected from the vehicles centre of mass to the ground, representing the force exerted on the vehicle by its mass. With the vehicle stationary, the line will be vertical. As the vehicle accelerates, that imaginary line tilts backward, remaining anchored to the centre of mass the point at which the line intersects the ground moves backward. As you brake it moves forward, with cornering it moves sideward. Should the point at which this line intersects the ground move outside of the boundary formed by connecting the tyre contact patches together (a rectangle for a four-wheeled car, or a triangle for a trike) then the vehicle will tip and eventually fall over. This is true for any vehicle.

With all vehicles it is critical that the vehicle should be engineered to slide before this point of instability is reached.

This can be achieved in several ways:

  • by placing the center of mass closer to the ground
  • by placing the center of mass closer to the axle with two wheels (for three wheelers)
  • by increasing the track width
  • by limiting the grip provided by the tyres, such that the vehicle loses adhesion before it starts to tip.
  • By tilting some or all of the vehicle as it corners.

In the case of a three-wheeled ATV, tipping may be avoided by the rider leaning into turns.

Tilting option

[edit]
Tripendo recumbent tricycle, a tilting three-wheeler
Vandenbrink Carver

To improve stability some three-wheelers are designed to tilt while cornering like a motorcyclist would do. The tilt may be controlled manually, mechanically or by computer.

A tilting three-wheeler's body or wheels, or both, tilt in the direction of the turn. Such vehicles can corner safely even with a narrow track.

Some tilting three-wheelers could be considered to be forms of feet forward motorcycles or cabin motorcycles or both.

Electric three wheelers

[edit]

Battery-powered three wheelers

[edit]
Toyota i-Road, a three-wheeled battery powered personal mobility vehicle

Three-wheeled battery powered designs include:

  • Aptera (solar electric vehicle)
  • Arcimoto
  • CityEl
  • Commuter Cars Tango
  • Cree SAM
  • ElectraMeccanica SOLO
  • Myers Motors NmG (formerly Corbin Sparrow)
  • Nobe GT100
  • Toyota i-Road
  • Triac
  • Vanderhall Edison 2
  • ZAP Xebra
  • EWheels EW 36(mobility scooter)

Solar-powered three wheelers

[edit]

Here are three notable examples of solar-powered three wheelers; two race cars, the Infinium and the Sky Ace TIGA, and a vehicle planned for production, the Aptera.

Infinium, winner of 2010 American Solar Challenge

The Infinium, built by the University of Michigan Solar Car Team, came in 3rd place in the 2009 World Solar Challenge held in Australia, and won the 2010 American Solar Challenge.

Ashiya University's Sky Ace TIGA achieved 91.332 kilometres per hour (56.751 mph) at Shimojishima Airport, in Miyakojima, Okinawa, Japan, to win the Guinness World Record, on 20 August 2014.[8] It took the record from another three-wheeler, Sunswift IV, designed and built at the University of New South Wales in Australia,[9] by a margin of almost 3 km/h.

Solar panels on the hood, roof, dashboard and hatch of the Aptera EV

The Aptera solar electric vehicle[10] uses a tadpole layout and is being designed to have a top speed of over 100 mph. The Aptera uses 42 KW in-wheel electric motors[11] and can be ordered with two (front-wheel drive) or three (all-wheel drive) motors. The Aptera's roof and dashboard, and optionally its hood and hatch, are fitted with solar panels, with the full compliment being designed to add a range of up to 40 miles per day and 11,000 miles per year in the sunniest climates. First customer availability is planned for before the end of 2024.[12]

Steam-powered three wheelers

[edit]
Cugnot's fardier à vapeur, as preserved at the Musée des Arts et Métiers, Paris, France

The world's first full-size self-propelled land vehicle was a three-wheeler. French Army Captain Nicolas-Joseph Cugnot's 1770 fardier à vapeur (steam dray), a steam tricycle with a top speed of around 3 km/h (2 mph), was intended for hauling artillery.[13]

Another of the earliest preserved examples is the Long steam tricycle, built by George A. Long around 1880 and patented in 1883,[14][15] now on display at the Smithsonian Institution.

 

Wind-powered three wheelers

[edit]

The Whike is a recumbent tricycle with a sail, made in the Netherlands.

