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2si 215
2si 215
2si 215
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2si 215
TypeTwo-stroke aircraft engine
National originUnited States
Manufacturer2si

The 2si 215 is a family of single-cylinder, fan-cooled, two-stroke, single ignition, aircraft engines that were designed for ultralight aircraft.[1]

The basic engine was originally designed and produced by JLO-Motorenwerke of Germany and was later acquired by the AMW Cuyuna Engine Company of Beaufort, South Carolina and marketed under the Cuyuna brand name. Later the engine was marketed by Cuyuna under the Two Stroke International (2si) brand. Cuyuna no longer markets engines for aircraft use although the 215 is still in production as an industrial and multi-fuel engine.[2][3][4][5]

Development

[edit]

The 215 is a conventional single-cylinder engine that weighs 39 lb (18 kg) in its 215R aircraft version. The engine features single breaker and points ignition, with single capacitor discharge ignition used on the current models. It also incorporates piston porting, tuned exhaust system, single carburetor, fan cooling, fuel pump, a cast iron cylinder liner, ball, needle and roller bearings throughout. The 215R aircraft version was offered with an optional belt reduction system and the modern industrial versions have an optional gearbox with ratios of 2.04, 2.65 and 3.06. Starting is a recoil starter with a custom electric starter available as an option.[1][4][5]

Variants

[edit]
215D
Gasoline aircraft engine with direct drive. Single carburetor, 20 hp (15 kW) at 6000 rpm, weight 42 lb (19 kg), out of production.[1]
215F
Gasoline industrial engine. Single carburetor, 20 hp (15 kW) at 6000 rpm, still in production.[4]
215MF
Multi-fuel industrial engine. Single carburetor, 7 to 12 hp (5 to 9 kW) at 6500 rpm, weight 53 lb (24 kg), still in production.[5]
215R
Gasoline aircraft engine with belt reduction drive. single carburetor, 20 hp (15 kW) at 6000 rpm, weight 39 lb (18 kg), out of production.[1]

Applications

[edit]

Specifications (215D aircraft engine)

[edit]

Data from Cuyuna[1] & 2si[4]

General characteristics

  • Type: Single-cylinder, two-stroke aircraft engine
  • Bore: 2.658 in (67.5 mm)
  • Stroke: 2.362 in (60.0 mm)
  • Displacement: 214 cc (13.06 cu in)
  • Length: 11.75 in (298.4 mm)
  • Width: 7.0 in (177.8 mm)
  • Height: 14.0 in (355.6 mm)
  • Dry weight: 42 lb (19 kg)

Components

Performance

See also

[edit]

References

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

2si 215

View on Grokipedia
from Grokipedia
The 2si 215 is a family of single-cylinder, two-stroke, air-cooled engines developed by Cuyuna Engine Company, primarily for powering ultralight aircraft (ULMs) with a displacement of 214 cc and output of 20 horsepower.

Development and History

Originating from the earlier Rockwell JLO engine designs produced in Germany, the Cuyuna 2si series, including the 215 model, was adapted for American markets starting in the 1970s, initially finding use in snowmobiles before transitioning to aviation. These engines powered the first generation of ultralight vehicles, such as the Quicksilver and Pterodactyl, contributing to the popularity of recreational flying in the late 1970s and 1980s. The 2si 215's modular architecture allowed shared components like a single cooling fan across cylinder configurations, enhancing reliability and ease of maintenance in remote operations.

Key Specifications

The engine employs air cooling via a dedicated fan, with each cylinder equipped with independent ignition systems including points, coils, and capacitors for robust performance. It supports operation in both upright and inverted orientations and uses a manual pull-starter, making it suitable for lightweight, portable aircraft setups. Bore and stroke dimensions are optimized for the 214 cc capacity, delivering efficient power in a compact form factor weighing approximately 39–42 pounds depending on configuration.

Variants

Common variants include the 215D, optimized for direct propeller drive in aircraft applications, and the 215R, featuring a belt reduction system for higher propeller efficiency at lower engine speeds. Lower-power versions, such as those rated at 8 horsepower for generator or military use, share the core design but operate at reduced RPMs around 4,250 with a 6.5:1 compression ratio and 40:1 fuel-oil mix. The 2si 215 belongs to a broader Cuyuna lineup of scalable two-stroke engines, ranging from single-cylinder models like the 340 cc 2si-340 to multi-cylinder options such as the twin-cylinder 430 series.

