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Based on a lecture prepared as part of the celebration of Cranfield University's 50th anniversary. After briefly reviewing the early years, including Cranfield University's entry…
Abstract
Based on a lecture prepared as part of the celebration of Cranfield University's 50th anniversary. After briefly reviewing the early years, including Cranfield University's entry into this technology, discusses the nature of this industry, Some of the technology drivers, including environmental concerns, are examined to provide a background against which the development and the future of the industry can be considered. This is followed by a brief survey of some of the possible new civil aero gas turbine applications over the next 50 years, both the very likely and some curiosities. Finally, the changes that are likely to occur within the industry as a result of wider economic and political trends are considered, as well as the implications for those working within the industry. The development of the civil aero gas turbine has contributed, in large measure, to today's, US$ 300 billion civil aviation industry and is rightly seen as one of mankind's major engineering achievements. A single paper cannot do justice to this industry.
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Maurice Rasmussen, R.J. Adams, J.M. Buffington and S.S. Banda
Not since the early days of space flight has the subject of hypersonic flow been of such importance to aerospace. Spurred by visions of hypersonic transport, and aerospace planes…
Abstract
Not since the early days of space flight has the subject of hypersonic flow been of such importance to aerospace. Spurred by visions of hypersonic transport, and aerospace planes, the US Government now supports studies of hypersonic flow in at least 18 graduate research centres across the USA, and numerous major universities now offer graduate and senior‐level undergraduate courses on the subject.
Remote monitoring technology (RMT) is widely acknowledged as an important enabler of servitisation however, there is a dearth of understanding about how RMT is used by…
Abstract
Purpose
Remote monitoring technology (RMT) is widely acknowledged as an important enabler of servitisation however, there is a dearth of understanding about how RMT is used by manufacturing firms to support servitised strategies. The purpose of this paper is to contribute to this important yet somewhat ignored topic in servitisation research. It attempts to address the following questions: what has constrained, and what has enabled the exploitation of RMT in the context of servitised strategies?
Design/methodology/approach
The research adopts an exploratory multiple-case study design. Four in-depth descriptive case studies of companies operating in aerospace, industrial equipment, marine, and transport sectors were conducted. The collected data were analysed and synthesised, drawing out conclusions.
Findings
The study describes how four manufacturers are using RMT and identifies ten factors that have enabled and constrained the realisation of expected outcomes. The enabling factors identified include: skills, experience, and knowledge; support from customers and other complementary data sources, processes, and structures; operations centres; historical data; and presence of in-house knowledge and capabilities. While the constraining factors include: defining benefits of RMT; limitations of RMT; limited understanding about true capabilities of RMT; knowledge management; and lack of alignment between services and manufacturing strategies.
Research limitations/implications
While considerable attention and effort have been invested in designing and conducting the research and analysing the data from the case studies, more empirical work is required to validate and enrich findings and conclusions. For this purpose several research questions to guide further theory development in this area are formulated.
Originality/value
This paper is an in-depth study examining the role of RMT in supporting servitised strategies. In particular, it explores how this technology is used in practice to support service-oriented value propositions of manufacturers and identifies the factors that are key to successfully executing this strategy. As such it qualifies as one of the first studies of this kind.
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Sumit Gupta, Deepika Joshi, Sandeep Jagtap, Hana Trollman, Yousef Haddad, Yagmur Atescan Yuksek, Konstantinos Salonitis, Rakesh Raut and Balkrishna Narkhede
The paper proposes a framework for the successful deployment of Industry 4.0 (I4.0) principles in the aerospace industry, based on identified success factors. The paper challenges…
Abstract
Purpose
The paper proposes a framework for the successful deployment of Industry 4.0 (I4.0) principles in the aerospace industry, based on identified success factors. The paper challenges the perception of I4.0 being aligned with de-skilling and personnel reduction and instead promotes a route to successful deployment centred on upskilling and retaining personnel for future role requirements.
Design/methodology/approach
The research methodology involved a literature review and industrial data collection via questionnaires to develop and validate the framework. The questionnaire was sent to a purposive sample of 50 respondents working in operations, and a response rate of 90% was achieved. Content analysis was used to identify patterns, themes, or biases, and the data were tabulated based on specific common attributes. The proposed framework consists of a series of gates and criteria that must be met before progressing to the next gate.
Findings
The proposed framework provides a feedback mechanism to review minimum standards for successful deployment, aligned with new developments in capability and technology, and ensures quality assessment at each gate. The paper highlights the potential benefits of I4.0 implementation in the aerospace industry, including reducing operational costs and improving competitiveness by eliminating variation in manufacturing processes. The identified success factors were used to define the framework, and the identified failure points were used to form mitigation actions or controls for inclusion in the framework.