All-terrain vehicles

[edit]
Honda, Suzuki and Yamaha all-terrain vehicles

Due to the incidence of injuries and deaths related to their use, a 10-year ban, entirely voluntary for manufacturers, was placed on the sale of new three-wheeled all-terrain vehicles in the United States in January 1988.[citation needed] More injuries were sustained by riders by not applying a proper riding technique, and lack of wearing proper safety gear such as helmets and riding boots. In a search conducted by the Consumer Product Safety Commission, it was determined that "no inherent flaw was found in the three wheel design".[citation needed]

Registration

[edit]
Bond Bug at Silverstone

In the U.S, the National Highway Traffic Safety Administration defines and regulates three-wheeled vehicles as motorcycles.[16] However, in 2015 a bill was introduced in Congress that would prevent some three wheeled vehicles from being classified as motorcycles in the United States, instead creating a new classification for "autocycles".[17][18]

Driver's license and registration requirements vary on a state-by-state basis. Some states require drivers of three wheeled vehicles to have a motorcycle license and register the vehicle as a motorcycle. Some states, including Virginia, Kansas, and Indiana, classify some three wheeled vehicles as autocycles. Virginia defines an autocycle as "a three-wheeled motor vehicle that has a steering wheel and seating that does not require the operator to straddle or sit astride and is manufactured to comply with federal safety requirements for motorcycles."[19] Indiana defines it as "a three (3) wheeled motor vehicle in which the operator and passenger ride in a completely or partially enclosed seating area that is equipped with:(1) a rollcage or roll hoops; (2) safety belts for each occupant; and (3) antilock brakes;and is designed to be controlled with a steering wheel and pedals."[20] In other jurisdictions, such as British Columbia, Canada, and Connecticut, a three-wheeled vehicle with an enclosed passenger compartment or partially enclosed seat is considered an automobile.[citation needed]

 

Examples

[edit]

