Download or read book Experimental and Numerical Investigation of Hot Air Anti icing Systems written by See-Ho Wong and published by . This book was released on 2004 with total page 544 pages. Available in PDF, EPUB and Kindle. Book excerpt: [Author's abstract] The prevention of ice on aircraft components is critical to aircraft performance and operation. Even small amounts of ice can present a major hazard to flight safety. A hot-air anti-icing system uses hot air extracted from the engine compressor bleed to prevent or minimize ice buildup on protected surfaces. The fact that anti-icing devices are operated during take-off and landing when maximum power is required, makes the power loss due to air bleeding even more critical. This necessitates a better understanding of the complex aero-thermal phenomena governing the efficiency of an anti-icing piccolo tube system used to prevent ice formation on the leading edge of critical aerodynamic surface of aircraft. This is to maximize system performance and minimize the fuel consumption penalty from hot air bled from the engine. Experimental and computational studies were performed on various wing anti- icing systems that use hot air bled from the engine compressor through piccolo tube. Experiments were conducted in a bleed air laboratory of a local general aviation company to evaluate the heat transfer performance of an inner-liner and a D-duct hot air anti-ice system. With the experiments, key design and performance parameters of the anti-icing systems were identified. Surface temperature distributions were measured in the experiments and compared with results from a commercial heat transfer software package. A robust Computational Fluid Dynamics (CFD) package was required for providing the numerical simulation results, because computation of heat t ransfer coefficient is a complex task which becomes even more complex for multiple jets impinging on a curved surface of the interior of a wing leading edge. Although empirical correlations and analogies can be used to describe the heat contribution phenomena, they can easily fail under these conditions. Thus only a full conjugate Navier-Stokes analysis of internal and external flow, coupled with a suitable structural code to solve the conductive problem in the wing solid wall, can yield a plausible prediction of the heat transfer rates, and give helpful insight in the details of the phenomena. After the accuracy of this commercial package was verified with experimental data, methods for enhancing the performance of current bleed air anti-icing leading edge designs were investigated numerically. The performance of several design modifications were evaluated experimentally with a modified hot air system in the bleed air laboratory. It was concluded from this investigation that the inner-liner configuration performed better than the D-duct in term of skin temperature performance. The performance of the inner-liner configuration could be further improved by optimizing piccolo design parameters which included the total number of piccolo holes, hole pattern and piccolo hole circumferential position. In general, high system performance was associated with chocked piccolo jet flow. Finally, CFD was able to predict trends and even to some extent the magnitudes of performance of these hot air anti-icing systems.

