Disposal and Recycle Economic Assessment for Aircraft and Engine End of Life Solution Evaluation

Zhao, Xiaojia; Verhagen, Wim J. C.; Curran, Richard

doi:10.3390/app10020522

Cited by 17 publications

(12 citation statements)

References 39 publications

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“…To further clarify the level of decision and highlight the related topics within wider remanufacturing research, the aviation-purpose parts recovery work cluster (disassembly operations and disassembled parts’ arrangements) is circled in the dashed black frame in Fig. 1 [ 23 ]. The general recovery and reuse procedures (disassembly and dismantling) are placed in the green zone.…”

Section: Theoretical Backgroundmentioning

confidence: 99%

Integrating X-reality and lean into end-of-life aircraft parts disassembly sequence planning: a critical review and research agenda

Yang

Keivanpour

Imbeau

2023

Int J Adv Manuf Technol

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In parallel with the fast growth of the second-hand aviation market, the importance of promoting remanufacturing analytics has increased. However, end-of-life (EoL) aircraft parts remanufacturing operations are still underdeveloped. Disassembly, the most challenging and central activity in remanufacturing, directly affects the EoL product recovery’s profitability and sustainability. Disassembly sequence planning (DSP) devises ordered and purposeful parting for all potentially recoverable components before physical separations. However, the complexities and uncertainties of the EoL conditions engender unpredictable DSP decision inputs. The EoL DSP needs emergent evidence of cost-effective solutions in view of Industry 4.0 (I4.0) implications and stakeholders’ benefits. Among the I4.0 technologies, X-reality (XR) particularly hits the mainstream as a cognitive and visual tool consisting of virtual reality, augmented reality, and mixed reality. Recently, with the advance of I4.0 phenomenon, lean management has been theorized and tested through complementary collaboration. Since the research of integrating lean and XR into the EoL DSP is underexplored in literature, XR and lean are investigated as assistive enablers in the DSP. This study has a two-fold purpose: (1) identifying the key concepts of DSP, I4.0, XR, and lean, and extending the literature by reviewing the previous efforts of EoL aircraft remanufacturing, XR-assisted DSP, and XR–lean applications; (2) proposing “Smart Disassembly Sequence Planning (SDSP)” as a new EoL decision-support agenda after analyzing relational advantages and evolving adaptability. The barriers and limitations are highlighted from the recent associated topics, concrete academic information for developing digitalized disassembly analytics is provided, and new trends are added for future disassembly research.

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Section: Theoretical Backgroundmentioning

confidence: 99%

Integrating X-reality and lean into end-of-life aircraft parts disassembly sequence planning: a critical review and research agenda

Yang

Keivanpour

Imbeau

2023

Int J Adv Manuf Technol

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“…LCA focuses on the entire life cycle of a product or a process, starting from the raw materials and ending with the disposal stage. Numerous studies adopting the LCA approach were conducted to evaluate the recycling of composites in terms of energy and environmental impact and predicted a promising future throughout their life-cycle both during application and recycling [ 55 , 56 , 57 , 58 ].…”

Section: Life-cycle Assessment Of Composites Recyclingmentioning

confidence: 99%

“…The CBA of recycling glazing was based on the general recycling scheme of ELV materials, which made the study convenient to reproduce the results on other non-metallic materials including fiber-reinforced composites. Regarding end-of-life aircrafts, Zhao et al (2020) [ 57 ] have developed an economic indicator that can help end-of-life recyclers with making a decision on the type of disposal scenario to adopt. The developed indicator is the ratio of the difference of salvage value (after the recycling process) and the residual value of an aircraft over the costs incurred for dismantling and recycling processes.…”

Section: Recent Attempts Of Cost Modelling For Recycling Fiber-reinfo...mentioning

confidence: 99%

Cost Modelling for Recycling Fiber-Reinforced Composites: State-of-the-Art and Future Research

et al. 2022

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Fiber-reinforced composites, such as carbon and glass fibers, are widely used across various industries. This is mainly a result of their outperforming properties in contrast with traditional materials. As a response to the environmental legal enforcement of the recycling of composite materials, several recycling methods such as mechanical, thermal, and chemical recycling, have been developed. Despite various merits, these recycling methods still face challenges, such as the heterogeneity of material, the quality of the recycled product, the high cost of recycling, and a lack of an established market. Since, in many cases, the financial aspect tends to be the major barrier to recycling composites, the appropriate cost modelling of the recycling process requires urgent consideration. To the knowledge of the authors, there is no prior research efforts on the reviewing of cost modelling techniques on composites recycling. Cost modelling research projects for different recycling technologies, with their findings and limitations, are sought from the literature and reported in this paper. It is found that recycling techniques still cannot compete with traditional landfilling in terms of cost, and are dependent on fiber recovery rates and plant capacities. Following a comprehensive literature review, research gaps are identified to formulate the research directions in this field.

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“…Literature surveys show that the residual value of a GTE including the costs of disposal, comprising removal of associated structures, transport and recycling, is around 10% of the purchase price, although this may vary depending upon regional rates [48]. Based on the estimation of the GTE acquisition cost employed in this study, the estimated economic benefit associated with disposal of an engine is assumed to represent GBP 63,000 per annum.…”

Section: Gte Disposal Savingsmentioning

confidence: 99%

Quantifying the Economic Benefits of Using Erosion Protective Coatings in a Low-Pressure Compressor (Aero-Engine): A Case Study Evaluation

Alqallaf

Teixeira

2022

Processes

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Gas turbine engines (GTEs) frequently operate in desert environments where the main components are exposed to erosive media such as sand and dust. In these circumstances, a crucial problem, particularly with compressor blades, is solid particle erosion (SPE). Positioned in the front of the GTE, the compressors suffer most from SPE in terms of inflicting damage on compressor hardware such as blades, decreasing the GTE’s working life and increasing fuel consumption, energy losses, and efficiency losses. Results obtained from Turbomatch, an in-house performance tool, showed that degraded compressors can experience increased turbine entry temperature (TET) and specific fuel consumption (SFC), which leads to a significant increase in the operating, maintenance and component replacement costs, in addition to fuel costs. Fitting erosion protective coatings (EPCs) is a conventional approach to reduce SPE of the compressor blades of aeroengines. Titanium nitride (TiN), applied via physical vapour deposition (PVD) techniques, is often used to extend the life of compressor blades in erosive conditions. This paper reports the outcomes of a cost benefit analysis (CBA) of whether applying an EPC to the booster blades of an aeroengine is economically beneficial. The case study takes into account the available coatings potential of the market, in addition to all of the available technical data in the public domain regarding the compressor of the research engine. To identify the economic consequences of employing an EPC over the blades of a compressor, a CBA study was carried out by investigating consequent benefits and costs. The results indicate that under certain conditions the application of an EPC can be profitable.

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Disposal and Recycle Economic Assessment for Aircraft and Engine End of Life Solution Evaluation

Cited by 17 publications

References 39 publications

Integrating X-reality and lean into end-of-life aircraft parts disassembly sequence planning: a critical review and research agenda

Integrating X-reality and lean into end-of-life aircraft parts disassembly sequence planning: a critical review and research agenda

Cost Modelling for Recycling Fiber-Reinforced Composites: State-of-the-Art and Future Research

Quantifying the Economic Benefits of Using Erosion Protective Coatings in a Low-Pressure Compressor (Aero-Engine): A Case Study Evaluation

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