Motor RC EN-P80 80kgf - Turbina a reacción de alta potencia para vehículos aéreos no tripulados, drones y aeromodelos | Proveedor profesional de motores RC

1. Introduction: A New Benchmark in 80kgf-Class RC Turbine Power

En EN-P80 80kgf RC Turbine Jet Engine, developed and manufactured by Energy RcJetEngine, represents a new generation of high-performance propulsion systems for UAVs, industrial drones, and advanced model jet aircraft. With a maximum thrust output of ≥80 daN, a highly stable mass flow of 1.55 kg/s, and advanced thermal management supporting continuous operation at 800°C EGT, the EN-P80 is engineered for pilots and aerospace developers who demand reliability, precision, and extreme power density.

In the growing global market of high-thrust turbine engines—especially across sectors such as commercial UAVs, long-range drones, high-speed experimental aircraft, and large-scale RC jets—the demand for engines with exceptional performance, durability, and OEM customizability has never been higher. The EN-P80 answers that demand.

Energy RcJetEngine combines strict aerospace-grade manufacturing standards, precision CNC machining, multi-stage balancing processes, and proprietary ECU technology to deliver one of the most dependable 80kgf RC jet engines in today’s industry.

2. Key Performance Highlights

2.1 80kgf Maximum Thrust with High Efficiency

The EN-P80 provides ≥80 daN (≈80 kgf) of maximum thrust at full RPM, giving UAV designers and heavy-lift drone manufacturers the ability to support larger payloads, higher speeds, and more complex mission profiles.

Its impressive specific fuel consumption of approx. 1.47 kg/h/daN ensures excellent range and endurance in both fixed-wing and VTOL hybrid UAV platforms.

2.2 Durable High-Temperature Operation

With a maximum exhaust gas temperature of 800°C, the engine is manufactured using high-strength, heat-resistant materials designed for long-term stability. Advanced cooling channels and precision-engineered turbine blades ensure optimal operation even during repeated full-throttle cycles.

2.3 Wide Environmental Adaptability

The EN-P80 is engineered to function reliably in diverse climates and altitudes.
Key environmental performance includes:

• Operating Temperature Range: –40°C to +60°C

• Maximum Operating Altitude: 10 km

• Maximum Starting Altitude: 4 km

• Maximum Operating Speed: 0.9 Mach

These parameters make the EN-P80 a strong choice for UAV missions in complex environments—from high-altitude reconnaissance to low-temperature operations.

2.4 Precision Balance & Ultra-Stable Operation

Every EN-P80 engine undergoes:

• multi-axis dynamic balancing

• vibration calibration

• high-RPM tolerance testing

• thermodynamic airflow profiling

This results in a turbine system that operates with minimal vibration, offering a stable platform for sensitive electronic payloads such as LiDAR, EO/IR cameras, and surveillance equipment.

3. Advanced Engineering & Construction

3.1 Aerospace-Grade Manufacturing

Energy RcJetEngine employs aerospace-grade materials and machining processes to ensure dimensional precision and structural stability. Key components such as turbine wheels, combustion chambers, and compressor stages are produced using:

• high-temperature alloys

• CNC 5-axis machining

• multi-stage surface polishing

• precision-bearing integration

• quality-controlled assembly lines

The result is a turbine engine with superior lifespan and consistent performance.

3.2 Intelligent ECU System

The EN-P80 comes equipped with a full-function digital ECU that offers:

• smooth auto-start and auto-shutdown

• real-time RPM, EGT, fuel flow, voltage, and telemetry

• configurable throttle response

• safety cut-off protections

• automatic restart (optional)

• advanced data logging

This intelligent control system enhances user safety, simplifies operation, and increases mission success rates in UAV applications.

3.3 Compact Dimensions with High Power Density

Despite offering 80kgf of thrust, the engine maintains a compact design:

• Diameter: 202 mm

• Length: 524 mm

• Weight: 10,5 kg

This excellent power-to-weight ratio allows smooth integration into UAV fuselage systems and jet model airframes without excessive structural reinforcement.

Read More：Inside RC Turbine Jet Engines: How Miniature Jet Power Works

4. Technical Specifications (Summary)

Parameter	EN-P80 / GXP80
Modelo	EN-P80 / GXP80
Max Thrust (Nominal)	80 daN ≈ 80 kgf
Specific Fuel Consumption (SFC)	≈ 1.47 kg/h/daN
Airflow Rate	1,55 kg/s
RPM máx.	62.000 rpm
Max Exhaust Gas Temp (EGT)	800 °C
Dimensions (Ø × L)	202 mm × 524 mm
Max Operating Altitude	≤ 10 km
Max Flight Speed	0.9 Mach
Max Start Altitude	≤ 4 km
Operating Temperature Range	−40 °C ~ +60 °C
Dry Weight	10,5 kg
Communication Protocols	RS232 / RS422
Tipo de combustible	Jet A-1 / Queroseno
Primary Use	Civil RC aviation, UAV research, large-scale model jets, academic study, exhibitions

5. Applications of the EN-P80 Turbine Engine

The EN-P80 is designed for serious, high-demand applications across both commercial and recreational sectors.