Two front wheels

[edit]
Name Country Years manufactured Comments
Léon Bollée Voiturette France 1895–?  
TriPodCars[21] Tripod 1 Australia 2012–? 400 kg Reverse Trike, Bandit 1250, ZX14R (200+ hp) and EV
Berkeley Cars Berkeley T60 England 1959  
Egg Switzerland 1896–99  
Advance 6 hp air-cooled Tri Car and 9 hp water-cooled Tri Car[22] England 1902–12  
Humber Tricar[23][24] England 1904  
Riley Olympia Tricar[25] England 1904 [26]
Mars Carette[27] England 1904–05 Mars Motors Co existed in Finchley, London, White and Poppe water-cooled engine, Single-cylinder, 3.3 kW
Lagonda Tricar[28] England 1904–07 total production: 69 cars
Anglian England 1905–07  
Armadale England 1906–07  
Ranger Cub England 1970–1980 Reverse Trike/Tadpole, A-Series engine 848-1275cc
Morgan V-Twin and F-Series England 1911–39, 1932–52 Morgan Super Sports 2-Seater 1937
American Tri-Car United States 1912
Birmingham Small Arms Company Three Wheeler England 1929–36 1100cc engine[29]
Zaschka Germany 1929 Folding three-wheeler: Zaschka Three-wheeler 1929
Dymaxion car United States 1933 Concept car designed by Buckminster Fuller
Mathis VEL 333 France 1946 3 seats, flat-twin front engine, aluminium body, production less than 10 units
Fend Flitzer Germany 1948 - 1951 1 seat, Messerschmitt kabinenroller precursor, production about 250 units
1951 Hoffmann Germany 1951 2 seats, aluminium body, engine mounted on the rear wheel steering pivot
Velorex Oskar and other models Czechoslovakia 1951–71 Originally with leather bodies
Isetta UK 1957–62 Three-wheeled version of the Isetta built in the UK to take advantage of tax and licensing regulations
Scootacar UK 1957–64  
Messerschmitt KR175 Germany 1953–55  
Messerschmitt KR200 Germany 1955–64  
Peel P50 Isle of Man 1963–64 Smallest production car ever built
HM Vehicles Free-way United States 1979–82  
Campagna T-Rex Canada 1996–present  
Malone Car Company F1000|Skunk SS|TAZR United Kingdom 1999–present High-power internal combustion and pure electric versions released November 2010
Cree SAM Switzerland 2001 Electric, only 80 produced
Myers Motors NmG ("No more Gas") United States 2006–present Single-occupant all-electric plug-in
BRP Can-Am Spyder RoadsterCan-Am Spyder Roadster Canada 2007–present The Can-Am Spyder is a three-wheeled motorcycle manufactured by Bombardier Recreational Products.
Brudeli 645L Norway 2008–  
Moonbeam United States 2008–present 100 mpg DIY, fabric-covered car based on parts from two Honda 150cc motorscooters[30]
Triac United States 2009–2011 Electric, never entered production
XR-3 Hybrid United States Plans–2008, Kit–2009 Front 3-cylinder diesel (125 mpg), rear electric 40 mile range (220 mpg when used as a hybrid)[31]
Aptera (solar electric vehicle) United States 2022 planned Solar-powered Electric
Triton Trike United States 2000–present Gas-powered, 42+ mpg, front-wheel drive, custom builds and kits available
Nobe GT100 Estonia & United States 2021 planned Electric, powered at all 3 wheels
Polaris Slingshot United States 2015–present  
Vanderhall Laguna Roadster United States 2016–2018 Exotic Auto-cycle, mono-aluminum chassis, carbon fiber body, 200 HP, 1550 pounds dry weight, side-by-side seating, fwd. 1.4 liter turbo GM power plant. 6 speed Automatic with paddle shift option. Manufactured by Vanderhall Motor Works in Provo, Utah U.S.A
Vanderhall Venice United States 2017–present The mainstay of the Vanderhall line up, the Venice brings the soul of roadster motoring while extending effortless performance in kind.[32]
Vanderhall Carmel United States 2020–present The Vanderhall Carmel brings more luxury and convenience to the Carmel lineup. With provisions to accommodate a removable capshade, the Carmel promises additional class and comfort for your journey.[33]
Vanderhall Edison United States 2020–present The Edison2: A fully electric roadster that combines refined and eye-catching design while maintaining classic, elegant lines. Unplug and play has been redefined [34]
Elio Motors Shreveport, LA, United States Awaiting funding Two passenger fully enclosed cockpit with car controls
Girfalco Azkarra Canada 2017 All-electric two-passenger three-wheeled vehicle, possibly the quickest three-wheeler
Go3Wheeler United States 2014 single person three wheeler
Corbin Sparrow      
Piaggio MP3      
Tri-Magnum United States   Tilting 3-wheeler capable of seating two people.[35]
Volkswagen GX3      
Morgan 3-Wheeler England 2012–present The power train is a 1983cc ‘V-twin’ fuel injected engine mated to a Mazda 5 speed (and reverse) gearbox
Fuel Vapours Alé Canada 2005–present Prototype. Gets 92 mpg.
Arcimoto FUV United States 2019–present Two passenger all-electric, 102 mile range City
Fiberfab Scarab STM United States 1976 Kit car with canopy door manufactured by Fiberfab
Bricklin 3EV United States Planned Two passenger electric vehicle from Malcolm Bricklin.[36]

