Fuel-Based Training UAV
NAYANAVAT OS 0.46 / 0.56 - FUEL-BASED UAV
Advanced Balsa wood based fuel-driven unmanned aerial vehicle designed for military training applications, offering safer and more cost-effective target practice with realistic flight characteristics.
Photo and Video Demonstrations
Detailed views and operational imagery
Nayanavat view
Operational Flight Test
Watch the Nayanavat demonstration
Key Features
Advanced capabilities for professional applications
15-Minute Flight Time
Optimized flight duration with 2kg payload capacity for various training applications
Fuel-Based Power
OS 0.46 / 0.56 gasoline engine providing reliable performance for training scenarios
Military Training
Frequently used for target practice in military training, offering safer alternatives to manned targets
Technical Specifications
Detailed specifications and requirements
General Specifications
Wingspan Length
1200 mm (63 inches) 1000 mm (25 inches)
Height Flying Weight
350 mm (14 inches) ~3 kg
Construction
Balsa wood and plywood
Power
OS 0.46 / 0.56 gasoline engine
Assembly
Typically provided as an ARF (Almost Ready to Fly) kit
Performance Specifications
Maximum Service Ceiling
3000m
Maximum Height Reached
Depends on eyesight
Maximum Flight Time
15 minutes
Maximum Payload
2 Kg
Engine Type
OS 0.46 / 0.56 gasoline engine
Material
Balsa wood and plywood construction
Additional Key Components & Applications
Military Training Applications
This drone is frequently used for target practice in military training, offering a safer and more cost-effective alternative to manned targets. These drones, often referred to as target drones, are designed to mimic the flight characteristics and radar signatures of various aircraft, including fighter jets, allowing for realistic training scenarios.
Key Components
The Nayanavat OS features robust balsa wood and plywood construction designed to withstand training conditions. The gasoline engine provides reliable power delivery, while the compact design allows for easy transport and deployment in various training environments. Maximum payload capacity of 2kg enables additional equipment integration as needed.