History

Origins in Germany

The 2SI 215 was originally designed and produced by JLO-Motorenwerke, a brand associated with the German company ILO-Motorenwerke GmbH, founded in 1911 in Pinneberg near Hamburg to manufacture two-stroke engines for diverse applications including railway maintenance tools and later motorcycles. By the 1920s, ILO had shifted focus to engine production, developing reliable single-cylinder two-stroke designs that powered light motorcycles from 1923 to 1925, establishing a foundation for subsequent innovations in small powerplants. These early efforts emphasized compact, lightweight construction suitable for portable and vehicle-mounted uses, with production scaling significantly by the 1950s when ILO became West Germany's largest two-stroke engine maker, outputting over 184,000 units annually. During the 1960s and 1970s, JLO operated under Rockwell International ownership, influencing the engine designs. The 2SI 215 emerged in the pre-1970s period as a single-cylinder, two-stroke engine tailored for small aircraft and industrial applications, building directly on JLO's prior motorcycle and small engine heritage. Technical inspirations included piston porting mechanisms—common in JLO's 1930s–1950s motorcycle models like the MG 125 and 175cc units—for efficient intake and scavenging without complex valving, alongside basic fan cooling systems adapted from industrial tools such as motorized sprayers and cultivators to ensure reliable operation in varied environments. Initial production targeted European markets, particularly for emerging ultralight and recreational vehicles, as well as agricultural and utility equipment like motor hoes and water pumps, reflecting JLO's established export network across Germany, the Netherlands, Belgium, and Scandinavia. This foundational German engineering emphasized simplicity and power-to-weight ratio, positioning the 2SI 215 as a versatile option before its designs were later transferred to American production.

Acquisition by Cuyuna and Rebranding

In the late 1970s, the Scorpion Snowmobile Company, parent of the Cuyuna Engine division, acquired Rockwell International's JLO engine manufacturing operation from Germany, including the designs for what would become the 215 series, and relocated production to the United States. This acquisition integrated the JLO two-stroke engine line into Cuyuna's portfolio, with manufacturing established at the AMW Cuyuna Engine Company facility in Beaufort, South Carolina, in 1995 following the merger of Cuyuna with AMW. The engines were initially marketed under the Cuyuna brand, targeting applications in snowmobiles, ultralight aircraft, and other small vehicles, leveraging the original German design principles for lightweight, high-power two-stroke performance. By the mid-1990s, amid evolving business priorities, AMW Cuyuna restructured its operations and rebranded the company as Two Stroke International, commonly abbreviated as 2SI, to handle production and marketing of the engine line. This rebranding, announced in 1996, aimed to streamline focus on two-stroke technologies while phasing out the older Cuyuna moniker for aviation and recreational markets. Under the 2SI banner, the 215 and related models continued to be produced and sold, emphasizing reliability for diverse uses. In the early 2000s, 2SI ceased marketing and distribution of its engines specifically for aircraft applications, recalling dealer inventories and limiting support to existing units. This shift redirected efforts toward industrial, marine, karting, and all-terrain vehicle sectors, where the engines remained in production for their durable, compact design. As of the mid-2010s, new old stock and parts were still available through specialized suppliers, indicating ongoing viability in non-aviation roles.

Design and Development

Core Engine Architecture

The 2SI 215 is a single-cylinder, two-stroke engine with a displacement of 214 cc, featuring a bore of 67.5 mm and a stroke of 60 mm. This configuration provides a compact design suitable for lightweight applications, where the two-stroke cycle enables a power stroke in every revolution, enhancing power density relative to displacement. The engine employs a piston porting system for both intake and exhaust, in which ports in the cylinder wall are uncovered by the piston's movement to control gas flow. This simple valving mechanism, combined with a tuned exhaust system, optimizes scavenging efficiency by creating pressure waves that assist in expelling exhaust gases and drawing in fresh charge, thereby improving overall volumetric efficiency without additional valves or cams. Key structural elements include a cast iron cylinder liner for durability and wear resistance, along with ball, needle, and roller bearings to support the crankshaft and connecting rod, minimizing friction and ensuring reliable operation under high-speed conditions. Fuel delivery requires premixed oil and gasoline at a 50:1 ratio, which lubricates internal components during operation, as the two-stroke design lacks a separate oil sump.

Key Innovations and Options

The 2SI 215 engine employs a fan-cooled system tailored for ultralight aircraft, where the fan is belt-driven and integrated on the power takeoff (PTO) side via a dedicated fan housing, stator plate, upper fan belt assembly, and impeller bearing to direct airflow over the cylinder for efficient cooling during high-RPM operation. This design enhances reliability in open-air environments by maintaining optimal temperatures without liquid cooling components. The ignition system progressed from a conventional single breaker/points setup in initial models, which required periodic timing adjustments, to a capacitor discharge ignition (CDI) in subsequent versions, offering breakerless operation for simpler maintenance, improved spark consistency, and easier starting. This evolution addressed common issues with point wear in two-stroke engines, contributing to the model's longevity in aviation use. Optional components expand the 2SI 215's versatility, including a recoil starter for manual cranking and an electric starter with battery integration for powered initiation. Reduction drive options feature belt-driven systems for propeller applications in aircraft variants like the 215R, while industrial variants include selectable gearboxes with ratios like 2.04:1, 2.65:1, and 3.06:1 to match varied load requirements.