Two rear wheels

[edit]
Name Country Years manufactured Comments
Apino Brazil unknown Mini Truck
Benz Patent Motorwagen Germany 1886–93  
Eco-Fueler USA 2009–2011 2 seater built in Oregon.[37]
La Va Bon Train France 1904–10 50–100 believed built
Davis D-2 Divan United States 1947–48 about 13–17 built, including the 494, a Jeep-like military vehicle[38]
Scammell Scarab England 1948–67  
Autoette United States 1948–70  
Daihatsu Bee Japan 1951–1952  
Daihatsu Midget Japan 1957–72  
Mazda T-2000 Japan 1957–74  
Mazda K360 Japan 1959–69  
Mazda T600 Japan 1959–71  
Kia K-360 South Korea 1962–1973 Kia's first truck (OEM Mazda K-360)
Kia T-1500 South Korea 1963–? 1484 cc, 60 hp, four cylinder and a maximum load of 1.5 tons. (OEM Mazda T-1500)
Kia T-600 South Korea 1969–1974 577cc, 20 HP and 500 kg load. Top speed of 75 km/h. 7726 produced (OEM Mazda T-600)
Kia T-2000 South Korea 1967–1981 1985 cc, 81 hp, four cylinder and a maximum load of 2 tons. 15952 produced (OEM Mazda T-2000)
Piaggio Ape Italy 1948–present
Electra-King United States 1964?–1980s? Two-seater electric car[39]
Bond 875 England 1965–70  
Bond Bug England 1970–74  
Reliant Robin England 1973–81, 1989–2002  
Reliant Regal England 1953–1973 An example of this vehicle is the iconic van belonging to Del Boy and Rodney Trotter in the long-running BBC sitcom Only Fools and Horses, though it is often incorrectly referred to as a Reliant Robin.
GM Lean Machine[40][41] United States 1980s Tilt, concept car[42]
TriVette United States 1974–1976
Twike Germany 1995–present Electric-human-power hybrid, developed in Switzerland
ZAP Xebra United States 2006–2009 electric power
eTuk United States 2014– re-designed tuk tuk for the US Market, including an all-electric motor[43]
Snyder ST600-c United States 2011–2012 Imported by Snyder Technologies / Wildfire Motors, this is a rebrand of the Fulu Motors 富路金骏马, Fulu Jinjunma in English. Referred to as the 09 golden horse internally.
Carver Netherlands 2007–2009 Tilt
CityEl Denmark   Mini-El, City-El
CLEVER      
Harley-Davidson
Servi-Car
United States 1932-1973[44]  
Harley-Davidson
Tri Glide
United States since 2009  