Originality/value
The paper provides a framework for the successful deployment of I4.0 principles in the aerospace industry, based on identified success factors. The framework challenges the perception of I4.0 as being aligned with de-skilling and personnel reduction and instead promotes a route to successful deployment centred on upskilling and retaining personnel for future role requirements. The framework can be used as a guideline for organizations to deploy I4.0 principles successfully and improve competitiveness.
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The 1980s saw a resurgence of the notion that transferring assetsfrom the public sector to private enterprise would raise both allocativeand technical efficiency, leading to…
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The 1980s saw a resurgence of the notion that transferring assets from the public sector to private enterprise would raise both allocative and technical efficiency, leading to greater economic well‐being. This resurgence led in the UK and elsewhere to privatization and the transfer of state activities from Government departments to separate agencies. Tests arguments that performance is linked to ownership by considering ten organizations which underwent relevant status changes in the post‐war period. Results confirm that, in general, a political to private change in ownership is associated with improved performance, but that this performance improvement is not guaranteed. Thus the link between ownership and performance is apparently more complex than many commentators have assumed. Findings suggest that further research is needed to address the factors that determine performance.
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Manish Singh, Kumar Dhanalakshmi and Jaideep Mathur
Air connectivity network is an important part of the overall connectivity network of any country. This becomes even more crucial for the interior regions, which have no access to…
Abstract
Purpose
Air connectivity network is an important part of the overall connectivity network of any country. This becomes even more crucial for the interior regions, which have no access to sea routes and have inadequate road and rail connectivity. In India there is uniform distribution of airports throughout the country but only a few of them are currently used because of poor infrastructure availability at these airports. Any aircraft operating from these airports, having minimal infrastructure, need to have efficient high‐lift systems for short takeoff and landing ability as one of the key requirements. The purpose of this paper is look at the performance of a new high‐lift airfoil configuration for application to a general transport aircraft.
Design/methodology/approach
The present study deals with two‐dimensional analyses of a high‐lift system for general transport aircraft. The JUMBO2D, a multi‐block structured viscous code has been used to make preliminary analysis of the proposed high‐lift system. The configuration consists of three elements, namely, the main airfoil with nose droop, a vane and a flap.
Findings
In the present work the code has been revalidated by computing for NLF (1) 0416 airfoil (clean) and NACA 1410 airfoil with double‐slotted flap. The computed results compare very well with the experimental data. The proposed high‐lift configuration of general transport aircraft has then been analyzed in detail for both takeoff and landing conditions with and without nose droop. The effect of gap between main element and vane on the aerodynamic performance has also been investigated.
Originality/value
This computational study looks at the performance of a new high‐lift airfoil configuration for application to a general transport aircraft.
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Britannia's and Europe's first Boeing 767 (G‐BKPW) has been named “The Earl Mountbatten of Burma”.
Sajal Kissoon, Francesco Saverio Mastropierro, Devaiah K. Nalianda, Andrew Rolt and Bobby Sethi
The growth in air mobility, rising fuel prices and ambitious targets in emission reduction are some of the driving factors behind research towards more efficient aircraft. The…
Abstract
Purpose
The growth in air mobility, rising fuel prices and ambitious targets in emission reduction are some of the driving factors behind research towards more efficient aircraft. The purpose of this paper is to assess the application of a blended wing body (BWB) aircraft configuration with turbo-electric distributed propulsion in the military sector and to highlight the potential benefits that could be achieved for long-range and heavy payload applications.
Design/methodology/approach
Mission performance has been simulated using a point-mass approach and an engine performance code (TURBOMATCH) for the propulsion system. Payload-range charts were created to compare the performance of a BWB aircraft with various different fuels against the existing Boeing 777-200LR as a baseline.
Findings
When using kerosene, an increase in payload of 42 per cent was achieved but the use of liquefied natural gas enabled a 50 per cent payload increase over a design range of 7,500 NM. When liquid hydrogen (LH2) is used, the range may be limited to about 3,000 NM by the volume available for this low-density fuel, but the payload at this range could be increased by 137 per cent to 127,000 kg.
Originality/value
The results presented to estimate the extent to which the efficiency of military operations could be improved by making fewer trips to transport high-density and irregular cargo items and indicate how well the proposed alternatives would compare with present military aircraft. There are no existing NATO aircraft with such extended payload and range capacities. This paper, therefore, explores the potential of BWB aircraft with turbo-electric distributed propulsion as effective military transports.
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