Download or read book Numerical Investigation of a Wing Hot Air Ice Protection System written by Alonso Oscar Zamora Rodríguez and published by . This book was released on 2009 with total page 112 pages. Available in PDF, EPUB and Kindle. Book excerpt: Aircraft icing is a recurrent aviation safety concern. In the past eight years alone, eight icing accidents involving business jets and other aircraft have occurred. The accumulation of ice on critical aerodynamic surfaces, the primary cause of these accidents, leads to considerable performance degradation that compromises the safety of the passengers, the crew, and the vehicle. A variety of surface-deformation and thermal systems provide icing protection for aircraft. Hot air anti-icing systems are the most common for airplanes with aluminum leading edges on wing and tail surfaces, and engine inlets. These surfaces are heated using bleed air redirected from the jet engine compressor and channeled through a piccolo tube located inside the leading edge. A series of hot air jets emanate from small holes on the piccolo tube (piccolo holes) and impinge on the internal surface of the leading edge skin, transferring heat, and increasing the skin temperature to prevent ice accumulation. The design and optimization of hot air anti-icing systems involve both experimental and numerical studies. Computational Fluid Dynamics (CFD) is a cost-effective analysis tool for bleed air ice protection system design and evaluation. CFD analysis tools, however, require validation against experimental data to determine the accuracy of the numerical schemes, turbulence models, boundary conditions, and results obtained. The present thesis details a CFD methodology developed to simulate the performance of a wing hot air anti-icing system under dry air conditions (no water impingement). Computational simulations were conducted with the commercial CFD code FLUENT to investigate the performance of a hot air anti-icing system installed in the leading edge of a 72-inch span, 60-inch chord business jet wing model. The analysis was performed with a full-span model (FSM) and a partial-span model (PSM). The FSM was used to model the entire length of the piccolo tube to investigate the development of spanwise flow inside the piccolo tube. The PSM was used to model a 2.44-in spanwise section of the wing in order to investigate the internal and external flow properties about the wing with the bleed air system in operation. Computational results obtained with the PSM model were compared with experimental data obtained from icing tests performed at the NASA Glenn Icing Research Tunnel (IRT) facility. The work presented in this thesis includes extensive 2D axisymmetric computational studies performed with a subsonic, heated, turbulent jet impinging on a flat plate to evaluate the performance of five eddy-viscosity turbulence models available in the FLUENT code. The turbulence model studies showed that the Shear Stress Transport (SST) ? -? formulation provided the most consistent prediction of recovery temperatures at the impingement wall. Grid resolution and spatial discretization studies were completed with a three-dimensional version of the jet impingement scenario employed in the turbulence study, and first- and second-order upwind schemes. Three grid resolution levels were considered based on the number of nodes distributed around the nozzle exit circumference in order to apply the same distribution around the piccolo holes circumferences in the anti-icing system PSM. A boundary condition study was performed with the anti-icing models (FSM and PSM). The PSM did not model the piccolo tube internal flow and, consequently, required inflow boundary conditions to be specified at the piccolo holes' exits. The FSM was employed to analyze the flow inside the piccolo tube and to obtain the inflow boundary conditions for the PSM. The approaches applied to extract the boundary conditions were centerline and cell-averaged. Skin temperature results from the PSM were compared with available experimental data and showed that the cell-averaged approach provided the most accurate simulation. Finally, a parametric study was conducted with the anti-icing models (FSM and PSM) to validate the computational methodology with a broad range of cases with variable internal and external flow parameters for which experimental data was available. The results for leading-edge skin temperature as well as piccolo flow properties demonstrated in all cases high-fidelity agreement with experimental data.

Download or read book Experimental and Numerical Investigation of Anti icing Phenomena on a NACA 0012 Assembly written by Maddalena Fanelli and published by . This book was released on 1992 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book The Proceedings of the 2021 Asia Pacific International Symposium on Aerospace Technology APISAT 2021 Volume 1 written by Sangchul Lee and published by Springer Nature. This book was released on 2022-08-30 with total page 1027 pages. Available in PDF, EPUB and Kindle. Book excerpt: This proceeding comprises peer-reviewed papers of the 2021 Asia-Pacific International Symposium on Aerospace Technology (APISAT 2021), held from 15-17 November 2021 in Jeju, South Korea. This book deals with various themes on computational fluid dynamics, wind tunnel testing, flow visualization, UAV design, flight simulation, satellite attitude control, aeroelasticity and control, combustion analysis, fuel injection, cooling systems, spacecraft propulsion and so forth. So, this book can be very helpful not only for the researchers of universities and academic institutes, but also for the industry engineers who are interested in the current and future advanced topics in aerospace technology.

