TITAN AIR MOBILITY

DOROGARAGE

DOROGARAGE, a distinguished segment within our company, embodies innovation and creativity in the world of transportation and mobility design. With a relentless passion for pushing the boundaries of vehicle aesthetics and functionality, DOROGARAGE is where dreams of exceptional automobiles come to life. Our team of visionary designers and engineers collaborate tirelessly to transform concepts into reality, creating bespoke, cutting-edge car designs that defy convention. From concept sketches to the final production, DOROGARAGE showcases our commitment to craftsmanship, innovation, and the pursuit of automotive excellence.

“Welcome to a world where automotive dreams are sculpted into tangible masterpieces.”

RAILWAYS IN THE SKY

Imagine an electric vertical takeoff and landing (eVTOL) aircraft as a railway system in the sky. In this concept, the eVTOL operates on designated aerial tracks, similar to railway lines, weaving through urban landscapes. Passengers board at elevated terminals, and the eVTOL glides silently and smoothly above the cityscape, guided by a network of aerial routes. This “sky railway” system offers a sustainable and efficient mode of urban transportation, alleviating traffic congestion and reducing environmental impact. It combines the convenience of on-demand air travel with the reliability and accessibility of a railway, promising a futuristic and eco-friendly solution for urban mobility challenges.

PACKAGE ANALYSIS

Aircraft ergonomics is of paramount importance in aviation for several reasons. First and foremost, it directly impacts the safety of flight operations. Well-designed cockpit layouts, controls, and displays reduce pilot workload and enhance their ability to make critical decisions swiftly and accurately. Additionally, ergonomic considerations in passenger cabins ensure passenger comfort, which is crucial for long-haul flights and overall customer satisfaction. Furthermore, efficient ergonomics can lead to improved fuel efficiency and reduced maintenance costs by minimizing human errors. In essence, aircraft ergonomics not only enhances safety and comfort but also contributes significantly to the operational efficiency and economic viability of the aviation industry.

PROPORTIONAL ADVANCEMENT

25 ft 13 ft 250 kg

Proportion is vital in electric vertical takeoff and landing (eVTOL) aircraft as it directly influences their aerodynamic efficiency, weight distribution, payload capacity, and battery performance. Well-balanced proportions optimize lift, minimize drag, and ensure stable flight during critical phases such as takeoff, landing, and transitions. Efficient use of space and weight is crucial for accommodating electric propulsion systems and maximizing battery capacity, which, in turn, determines the aircraft’s range and endurance.

Proposal 1

Proportion is vital in electric vertical takeoff and landing (eVTOL) aircraft as it directly influences their aerodynamic efficiency, weight distribution, payload capacity, and battery performance. Well-balanced proportions optimize lift, minimize drag, and ensure stable flight during critical phases such as takeoff, landing, and transitions. Efficient use of space and weight is crucial for accommodating electric propulsion systems and maximizing battery capacity, which, in turn, determines the aircraft’s range and endurance.

THEME IDEATION

EMOTION

‘Elegance in Simplicity’ harmoniously unites form and function at its core. The eVTOL’s exterior showcases sleek, unadorned lines and surfaces, culminating in a visually captivating and aerodynamically efficient profile. This minimalism discards unnecessary embellishments, emphasizing essential functionality. Key to realizing this vision is the use of lightweight, high-strength composite materials that enhance structural integrity while reducing weight. The meticulous crafting of the eVTOL’s composite shell further diminishes drag and optimizes lift, elevating its overall performance.”

In the realm of minimalistic eVTOL (electric

vertical takeoff and landing) aircraft design, the guiding principle is ‘Elegance in Simplicity.’ This design ethos responds to the pressing needs of urban mobility, offering a harmonious blend of efficiency and aesthetics

AERODYNAMICALLY OPTIMIZED

eVTOL aircraft, designed for urban air mobility and short-distance travel, face unique aerodynamic challenges. Their vertical takeoff and landing capabilities necessitate a balance between efficient hover and forward flight. Aerodynamic optimization focuses on several key aspects .VTOL Efficiency: During vertical takeoff and hover, eVTOLs must generate enough lift to counteract gravity. Optimizing rotor or propeller design, blade shape, and angles is essential to minimize power consumption and noise while maintaining stability. Transition Phases: eVTOLs must smoothly transition between vertical and horizontal flight modes. Aerodynamic design considerations involve minimizing drag during these critical phases to ensure efficiency and safety.

AERODYNAMICALLY OPTIMIZED

Aerodynamic optimization in eVTOLs represents a delicate balance between lift, drag, and maneuverability, ultimately impacting their performance, range, energy efficiency, and noise levels. Achieving the right balance is essential for the viability and success of eVTOL technology in urban air mobility and future transportation systems. In forward flight, reducing drag is paramount for energy efficiency. Streamlined airframe shapes, wing designs, and control surface configurations all play a role in minimizing resistance and increasing range.

MINIMAL

design in eVTOL (electric vertical takeoff and landing) aircraft prioritizes simplicity and efficiency. It focuses on reducing unnecessary components and complexities, emphasizing essential functionality.

PRECISION LANDING

“Precision in eVTOL (electric vertical takeoff and landing) aircraft involves advanced navigation, sensors, and controls, enabling pinpoint landings in confined urban areas like rooftops and designated zones. This capability ensures safety, efficiency, and space optimization for urban air mobility, making eVTOLs a reliable mode of transportation in crowded cities.”

FUNCTION DRIVEN DESIGN

Function-driven design in eVTOL (electric vertical takeoff and landing) aircraft focuses on tailoring every aspect of the aircraft’s structure, systems, and aesthetics to fulfill its core operational requirements. This design philosophy places the primary emphasis on functionality, safety, and efficiency, with form following function. It entails optimizing aerodynamics, power distribution, energy storage, and control systems to ensure the eVTOL meets its intended purpose effectively.

PERFECT

A good stance in an eVTOL (electric vertical takeoff and landing) encompasses a ic design that optimizes efficiency, reducing drag for enhanced range and performance. integrated, ensuring smooth transitions

STANCE

a harmonious balance of form and function. It’s characterized by an aerodynamperformance. The aircraft’s vertical and horizontal flight capabilities are seamlessly transitions and precise control.

“True innovation often begins with a simple question: ‘What if?”

CARGO

Introducing the Cargo eVTOL: Redefining Transportation. Efficient, electric, and eco-friendly, this aerial vehicle revolutionizes traffic and delivering goods with speed and sustainability. Welcome to the future of freight transport.

revolutionizes cargo logistics, soaring above

EASY ACCESS

Introducing the Cargo eVTOL: Redefining Transportation. Efficient, electric, and eco-friendly, this aerial vehicle revolutionizes cargo logistics, soaring above traffic and delivering goods with speed and sustainability. Welcome to the future of freight transport.