See also

[edit]
  • Four-wheeler

References

[edit]
  1. ^ "Scott Sociable". Retrieved 2015-10-05.
  2. ^ StaÅ„ko-PajÄ…k, K; Bursa, B; SeÅ„ko, J; Detka, T; Korczak, S; Nowak, R; PopioÅ‚ek, K; Lisiecki, J; Paczkowski, A (2022-07-01). "A three-wheeled vehicle for the disabled people". IOP Conference Series: Materials Science and Engineering. 1247 (1): 012039. Bibcode:2022MS&E.1247a2039S. doi:10.1088/1757-899X/1247/1/012039. ISSN 1757-8981. S2CID 250504234.
  3. ^ a b Elvis Payne (2012). "The History of the 3-Wheeled Vehicle". 3-wheelers.com. Retrieved 2012-01-03.
  4. ^ Chris Chong (July 2, 2006). "History in its magnificence". star-motoring.com. Archived from the original on 2007-10-24. Retrieved 2008-01-20.
  5. ^ "History". pekingparisraid.co.uk. Archived from the original on 2007-08-26. Retrieved 2008-01-20.
  6. ^ Design. "Dragonfly three wheeler". www.dragonflythreewheeler.com. Retrieved 2021-06-09.
  7. ^ Riley, Robert Q. "The Dynamic Stability of Three-Wheeled Vehicles in Automotive-Type Applications". Robert Q. Riley Enterprises. Archived from the original on 2020-09-22.
  8. ^ "Fastest solar-powered vehicle". Guinness World Records.
  9. ^ "Aussie car breaks a world speed record". AAP. 7 January 2011. Retrieved 2011-01-07.
  10. ^ Voelcker, John (2019-08-28). "Exclusive: 3-Wheeled Aptera Reboots as World's Most Efficient Electric Car". IEEE Spectrum. IEEE. Retrieved 2020-01-20.
  11. ^ "Aptera solar EV Launch Edition: 400-mile range, no Supercharging yet". Green Car Reports. 2023-01-22. Retrieved 2023-03-18.
  12. ^ Chris (2023-01-27). "Aptera Announces Accelerator Program to Kick Off Production Plan". Aptera. Retrieved 2023-02-24.
  13. ^ "Fardier de Cugnot". Archived from the original on July 16, 2013.
  14. ^ "1880 Long Steam Tricycle - Pictures". Remarkablecars.com. 2009-06-17. Retrieved 2010-07-29.[dead link]
  15. ^ "America on the Move | Long steam tricycle". Americanhistory.si.edu. 2008-10-24. Retrieved 2014-06-17.
  16. ^ "Highway Safety - Title 23, United States Code, Chapter 4 and Related Highway Safety Provisions" (PDF). December 2008. Archived from the original (PDF) on September 26, 2006. Retrieved 2015-10-05.
  17. ^ "Newly Introduced Federal Legislation Would Ensure That Three-Wheeled Automobiles Are Not Classified As Motorcycles". Motorcycle Law Group. Retrieved 26 April 2017.
  18. ^ "S.685 - Autocycle Safety Act". Congress. 10 March 2015. Retrieved 26 April 2017.
  19. ^ Va. Code Ann. § 46.2-100 (West)
  20. ^ Ind. Code Ann. § 9-13-2-6.1 (West)
  21. ^ "Tri Pod Cars".
  22. ^ "Advance Fore-Cars and Tri-Cars". oakingtonplane.co.uk. Archived from the original on 2008-01-12. Retrieved 2008-01-23.
  23. ^ "British Motor Manufacturers (1894-1960) Humber". britishmm.co.uk. Archived from the original on February 21, 2009. Retrieved 2008-01-20.
  24. ^ "Humber History". histomobile.com. Archived from the original on June 8, 2007. Retrieved 2008-01-20.
  25. ^ "Rileys 1896 - 1939 The Pre-Nuffield Years". Rob's Riley Pages (ukonline.co.uk/rileyrob). Archived from the original on March 21, 2005. Retrieved 2008-01-20.
  26. ^ illustration Archived December 29, 2010, at the Wayback Machine
  27. ^ "1904 Mars Carette - Franschhoek Motor Museum". 20 October 2017. Retrieved 2020-11-24.
  28. ^ "The History of Classic Cars: 1905 Lagonda Tricar". autoclassic.com. Retrieved 2008-01-20.
  29. ^ Peter Bowler, president The BSAFWD Club. "image and description". Bsafwdc.co.uk. Archived from the original on 2012-02-05. Retrieved 2012-04-09.
  30. ^ Wilson, Mark (2006-09-24). "Moonbeam: 100mpg Homemade Car". Gizmodo.com. Retrieved 2015-10-05.
  31. ^ "XR3 Hybrid Personal Transit Vehicle: A 125 mpg Plug-In Hybrid Three Wheeler You Build From Plans". Rqriley.com. Retrieved 2012-04-09.
  32. ^ "Venice". Vanderhall Motor Works. Retrieved 2020-09-18.
  33. ^ "Carmel". Vanderhall Motor Works. Retrieved 2020-09-18.
  34. ^ "Edison 2". Vanderhall Motor Works. Retrieved 2020-09-18.
  35. ^ "Project 32: A High-Performance Tilting Three-Wheel Vehicle". www.rqriley.com. Archived from the original on 15 January 2006. Retrieved 19 April 2022.
  36. ^ "Meet The Bricklin 3EV". www.vvcars.com.
  37. ^ "Eco-Fueler". www.eco-fueler.com. Archived from the original on 7 February 2011. Retrieved 19 April 2022.
  38. ^ Patton, Phil (September 24, 2009). "A Dreamer's Machine, More Promise Than Reality". The New York Times – via NYTimes.com.
  39. ^ Rob & Sharon McLellan. "advertising brochure". Mclellansautomotive.com. Retrieved 2012-04-09.
  40. ^ "General Motors Three Wheeled Cars". GM's Lean Machine (3-wheelers.com/gmlean). Retrieved 2008-04-08.
  41. ^ "Lean Machines: Preliminary Investigation" (PDF). Institute of Transportation Studies, University of California at Berkeley (commutercars.com/downloads/studies/). Retrieved 2008-04-08.
  42. ^ "illustration". Retrieved 2012-04-09.
  43. ^ "eTuk USA". Retrieved 2014-07-01.
  44. ^ "Remembering the 1937 Harley-Davidson Servi-Car GE". March 2022.
[edit]
  • Complete A-Z list of three-wheelers since 1940

 