Download or read book Computational Methodology for Bleed Air Ice Protection System Parametric Analysis written by Rodrigo Hoffmann-Domingos and published by . This book was released on 2010 with total page 110 pages. Available in PDF, EPUB and Kindle. Book excerpt: Aircraft in-flight icing is a major safety issue for civil aviation, having already caused hundreds of accidents and incidents related to aerodynamic degradation due to post takeoff ice accretion. Airplane makers have to protect the airframe critical surfaces against ice build up in order to ensure continued safe flight. Ice protection is typically performed by mechanical, chemical, or thermal systems. One of the most traditional and still used techniques is the one known as hot-air anti-icing, which heats the interior of the affected surfaces with an array of small hot-air jets generated by a piccolo tube. In some cases, the thermal energy provided by hot-air ice protection systems is high enough to fully evaporate the impinging supercooled droplets (fully evaporative systems), while in other cases, it is only sufficient to maintain most of the protected region free of ice (running wet systems). In the latter case, runback ice formations are often observed downstream of the wing leading edge depending on hot-air, icing, and flight conditions. The design process of hot-air anti-icing systems is traditionally based on icing wind tunnel experiments, which can be very costly. The experimental effort can be significantly reduced with the use of accurate three-dimensional computational fluid dynamic (CFD) simulation tools. Nevertheless, such type of simulation requires extensive CPU time for exploring all the design variables. This thesis deals with the development of an efficient hot-air anti-icing system simulation tool that can reduce the computational time to identify the critical design parameters by at least two orders of magnitude, as compared to 3-d CFD tools, therefore narrowing down the use of more sophisticated tools to just a small subset of the entire design space. The hot-air anti-icing simulation tool is based on a combination of available CFD software and a thermodynamic model developed in the present work. The computation of the external flow properties is performed with FLUENT (in a 2-d domain) by assuming an isothermal condition to the airfoil external wall. The internal skin heat transfer is computed with the use of local Nusselt number correlations developed through calibrations with CFD data. The internal and external flow properties on the airfoil skin are provided as inputs to a steady state thermodynamic model, which is composed of a 2-d heat diffusion model and a 1-d uniform film model for the runback water flow. The performance of the numerical tool was tested against 3-d CFD simulation and experimental data obtained for a wing equipped with a representative piccolo tube anti-icing system. The results demonstrate that the simplifications do not affect significantly the fidelity of the predictions, suggesting that the numerical tool can be used to support parametric and optimization studies during the development of hot-air anti-icing systems.

Download or read book An Experimental and Numerical Study of Icing Effects on the Performance and Controllability of a Twin Engine Aircraft written by Andrew L. Reehorst and published by . This book was released on 1999 with total page 24 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Handbook of Numerical Simulation of In Flight Icing written by Wagdi George Habashi and published by Springer Nature. This book was released on 2024-01-12 with total page 1278 pages. Available in PDF, EPUB and Kindle. Book excerpt: This Handbook of Numerical Simulation of In-Flight Icing covers an array of methodologies and technologies on numerical simulation of in-flight icing and its applications. Comprised of contributions from internationally recognized experts from the Americas, Asia, and the EU, this authoritative, self-contained reference includes best practices and specification data spanning the gamut of simulation tools available internationally that can be used to speed up the certification of aircraft and make them safer to fly into known icing. The collection features nine sections concentrating on aircraft, rotorcraft, jet engines, UAVs; ice protection systems, including hot-air, electrothermal, and others; sensors and probes, CFD in the aid of testing, flight simulators, and certification process acceleration methods. Incorporating perspectives from academia, commercial, government R&D, the book is ideal for a range of engineers and scientists concerned with in-flight icing applications.

Download or read book Icing Cloud Calibration of the NASA Glenn Icing Research Tunnel written by Robert F. Ide and published by . This book was released on 2001 with total page 28 pages. Available in PDF, EPUB and Kindle. Book excerpt: The icing research tunnel at the NASA Glenn Research Center underwent a major rehabilitation in 1999, necessitating recalibration of the icing clouds. This report describes the methods used in the recalibration, including the procedure used to establish a uniform icing cloud and the use of a standard icing blade technique for measurement of liquid water content. The instruments and methods used to perform the droplet size calibration are also described. The liquid water content/droplet size operating envelopes of the icing tunnel are shown for a range of airspeeds and compared to the FAA icing certification criteria. The capabilities of the IRT to produce large droplet icing clouds is also detailed.