5.1 Industrial UAVs

Perfect for:

• long-range surveillance drones

• heavy-lift logistics UAVs

• mapping and geographic survey aircraft

• high-speed research UAVs

• medium-altitude reconnaissance platforms

Its thrust output and stability make it ideal for fixed-wing UAVs that require long endurance and reliable power.

5.2 Large RC Jet Aircraft

The EN-P80 supports large model jets such as:

• 1/4 to 1/5 scale jet fighters

• large aerobatic jets

• twin-engine scale aircraft (paired)

• high-speed experimental RC jets

Model jet pilots will appreciate its throttle responsiveness and strong acceleration.

5.3 Hybrid VTOL Systems

The EN-P80 can serve as:

• a main forward thrust engine

• part of a hybrid turbine-electric drone system

• auxiliary propulsion for heavy payload systems

VTOL integrators often choose the EN-P80 because of its high energy density and reliable ECU telemetry.

5.4 Experimental Research Platforms

Universities, aerospace labs, and private developers use the EN-P80 for:

• propulsion research

• aerodynamic testing

• unmanned flight development

• experimental remote-sensing programs

Its stable performance and data-rich ECU make it ideal for scientific applications.

6. Why Choose the EN-P80 from Energy RcJetEngine?

6.1 Proven Global OEM Manufacturer

Energy RcJetEngine is a professional OEM/ODM supplier serving clients worldwide. We support:

• custom branding

• private labeling

• engine integration services

• ECU custom firmware

• special-purpose configuration

• fuel system customization

This flexibility makes the EN-P80 ideal for companies needing specialized propulsion systems.

6.2 Factory Direct Pricing & Reliable Supply Chain

As a direct manufacturer, we ensure:

• competitive factory pricing

• fast production cycles

• stable inventory

• long-term supply availability

Perfect for distributors, UAV manufacturers, and engineering companies.

6.3 Strict Quality Control

Each EN-P80 engine undergoes:

• high-temperature endurance tests

• full-throttle stress tests

• vibration resistance tests

• performance certification

• multi-hours continuous operating trials

Customers receive a fully tested and ready-to-run turbine engine—not a prototype.

6.4 Global After-Sales Support

Energy RcJetEngine provides:

• international technical assistance

• spare parts supply

• maintenance guides

• online diagnostics

• firmware updates

• fast repair turnaround

Buyers benefit from long-term system stability and reliable service.

7. Competitive Advantages Over Other 80kgf-Class Engines

Compared with typical competing engines in the 70–90kgf RC turbine category, the EN-P80 offers:

✔ Better fuel efficiency

Lower SFC at max RPM → greater endurance.

✔ Stronger thrust stability

Maintains output even in high-altitude environments.

✔ More robust ECU with richer telemetry

Ideal for UAV developers needing advanced data.

✔ Higher durability and longer overhaul intervals

Aerospace-grade materials ensure extended lifespan.

✔ Enhanced environmental adaptability

Reliable even in low-temperature or high-wind conditions.

8. Who Should Purchase the EN-P80?

This engine is ideal for:

• UAV manufacturers

• drone solution providers

• aerospace research institutions

• RC jets enthusiasts

• jet model builders

• industrial drone project teams

• resellers seeking high-quality OEM products

9. Ordering, Customization, and OEM Options

Energy RcJetEngine offers full customization options:

Customization Options

• engine color & casing branding

• custom thrust curves

• ECU language & firmware

• special connectors or wiring

• different fuel system configurations

• documentation in multiple languages

MOQ & Wholesale

Apoyamos:

• small batch orders

• large-scale procurement

• distributor partnerships

10. Conclusion: The Ultimate 80kgf RC Jet Turbine for UAV and Model Jet Professionals

The EN-P80 80kgf RC Turbine Jet Engine by Energy RcJetEngine is engineered for developers, pilots, and aerospace professionals who demand uncompromising performance, superior fuel efficiency, and maximum reliability.

Whether you are building a heavy-lift UAV, a long-range drone, or a top-tier RC model jet, the EN-P80 delivers the power, precision, and engineering quality required for success. In addition to the EN-P80, we also offer a wide range of other turbine engine models to suit various needs, including the EN-P40 (40kg thrust), EN-P50 (50kg thrust), EN-P60 (60kg thrust), EN-P120 (120kg thrust), and EN-P150 (150kg thrust). Each model is designed with the same commitment to quality and reliability, providing you with versatile options for different aircraft applications.