Variants

Aircraft-Specific Models

The aircraft-specific models of the 2SI 215 series were developed for integration into ultralight and experimental aircraft, emphasizing lightweight construction and reliable performance in aviation applications. These variants share a common single-cylinder, two-stroke core architecture but differ primarily in their propulsion drive systems to accommodate varying propeller speeds and mounting configurations typical of ultralight designs. The 215D is a direct-drive gasoline variant equipped with a single carburetor, producing 20 hp (15 kW) at 6000 rpm and weighing 42 lb (19 kg). This model was suited for direct propeller attachment without reduction gearing, simplifying installation in compact airframes. Production of the 215D ceased in the early 2000s following the manufacturer's decision to discontinue aircraft engine distribution. The 215R features a belt-reduction drive system, also running on gasoline with a single carburetor, delivering 20 hp (15 kW) at 6000 rpm but at a lighter weight of 39 lb (18 kg) due to the integrated optional reduction mechanism, such as a 3.65:1 ratio for propeller speed matching. Like the 215D, it has been out of production since the early 2000s. These models' distinctions in drive configurations and resultant weights facilitated their use in diverse ultralight setups, such as pusher or tractor configurations, while maintaining compatibility with the shared core design for ease of maintenance.

Industrial and Multi-Fuel Models

The industrial and multi-fuel models of the 2si 215 engine represent adaptations of the original aircraft design for durable, non-aviation applications, emphasizing reliability in rugged environments. These variants incorporate optional gearboxes with reduction ratios such as 2.04:1, 2.65:1, and 3.06:1 to suit industrial power transmission needs, and feature increased weights compared to aviation versions for enhanced robustness. The 215F is a gasoline-fueled industrial model equipped with a single carburetor, delivering 20 hp (15 kW) at 6000 rpm; it was developed for applications like military decontamination devices and was produced until around 2014. The 215MF variant supports multi-fuel operation on gasoline or diesel, with a carburetor tuned for compatibility across fuel types; it produces 7-12 hp at 6500 rpm and weighs 53 lb (24 kg), and was manufactured until around 2014 for industrial uses such as generators and pumps. Production of all 2si 215 variants ended around 2014 when 2 Stroke International ceased operations; new old stock may still be available.

Applications

Use in Ultralight Aircraft

The 2SI 215 engine, originally developed under the Cuyuna brand, saw its primary application in ultralight aircraft from the late 1970s through the 1990s, where its compact, fan-cooled design and 20 horsepower output made it ideal for powering experimental and homebuilt designs compliant with early ultralight regulations. Its lightweight construction, typically around 39 pounds in aircraft configurations like the 215R variant, allowed builders to achieve low empty weights while meeting performance needs for short takeoff and landing in recreational flying. Notable integrations included the Eipper-Formance Quicksilver series, which employed the Cuyuna 215 for its weight-shift control system, enabling cruise speeds of 30-43 knots and endurance of about 2 hours on 3 gallons of fuel. Similarly, the Airmass Sunburst utilized the 215R model to power its high-wing configuration, achieving climb rates of 165 feet per minute and glide ratios of 20-22:1, popular among early ultralight enthusiasts for its car-top transportability. Other examples encompassed the Rotec Engineering Rally 2, where the engine's single-cylinder two-stroke architecture supported gross weights under 450 pounds in 3-axis or hybrid control setups. The engine's role extended to custom homebuilts, such as the Turner T-100D Mariah prototype, which featured the 20 hp Cuyuna 215 in a pusher arrangement for wood-framed ultralight gliding. In designs like the Birdman Atlas 215 XC, it provided foot-launchable power for single-place operations, emphasizing the 2SI 215's versatility in weight-shift-controlled microlights. Following Cuyuna's acquisition and rebranding to 2SI, production emphasis shifted toward industrial applications in the 2000s, leading to a decline in availability for new aviation builds; however, legacy installations continue to operate in maintained vintage ultralights as of 2023.

Industrial and Other Applications

The 2SI 215 engine series has been employed in industrial applications since the 1980s, particularly in powering generators, water pumps, and small machinery, owing to the reliability of variants like the 215F. These engines provide consistent performance in off-grid scenarios, with models featuring integrated generators delivering 32 VAC at 4.7 amps to support electrical needs in remote operations. Fuel-flexible variants extend utility to diverse environments, including remote power systems and military surplus equipment, where adaptability enhances operational resilience. For example, engines sourced from unused military gear demonstrate adaptability for rugged, portable industrial tasks via included centrifugal clutches and pulleys. In agricultural and construction contexts, the 215 powers compact water pumps, such as 2-inch models rated at 8 HP, facilitating irrigation and dewatering tasks with low fuel consumption of approximately 0.7 gallons per hour. Production of industrial configurations continues as of 2023, serving global markets through specialized suppliers adapting the engine for efficiency in small-scale machinery.