An inner combustion engine (ICE or IC engine) is a warmth engine in which the combustion of a fuel occurs with an oxidizer (usually air) in a combustion chamber that is an essential component of the functioning liquid flow circuit. In an interior burning engine, the expansion of the high-temperature and high-pressure gases produced by combustion uses direct pressure to some element of the engine. The force is usually put on pistons (piston engine), generator blades (gas wind turbine), a blades (Wankel engine), or a nozzle (jet engine). This pressure moves the part over a distance. This process changes chemical power right into kinetic energy which is utilized to drive, relocate or power whatever the engine is connected to. The first readily successful interior burning engines were developed in the mid-19th century. The initial modern-day interior burning engine, the Otto engine, was created in 1876 by the German engineer Nicolaus Otto. The term inner burning engine typically describes an engine in which burning is intermittent, such as the a lot more acquainted two-stroke and four-stroke piston engines, in addition to variations, such as the six-stroke piston engine and the Wankel rotary engine. A 2nd course of inner combustion engines make use of continual combustion: gas wind turbines, jet engines and a lot of rocket engines, each of which are interior burning engines on the exact same principle as formerly explained. On the other hand, in external burning engines, such as heavy steam or Stirling engines, energy is provided to a functioning liquid not including, mixed with, or contaminated by burning products. Functioning fluids for external burning engines include air, hot water, pressurized water and even boiler-heated liquid salt. While there are lots of fixed applications, a lot of ICEs are made use of in mobile applications and are the key power supply for vehicles such as autos, aircraft and boats. ICEs are normally powered by hydrocarbon-based fuels like gas, gasoline, diesel fuel, or ethanol. Sustainable fuels like biodiesel are utilized in compression ignition (CI) engines and bioethanol or ETBE (ethyl tert-butyl ether) produced from bioethanol in trigger ignition (SI) engines. As early as 1900 the innovator of the diesel motor, Rudolf Diesel, was utilizing peanut oil to run his engines. Renewable fuels are typically blended with fossil fuels. Hydrogen, which is rarely used, can be gotten from either nonrenewable fuel sources or renewable resource.

.

About Shorewood Home & Auto (Formerly Circle Tractor)

