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Life Cycle Assessment–based Comparative Evaluation of Originally Manufactured and Remanufactured Diesel Engines (2014)

Zhichao Liu, Tao Li, Qiuhong Jiang, Hongchao Zhang

Wiley

In: Journal of Industrial Ecology

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Publication Date: 2014-05-06

Description: Life cycle assessment (LCA) enables us to estimate potential resource and energy consumption as well as environmental emissions resulting from various activities within our economy. The present LCA intends to analyze the energy consumption and environmental emissions of the entire life cycle of an originally manufactured diesel engine compared with its remanufactured counterpart. Further, the article attempts to identify the processes in diesel engine manufacturing and remanufacturing life cycles that contribute most to energy consumption and environmental impacts. Six environmental impacts were assessed in this study: global warming potential (GWP); acidification potential (AP); eutrophication potential (EP); ozone depletion potential (ODP); photochemical ozone creation potential (POCP); and abiotic depletion potential (ADP). The results show that diesel engine remanufacturing could reduce 66% of energy consumption, compared to original manufacturing. The greatest benefit related to environmental impact is with regard to ODP, which is reduced by 97%, followed by EP, GWP, POCP, AP, and ADP, which can be reduced by 79%, 67%, 32%, 32%, and 25%, respectively. In the life cycle of diesel engine manufacturing, production of materials brings about larger environmental impacts, especially with regard to EP and ODP, whereas transportation of materials contributes most to POCP. The situation is similar for diesel engine remanufacturing. Production of materials brings about larger environmental impacts with regard to AP, EP, and ODP, whereas components remanufacturing and production of materials exhibit the same amount of GWP impact. Further, in remanufacturing, the reverse logistics of old diesel engines brings about lesser environmental impacts than the other life cycle stages, except with regard to POCP.

Print ISSN: 1088-1980

Electronic ISSN: 1530-9290

Topics: Energy, Environment Protection, Nuclear Power Engineering

Published by Wiley

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Sensors, Vol. 17, Pages 1069: Simultaneous Detection of Static and Dynamic Signals by a Flexible Sensor Based on 3D Graphene (2017)

Rongqing Xu; Di Wang; Hongchao Zhang; Na Xie; Shan Lu; Ke Qu

MDPI Publishing

In: Sensors

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Publication Date: 2017-05-09

Description: A flexible acoustic pressure sensor was developed based on the change in electrical resistance of three-dimensional (3D) graphene change under the acoustic waves action. The sensor was constructed by 3D graphene foam (GF) wrapped in flexible polydimethylsiloxane (PDMS). Tuning forks and human physiological tests indicated that the acoustic pressure sensor can sensitively detect the deformation and the acoustic pressure in real time. The results are of significance to the development of graphene-based applications in the field of health monitoring, in vitro diagnostics, advanced therapies, and transient pressure detection.

Electronic ISSN: 1424-8220

Topics: Chemistry and Pharmacology , Electrical Engineering, Measurement and Control Technology

Published by MDPI Publishing

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Energies, Vol. 9, Pages 763: Energy Consumption and Saving Analysis for Laser Engineered Net Shaping of Metal Powders (2016)

Zhichao Liu; Fuda Ning; Weilong Cong; Qiuhong Jiang; Tao Li; Hongchao Zhang; Yingge Zhou

MDPI Publishing

In: Energies

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Publication Date: 2016-09-23

Description: With the increasing awareness of environmental protection and sustainable manufacturing, the environmental impact of laser additive manufacturing (LAM) technology has been attracting more and more attention. Aiming to quantitatively analyze the energy consumption and extract possible ways to save energy during the LAM process, this investigation studies the effects of input variables including laser power, scanning speed, and powder feed rate on the overall energy consumption during the laser deposition processes. Considering microhardness as a standard quality, the energy consumption of unit deposition volume (ECUDV, in J/mm3) is proposed as a measure for the average applied energy of the fabricated metal part. The potential energy-saving benefits of the ultrasonic vibration–assisted laser engineering net shaping (LENS) process are also examined in this paper. The experimental results suggest that the theoretical and actual values of the energy consumption present different trends along with the same input variables. It is possible to reduce the energy consumption and, at the same time, maintain a good part quality and the optimal combination of the parameters referring to Inconel 718 as a material is laser power of 300 W, scanning speed of 8.47 mm/s and powder feed rate of 4 rpm. When the geometry shaping and microhardness are selected as evaluating criterions, American Iron and Steel Institute (AISI) 4140 powder will cause the largest energy consumption per unit volume. The ultrasonic vibration–assisted LENS process cannot only improve the clad quality, but can also decrease the energy consumption to a considerable extent.

Electronic ISSN: 1996-1073

Topics: Energy, Environment Protection, Nuclear Power Engineering

Published by MDPI Publishing

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Toward a Sustainable Impeller Production: Environmental Impact Comparison of Different Impeller Manufacturing Methods (2017)

Shitong Peng, Tao Li, Xinlin Wang, Mengmeng Dong, Zhichao Liu, Junli Shi, Hongchao Zhang

Wiley

In: Journal of Industrial Ecology

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Publication Date: 2017-07-06

Description: Impellers are the core components of turbomachinery in petrochemical and aeronautical engineering. In addition to conventional manufacturing (CM), additive manufacturing (AM) and remanufacturing (RM) can also be used in impeller production. This article presents a life cycle assessment method comparing the environmental impacts of different impeller manufacturing methods, including plunge milling (CM), laser cladding forming (AM combined with CM), and additive remanufacturing (RM). Results show that RM is the most environmentally favorable option, followed by AM and CM, in terms of global warming potential (GWP), Chinese resource depletion potential (CADP), water eutrophication potential (EP), and acidification potential. However, AM is not always more environmentally friendly than CM. The comparison of impeller production by CM and pure AM, in this case, indicates that the environmental burden of production using pure AM is approximately twice than that of CM. Compared with CM, the RM of impellers would reduce GWP, CADP, and EP by 64.7%, 66.1%, and 75.4%, respectively. The results of this study contribute to a scientific basis for the selection of manufacturing methods and the sustainable manufacturing of impeller production enterprises.

Print ISSN: 1088-1980

Electronic ISSN: 1530-9290

Topics: Energy, Environment Protection, Nuclear Power Engineering

Published by Wiley

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