Specifications (215D Aircraft Engine)

General Characteristics

The 2SI 215D is a single-cylinder, two-stroke, fan-cooled aircraft engine designed for ultralight and light-sport applications. Its physical dimensions measure 11.75 inches (298.4 mm) in length, 7.0 inches (177.8 mm) in width, and 14.0 inches (355.6 mm) in height, making it compact for integration into small airframes. The engine has a dry weight of 42 pounds (19 kg) and a displacement of 214 cubic centimeters (13.06 cubic inches). Bore: 2.658 inches (67.5 mm); stroke: 2.362 inches (60.0 mm). It utilizes piston porting as its valvetrain mechanism.

Components

The 2si 215D engine employs a two-stroke design with piston porting as its valvetrain mechanism, which controls the intake and exhaust processes through ports in the piston and cylinder walls. It operates on regular automotive gasoline as the fuel type, with lubrication provided by a premixed oil and fuel system at a ratio of 50:1. Cooling is achieved via a fan-cooled system, directing airflow over the cylinder for heat dissipation. The 215D uses direct drive for the propeller. The engine features a single-unit carburetor for fuel-air mixture delivery. Ignition systems vary by model version, with early units using breaker/points and later models incorporating capacitor discharge ignition (CDI) for reliable spark generation.

Performance

The 2SI 215D engine produces a maximum power output of 20 hp (15 kW) at 6,000 rpm, with a compression ratio of 12.5:1 that enhances thermal efficiency for its displacement. In ultralight aircraft applications, the engine achieves optimal performance within an RPM range of 5,500 to 6,000, balancing thrust requirements for cruise and climb while minimizing wear on the piston-ported design. As a two-stroke engine, the 215D exhibits limitations including elevated emissions of hydrocarbons, carbon monoxide, and particulate matter due to incomplete combustion of the oil-fuel mixture and scavenging losses, with up to 25-30% of fuel potentially emitted unburned. Maintenance needs unique to this high-compression model involve regular inspection and cleaning of exhaust ports to mitigate carbon deposits, along with piston and cylinder checks for scoring from the elevated 12.5:1 ratio.

References

  1. https://aeroenginesaz.com/en/brand_cuyuna
  2. https://www.rotaryforum.com/threads/2si-215-engines-for-sale-new-old-stock.42039/
  3. https://heritageequipment.com/product-detail/520/10673/
  4. https://cybermotorcycle.com/marques/jlo/
  5. https://energic.info/energic-tracteurs-motoculteurs-motobineuses-et-motofauchauses-1940-1986/energic-motoculteur-engine-manufacturers/motoculteur-and-other-machine-engines/ilo-enginesmoteurs
  6. https://www.aeroenginesaz.com/en/brand_jlo
  7. http://www.trailasled.com/transcripts-197803
  8. http://www.krnet.org/kronline/nov1996/
  9. https://www.rotaryforum.com/threads/2si-a-c-engines-no-more.261/
  10. https://scorpionsleds.proboards.com/thread/1173/parts-supplier-cayuna-engines-enterprises
  11. https://www.manualslib.com/manual/1037088/Cuyuna-215.html
  12. https://manualzz.com/doc/6318985/cuyuna-215-r-d--430-r-d--uli-02--hi-performance-430-engin...
  13. https://www.ebay.com/itm/115652210154
  14. https://www.scribd.com/document/478377414/SPinfo-1-pdf
  15. http://www.ultralightnews.com/UltralightBuyersGuide1/robertson-b1-rd-b1rd-single-place-ultralight-aircraft.html
  16. https://oldminibikes.com/forum/index.php?threads/pulled-this-old-engine-out-of-my-shed-today.97234/
  17. https://web.archive.org/web/20100117061841/http://www.2si.com/215_MF_Diesel_spec.htm
  18. https://www.aeroresourcesinc.com/uploads/198205-1982%20Ultralights,Ultralight%20Directory.pdf
  19. https://www.adamsaero.com/Turner_T-100D_Mariah.html
  20. https://heritageequipment.com/product-detail/520/10672/
  21. https://studiovandenakker.com/7-5HP-Petrol-Engine-Water-Pump-Online-Shop-935533
  22. https://pmc.ncbi.nlm.nih.gov/articles/PMC1247506/
  23. https://dbw.parks.ca.gov/TwoStroke
  24. https://nepis.epa.gov/Exe/ZyPURL.cgi?Dockey=P100GDP7.TXT
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