Hydro-aerodynamic mathematical model and multi-objective optimization of wing-in-ground effect craft in take-off

Dakhrabadi, Mohammad Tavakoli; Seif, Mohammad Saeed

doi:10.1177/1475090217708478

Cited by 3 publications

(1 citation statement)

References 21 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…We examined a set number of solutions and interpolated them. The research by [50] develops a solution approach and multi-objective optimization for a WIG take-off case, including a catamaran hull and compound wing. Such an approach offers improved accuracy for this critical design case.…”

Section: Future Iterationsmentioning

confidence: 99%

Conceptualising a Hybrid Flying and Diving Craft

Joiner

Swidan

2023

JMSE

View full text Add to dashboard Cite

This paper introduces the conceptual design of a submersible seaplane that merges the maturity of the wing-in-ground (WIG or ekranoplan) crafts and seaplanes with covert hybrid underwater insertion, travel, and recovery. WIG crafts have a higher lift-to-drag ratio and thus improved endurance, while hybrid crafts have recently become feasible due to advances in materials, electric propulsion, and multi-medium computational fluid dynamics. The reconnaissance design can insert, loiter, and extract from underwater, surfaces if necessary; it can fly in or out of ground effect, keep watch on the sea surface while recharging, and travel underwater. This design minimizes Doppler and infrared signatures to evade the surface wave, backscatter radar systems, and cube satellite arrays typical in contested maritime areas. Five critical enabling technologies are overviewed, showing how they enable a conceptual design. This project was conducted in collaboration with two industrial partners, namely Ron Allum and Thales Australia. The conceptual design has been socialised and confirmed at technical conferences from each core discipline and partly confirmed by a recent Chinese design and testing of a similar hybrid uncrewed aerial vehicle (HUAV). Recommendations are made for improving the conceptual design before proof-of-concept prototype testing. Given the seminal nature of HUAV design and research and some of the unique innovations proposed, the lessons learned from this iteration will likely be significant to other designers and researchers.

show abstract

Section: Future Iterationsmentioning

confidence: 99%

Conceptualising a Hybrid Flying and Diving Craft

Joiner

Swidan

2023

JMSE

View full text Add to dashboard Cite

show abstract

Оценка Аэродинамических И Летно-Технических Характеристик Экраноплана С Учетом Поддува Струи От Воздушного Винта

2021

ВИШ ДВФУ

View full text Add to dashboard Cite

Аннотация: Представлены основные результаты исследования (с использованием CFD-технологий и упрощенной авторской методики) аэродинамических характеристик экраноплана схемы «тандем» с учетом поддува и влияния струи от движителя – воздушного винта. Вычислительный эксперимент производился в программе ANSYS. Его условия предусматривали изменение кинематических параметров полета и положения экраноплана относительно экрана, скорости и угла выдува струи, углов отклонения рулевых поверхностей и элементов механизации. Анализ результатов позволяет сделать выводы об эффективности применения поддува к данной компоновочной схеме экраноплана, а также выявить основные особенности изменения ее аэродинамических характеристик при различных параметрах струи, конфигурации и положения экраноплана относительно экрана. Также рассмотрены некоторые особенности летно-технических характеристик экраноплана с учетом влияния струй от воздушного винта. Результаты работы могут быть использованы при проектировании экранопланов. Ключевые слова: экраноплан, аэродинамика экраноплана, аэродинамический поддув, динамическая воздушная подушка This paper presents the primary results of the study of the aerodynamic characteristics of a WIG, with due consideration of the blow and the influence of jets from the propeller, using CFD technologies. WIG of the Tandem scheme is considered as the object of this research. The paper presents a simplified technique for modeling a jet from a propeller. The computational experiment for the study of aerodynamic characteristics was carried out in the ANSYS finite element analysis program. The conditions of the computational experiment provided for changing the kinematic parameters (position of the WIG against the screen), speed of the jet, the angle of the jet blow, and use of wing mechanization (flaps). Analysis of the results leads to conclusions on effectiveness of the blowing application to this layout of the WIG. It also allows to reveal major effects from changing its aerodynamic characteristics with various jet parameters, configuration and position of the WIG against the ground. The paper also considers some of the features of WIG flight performance taking into account the effect of jets from the propeller. Keywords: PAR (Power-augmented Ram), GEV (ground-effect vehicle), WIG (wing-in-ground-effect)

show abstract

The Place of High Speed Crafts (HSCs) in Maritime Transportation

Kartoglu

Kum

2020

Handbook of Research on the Applications of International Transportation and Logistics for World Trade

View full text Add to dashboard Cite

Transportation involves all concepts of distance, speed, and time. Maritime transportation is one of the oldest methods of transportation. Continuous demand for high speed in shipping has led to the emergence of High Speed Craft (HSC). The growing number of HSCs has necessitated the development of new safety concepts for such vessels and waters where they navigate. The navigation on HSC requires great/high attention. Safety of navigation is very important for preventing accidents and marine pollutions. The main causes of accidents in HSCs are related to bridge personnel and bridge operations. It is observed that human factor and safety of navigation are prominent.

show abstract

Hydro-aerodynamic mathematical model and multi-objective optimization of wing-in-ground effect craft in take-off

Cited by 3 publications

References 21 publications

Conceptualising a Hybrid Flying and Diving Craft

Conceptualising a Hybrid Flying and Diving Craft

Оценка Аэродинамических И Летно-Технических Характеристик Экраноплана С Учетом Поддува Струи От Воздушного Винта

The Place of High Speed Crafts (HSCs) in Maritime Transportation

Contact Info

Product

Resources

About