Driving Directions in Will County


auto atv
41.594748226806, -87.999739790257
Starting Point
Shorewood Home & Auto (Formerly Circle Tractor), 13639 W 159th St, Homer Glen, IL 60491, USA
Destination
Open in Google Maps
ATV Dealer
41.557324506025, -87.928742225499
Starting Point
Shorewood Home & Auto (Formerly Circle Tractor), 13639 W 159th St, Homer Glen, IL 60491, USA
Destination
Open in Google Maps
ATV Dealer
41.558509620271, -87.95950362543
Starting Point
Shorewood Home & Auto (Formerly Circle Tractor), 13639 W 159th St, Homer Glen, IL 60491, USA
Destination
Open in Google Maps
atv stores in illinois
41.631170758126, -87.9510205
Starting Point
Shorewood Home & Auto (Formerly Circle Tractor), 13639 W 159th St, Homer Glen, IL 60491, USA
Destination
Open in Google Maps
judson outdoor power & atv
41.57515764718, -88.032512736562
Starting Point
Shorewood Home & Auto (Formerly Circle Tractor), 13639 W 159th St, Homer Glen, IL 60491, USA
Destination
Open in Google Maps
atv push mower
41.619926653045, -87.892455610928
Starting Point
Shorewood Home & Auto (Formerly Circle Tractor), 13639 W 159th St, Homer Glen, IL 60491, USA
Destination
Open in Google Maps
atv illinois for sale
41.661417333599, -87.915319377447
Starting Point
Shorewood Home & Auto (Formerly Circle Tractor), 13639 W 159th St, Homer Glen, IL 60491, USA
Destination
Open in Google Maps
atv push mower
41.576559514074, -88.017102969337
Starting Point
Shorewood Home & Auto (Formerly Circle Tractor), 13639 W 159th St, Homer Glen, IL 60491, USA
Destination
Open in Google Maps
used atv mowers for sale
41.606342917118, -87.909382977642
Starting Point
Shorewood Home & Auto (Formerly Circle Tractor), 13639 W 159th St, Homer Glen, IL 60491, USA
Destination
Open in Google Maps
auto atv
41.58938458501, -87.942080491627
Starting Point
Shorewood Home & Auto (Formerly Circle Tractor), 13639 W 159th St, Homer Glen, IL 60491, USA
Destination
Open in Google Maps
Google Maps Location
https://www.google.com/maps/place/Shorewood+Home+%26+Auto+%28Formerly+Circle+Tractor%29/@41.657032854171,-87.99990961812,25.2z/data=!4m6!3m5!1s0x880e41f2e579f223:0xe5c5c23b2b8dc77a!8m2!3d41.598588!4d-87.9510205!16s%2F
Click below to open this location on Google Maps
Google Maps Location
https://www.google.com/maps/place/Shorewood+Home+%26+Auto+%28Formerly+Circle+Tractor%29/@41.536322723189,-87.9510205,25.2z/data=!4m6!3m5!1s0x880e41f2e579f223:0xe5c5c23b2b8dc77a!8m2!3d41.598588!4d-87.9510205!16s%2F
Click below to open this location on Google Maps
Google Maps Location
https://www.google.com/maps/place/Shorewood+Home+%26+Auto+%28Formerly+Circle+Tractor%29/@41.549407525434,-87.887582235395,25.2z/data=!4m6!3m5!1s0x880e41f2e579f223:0xe5c5c23b2b8dc77a!8m2!3d41.598588!4d-87.9510205!16s%2F
Click below to open this location on Google Maps
Google Maps Location
https://www.google.com/maps/place/Shorewood+Home+%26+Auto+%28Formerly+Circle+Tractor%29/@41.544615869136,-87.989359069024,25.2z/data=!4m6!3m5!1s0x880e41f2e579f223:0xe5c5c23b2b8dc77a!8m2!3d41.598588!4d-87.9510205!16s%2F
Click below to open this location on Google Maps
Google Maps Location
https://www.google.com/maps/place/Shorewood+Home+%26+Auto+%28Formerly+Circle+Tractor%29/@41.664600222373,-87.96819704524,25.2z/data=!4m6!3m5!1s0x880e41f2e579f223:0xe5c5c23b2b8dc77a!8m2!3d41.598588!4d-87.9510205!16s%2F
Click below to open this location on Google Maps
Google Maps Location
https://www.google.com/maps/place/Shorewood+Home+%26+Auto+%28Formerly+Circle+Tractor%29/@41.64194464615,-87.907293353371,25.2z/data=!4m6!3m5!1s0x880e41f2e579f223:0xe5c5c23b2b8dc77a!8m2!3d41.598588!4d-87.9510205!16s%2F
Click below to open this location on Google Maps
Google Maps Location
https://www.google.com/maps/place/Shorewood+Home+%26+Auto+%28Formerly+Circle+Tractor%29/@41.594981004924,-88.005949138067,25.2z/data=!4m6!3m5!1s0x880e41f2e579f223:0xe5c5c23b2b8dc77a!8m2!3d41.598588!4d-87.9510205!16s%2F
Click below to open this location on Google Maps
Google Maps Location
https://www.google.com/maps/place/Shorewood+Home+%26+Auto+%28Formerly+Circle+Tractor%29/@41.64439239883,-87.927490499581,25.2z/data=!4m6!3m5!1s0x880e41f2e579f223:0xe5c5c23b2b8dc77a!8m2!3d41.598588!4d-87.9510205!16s%2F
Click below to open this location on Google Maps