Download or read book Proceedings of the 6th China Aeronautical Science and Technology Conference written by Chinese Aeronautical Society and published by Springer Nature. This book was released on 2024-01-07 with total page 711 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book contains the original peer-reviewed research papers presented at the 6th China Aeronautical Science and Technology Conference held in Wuzhen, Zhejiang Province, China, in September 2023. Topics covered include but are not limited to Navigation/Guidance and Control Technology, Aircraft Design and Overall Optimisation of Key Technologies, Aviation Testing Technology, Airborne Systems/Electromechanical Technology, Structural Design, Aerodynamics and Flight Mechanics, Advanced Aviation Materials and Manufacturing Technology, Advanced Aviation Propulsion Technology, and Civil Aviation Transportation. The papers presented here share the latest findings in aviation science and technology, making the book a valuable resource for researchers, engineers and students in related fields.

Download or read book An Experimental and Theoretical Investigation of an Air Injection Type Anti icing System for Aircraft written by Abdollah Haddad Tabrizi and published by . This book was released on 1986 with total page 277 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Proceedings of the 5th International Conference on Building Energy and Environment written by Liangzhu Leon Wang and published by Springer Nature. This book was released on 2023-09-04 with total page 2933 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book is a compilation of selected papers from the 5th International Conference on Building Energy and Environment (COBEE2022), held in Montreal, Canada, in July 2022. The work focuses on the most recent technologies and knowledge of building energy and the environment, including health, energy, urban microclimate, smart cities, safety, etc. The contents make valuable contributions to academic researchers, engineers in the industry, and regulators of buildings. As well, readers encounter new ideas for achieving healthy, comfortable, energy-efficient, resilient, and safe buildings.

Download or read book NASA SP written by and published by . This book was released on 1992 with total page 548 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book NASA Technical Memorandum written by and published by . This book was released on 1994 with total page 492 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Proceedings of 2nd International Conference on 3D Printing Technology and Innovations 2018 written by ConferenceSeries and published by ConferenceSeries. This book was released on with total page 103 pages. Available in PDF, EPUB and Kindle. Book excerpt: March 19-20, 2018 London, UK. Key Topics: Applications of 3D Printing in healthcare & medicine, Advances in 3D Printing & Additive Manufacturing Technology, Benefits of 3D Printing and Technology, Innovations in 3D Printing, 3D Printing Technology Impact on Manufacturing Industry, 3D printing in Biomaterials, 3D Printing Materials, Polymers in 3d printing, Tissue and Organ printing, 3D Image Processing and Visualization, 3D Printing of Supply Chain Management, Metal 3D Printing, 3D Printing Industries, 3D Bio printing, Design for 3D Printing, Future Technology in 3D Printing, 3D Printing for Liver Tissue Engineering, 3D Printing Technology & Market, Clinical applications of 3D Printing in Orthopaedics and Traumatology, Lasers in 3D Printing in , Manufacturing Industry, Challenges in 3D Printing, Challenge of 3D printing in Radiation oncology, B2B and B2C Partnering and Collaborations, 3D Printing & Beyond: 4D Printing

Download or read book Journal of Aircraft written by and published by . This book was released on 2009 with total page 756 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book A Numerical and Experimental Investigation of Electrothermal Aircraft Deicing written by Kevin L. Leffel and published by . This book was released on 1985 with total page 526 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Download or read book Wind Turbines in Cold Climates written by Lorenzo Battisti and published by Springer. This book was released on 2015-02-16 with total page 355 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book addresses the key concerns regarding the operation of wind turbines in cold climates and focuses in particular on the analysis of icing and methods for its mitigation. Topics covered include the implications of cold climates for wind turbine design and operation, the relevance of icing for wind turbines, the icing process itself, ice prevention systems and thermal anti-icing system design. In each chapter, care is taken to build systematically on the basic knowledge, providing the reader with the level of detail required for a thorough understanding. An important feature is the inclusion of several original analytical and numerical models for ready computation of icing impacts and design assessment. The breadth of the coverage and the in-depth scientific analysis, with calculations and worked examples relating to both fluid dynamics and thermodynamics, ensure that the book will serve not only as a textbook but also as a practical manual for general design tasks.