Your search keyword '"Hybrid airship"' showing total 7 results

1. Thermal performance analysis of a high-altitude solar-powered hybrid airship.

Author

Zhang, Lanchuan, Li, Jun, Meng, Junhui, Du, Huafei, Lv, Mingyun, and Zhu, Weiyu

Subjects

*HYBRID airships, *THERMAL analysis, *COMPUTATIONAL fluid dynamics, *SOLAR energy, *PHOTOVOLTAIC power systems, *HEAT transfer

Abstract

The increasing application of hybrid airships which have been recently proposed as high altitude platforms, makes it necessary for research into the thermal performance of such airships that possess a photovoltaic module array(PVMA). In this study, a simplified thermal model of a high-altitude hybrid airship with a PVMA, was proposed that included direct solar, infrared, reflected, and scattered radiation and convective heat transfer. Based on computational fluid dynamics(CFD), a simulation methodology, using a user defined function(UDF) program, was introduced to investigate the PVMA's thermal effects on the hybrid airship. A ground experiment was also performed to validate this numerical method's effectiveness. Further simulations and discussion of temperature and velocity distributions of the hybrid airship's internal helium were conducted. The results showed that the PVMA atop the hull had large effects on the hybrid airship's thermal performance. The temperature distribution of the envelope varied greatly during the day and night because of the PVMA's influence as well as the internal helium flow. In addition, forced convection had little influence on the PVMA's output performance, which was analyzed in detail. [ABSTRACT FROM AUTHOR]

Published

2018

2. Conceptual design and analysis of hybrid airships with renewable energy.

Author

Zhang, Lanchuan, Lv, Mingyun, Meng, Junhui, and Du, Huafei

Subjects

RENEWABLE energy sources, CONCEPTUAL design, HYBRID airships

Abstract

An increasing focus on hybrid airships and the developments in renewable energies has allowed a methodology for conceptual design and analysis to be described. After a model presented and its aerodynamic characteristics obtained through a computational fluid dynamics method, two types of hybrid airships, solar powered at high altitudes and hydrogen powered for cargo, are demonstrated using a wing loading as their independent variable. Then the constraints determining the design point are presented. Parametric estimates of two types for component mass are then illustrated on distribution diagrams. And the sensitivity of wing loading and its effects on hybrid airships are discussed. [ABSTRACT FROM AUTHOR]

Published

2018

3. Defining Reference Area for Prediction of Aerodynamic Coefficients of a Biologically Inspired Hybrid Buoyant Vehicle.

Author

Haque, Anwar-Ul, Asrar, Waqar, Omar, Ashraf A., and Sulaeman, Erwin

Subjects

*MARINE animals, *AERODYNAMICS, *HYBRID airships, *FUSELAGE (Airplanes), *BUOYANCY

Published

2017

4. Computational Fluid Dynamics (CFD) Study on a Hybrid Airship Design.

Author

Jalasabri, Jafirdaus and Romli, Fairuz I.

Subjects

COMPUTATIONAL fluid dynamics, HYBRID airships, LIFT (Aerodynamics), DRAG coefficient, DRAG force, AIRSHIP design & construction

Abstract

The aerodynamic lift and drag performance is one of the important considerations for hybrid airship configuration design. In conjunction with this, simulation study of aerodynamic characteristics can certainly benefit the process of deriving the best possible configuration for hybrid airship design. The aim of this study is to investigate the trend of aerodynamic lift and drag performance for an airship design in different velocities, altitudes and design fineness ratio using the Star CCM+ analysis tool. The airship model applied in this case study is an approximate model of the Atlant-100 airship. It is found that the airship model with low design fineness ratio typically generates much better aerodynamic lifting force in comparison to those with high design fineness ratio. On the other hand, while the range of estimated drag coefficient values is found to be rather insignificantly different, the presence of effects from the design fineness ratio is still evident. Generally, high design fineness ratio for the airship model seems to produce much lower drag force. [ABSTRACT FROM AUTHOR]

Published

2017

5. Optimization of solar-powered hybrid airship conceptual design.

Author

Zhang, Lanchuan, Lv, Mingyun, Meng, Junhui, and Du, Huafei

Subjects

*SOLAR energy, *AIRSHIPS, *EQUILIBRIUM, *CONCEPTUAL design, *HYBRID airships, *SOLAR cells

Abstract

This paper aims to develop a high-altitude solar-powered hybrid airship, which combines aerodynamic lift and buoyancy with buoyancy force and cruises continuously. A multi-lobed configuration is employed and the solar irradiance and photovoltaic array model are proposed. After introducing all the parts mass of the hybrid airship and design procedure, an optimal problem with the constraint of energy and the equilibrium between buoyancy and weight are proposed. Through a hybrid optimization search method, the solution is obtained and the sensitivities of geographical location and seasons are discussed. The results show a comprehensive influence of the constraint both in latitude and wind field environment. [ABSTRACT FROM AUTHOR]

Published

2017

6. Wind Tunnel Testing on a Generic Model of a Hybrid Lifting Hull.

Author

Ul Haque, Anwar, Asrar, Waqar, Omar, Asharf Ali, and Suleiman, Erwin

Subjects

*AERODYNAMICS, *HYBRID airships, *WIND tunnel testing

Abstract

In this research, an experimental investigation was carried out at the International Islamic University Malaysia - Low Speed Wind Tunnel facility on a generic model of a hybrid lifting hull. Based on the historical trends of non-rigid airships, the fineness ratio of the said hull has been selected equal to 4. Free stream velocity was kept at 20 m·s-1 and, along with the estimation of aerodynamic parameters, longitudinal and lateral stability characteristics were determined over a range of angles of attack from -8° to +12° and angles of sideslip from -10° to +10°. Zero lift coefficient was obtained at -4.2°, and the corresponding value was found to be greater than that at zero angle of attack. The comparison of the experimental results with the existing analytical relationships of wing has revealed that such an airfoil shaped hull cannot be considered as a wing due to 37% less analytical value of lift coefficient than that obtained by CFD simulations of the said hull. Existing equation of form factor of hull for conventional airships was also revisited, and a correction factor equal to 1.16 in the fundamental drag equation of aircraft's fuselage was also proposed for fineness ratio equal to 4. Trends of the experimental data and comparison of the same with the theoretical calculations and computational results posed some interesting findings. The longitudinal and directional stabilities of a hybrid lifting hull were found to be statically unstable. [ABSTRACT FROM AUTHOR]

Published

2016

7. Flying high: Hybrid airships in mineral transport.

Author

McCormick, Myles

Subjects

HYBRID airships, MINERAL industry equipment

Abstract

IM takes a first look at new airships that are slated to transform the mining industry by providing access to projects in remote regions without the need for major upfront capital costs. Lockheed Martin is set to begin production of the vessels in 2019. [ABSTRACT FROM AUTHOR]

Published

2017