Google Maps Location
https://www.google.com/maps/place/Shorewood+Home+%26+Auto+%28Formerly+Circle+Tractor%29/@41.61894596793,-87.9730747233,25.2z/data=!4m6!3m5!1s0x880e41f2e579f223:0xe5c5c23b2b8dc77a!8m2!3d41.598588!4d-87.9510205!16s%2F
Click below to open this location on Google Maps
Google Maps Location
https://www.google.com/maps/place/Shorewood+Home+%26+Auto+%28Formerly+Circle+Tractor%29/@41.587947272311,-88.024051861695,25.2z/data=!4m6!3m5!1s0x880e41f2e579f223:0xe5c5c23b2b8dc77a!8m2!3d41.598588!4d-87.9510205!16s%2F
Click below to open this location on Google Maps
Google Maps Location
https://www.google.com/maps/dir/?api=1&origin=41.6017944719,-88.000192733008&destination=Shorewood+Home+%26+Auto+%28Formerly+Circle+Tractor%29%2C+13639+W+159th+St%2C+Homer+Glen%2C+IL+60491%2C+USA&destination_place_id=ChIJI_J55fJBDogReseNKzvCxeU&travelmode=driving&query=used+atv+mowers+for+sale
Click below to open this location on Google Maps
Google Maps Location
https://www.google.com/maps/dir/?api=1&origin=41.557324506025,-87.928742225499&destination=Shorewood+Home+%26+Auto+%28Formerly+Circle+Tractor%29%2C+13639+W+159th+St%2C+Homer+Glen%2C+IL+60491%2C+USA&destination_place_id=ChIJI_J55fJBDogReseNKzvCxeU&travelmode=driving&query=ATV+Dealer
Click below to open this location on Google Maps
Google Maps Location
https://www.google.com/maps/dir/?api=1&origin=41.608363577474,-87.913026040309&destination=Shorewood+Home+%26+Auto+%28Formerly+Circle+Tractor%29%2C+13639+W+159th+St%2C+Homer+Glen%2C+IL+60491%2C+USA&destination_place_id=ChIJI_J55fJBDogReseNKzvCxeU&travelmode=driving&query=ATV+Repair
Click below to open this location on Google Maps
Google Maps Location
https://www.google.com/maps/dir/?api=1&origin=41.608455488079,-88.008265754223&destination=Shorewood+Home+%26+Auto+%28Formerly+Circle+Tractor%29%2C+13639+W+159th+St%2C+Homer+Glen%2C+IL+60491%2C+USA&destination_place_id=ChIJI_J55fJBDogReseNKzvCxeU&travelmode=driving&query=ATV+Dealer
Click below to open this location on Google Maps
Google Maps Location
https://www.google.com/maps/dir/?api=1&origin=41.620612367198,-87.990129262512&destination=Shorewood+Home+%26+Auto+%28Formerly+Circle+Tractor%29%2C+13639+W+159th+St%2C+Homer+Glen%2C+IL+60491%2C+USA&destination_place_id=ChIJI_J55fJBDogReseNKzvCxeU&travelmode=driving&query=gravely+tractors+%26+polaris+atv
Click below to open this location on Google Maps
Google Maps Location
https://www.google.com/maps/dir/?api=1&origin=41.581323565378,-87.961782730256&destination=Shorewood+Home+%26+Auto+%28Formerly+Circle+Tractor%29%2C+13639+W+159th+St%2C+Homer+Glen%2C+IL+60491%2C+USA&destination_place_id=ChIJI_J55fJBDogReseNKzvCxeU&travelmode=driving&query=polaris+atv+ultimate+series-+ready+pack
Click below to open this location on Google Maps
Google Maps Location
https://www.google.com/maps/dir/?api=1&origin=41.558509620271,-87.95950362543&destination=Shorewood+Home+%26+Auto+%28Formerly+Circle+Tractor%29%2C+13639+W+159th+St%2C+Homer+Glen%2C+IL+60491%2C+USA&destination_place_id=ChIJI_J55fJBDogReseNKzvCxeU&travelmode=driving&query=ATV+Dealer
Click below to open this location on Google Maps
Google Maps Location
https://www.google.com/maps/dir/?api=1&origin=41.529982967362,-87.97217743365&destination=Shorewood+Home+%26+Auto+%28Formerly+Circle+Tractor%29%2C+13639+W+159th+St%2C+Homer+Glen%2C+IL+60491%2C+USA&destination_place_id=ChIJI_J55fJBDogReseNKzvCxeU&travelmode=driving&query=honda+atv+dealers+in+illinois
Click below to open this location on Google Maps
Google Maps Location
https://www.google.com/maps/dir/?api=1&origin=41.588311116463,-87.958021423633&destination=Shorewood+Home+%26+Auto+%28Formerly+Circle+Tractor%29%2C+13639+W+159th+St%2C+Homer+Glen%2C+IL+60491%2C+USA&destination_place_id=ChIJI_J55fJBDogReseNKzvCxeU&travelmode=driving&query=ATV+Repair
Click below to open this location on Google Maps
Google Maps Location
https://www.google.com/maps/dir/?api=1&origin=41.543312099985,-87.94325823519&destination=Shorewood+Home+%26+Auto+%28Formerly+Circle+Tractor%29%2C+13639+W+159th+St%2C+Homer+Glen%2C+IL+60491%2C+USA&destination_place_id=ChIJI_J55fJBDogReseNKzvCxeU&travelmode=driving&query=judson+outdoor+power+%26+atv
Click below to open this location on Google Maps