Introducing Energy Performances in Production Management: Towards Energy Efficient Manufacturing

Cannata, Alessandro; Taisch, Marco

doi:10.1007/978-3-642-16358-6_22

Cited by 8 publications

(3 citation statements)

References 18 publications

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“…The energy performance was proven to be one of the most important factors in green manufacturing and has attracted much attention. 31–36 However, Bunse et al 37 found that there are large gaps between industrial needs and literature solutions in many aspects, for example, different definitions for the same term are misleading, various KPIs (key performance indexes) are available but lack in suitable benchmarks, and there is no good framework for evaluation.…”

Section: Literature Reviewmentioning

confidence: 99%

Developing a new energy performance indicator for the spindle system based on power flow analysis

Shang

Gao

Jiang

et al. 2018

Proceedings of the Institution of Mechanical Engineers, Part B:

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The evaluation of the energy performance of spindle systems with a proper metric is extremely important for energy-efficient machine tools. However, there is a lack of appropriate index to achieve this evaluation. To close this gap, the additional power requirement, which is defined as the discrepancy between the material removal power and the power gap of the spindle system from air-cutting state to cutting state, was proposed as a new indicator based on a detailed power flow analysis. The additional power requirement universally exists in machining and results from the efficiency and power losses of the system, which makes it a good energy performance indicator candidate. A theoretical model for the additional power requirement of spindle systems was built and verified in a lathe machine, through which two causes of additional power requirement were pointed: less than 100% efficiency throughout the system and efficiency change of the spindle motor under a dynamic load and a variable speed. The first cause has a positive effect on the additional power requirement, whereas the second one generally plays a negative role. Furthermore, the additional power requirement can be negative because of the negative effect, which is different from previous studies. The close relation between the additional power requirement and the energy performance of the spindle is demonstrated by an in-depth analysis. This work is an important building block for energy-efficient machine tools.

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Section: Literature Reviewmentioning

confidence: 99%

Developing a new energy performance indicator for the spindle system based on power flow analysis

Shang

Gao

Jiang

et al. 2018

Proceedings of the Institution of Mechanical Engineers, Part B:

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show abstract

“…The economic and political crisis phenomena are typical for the state, and the externalities caused by them to a large extent limit the ability of enterprises to implement energy-saving expenditure projects (Li et al, 2019). Despite this, the management must select and prioritize such projects based on an evaluation of the expected effect of the current financial and economic state of an enterprise (Cannata and Taisch, 2010). Therefore, it is necessary to conduct a feasibility study for the implementation of the energy-saving projects, considering both quantitative and qualitative indicators (Zelenyak and Kostyukov, 2018).…”

Section: Introductionmentioning

confidence: 99%

Accounting of the Enterprise’s Financial Reserves at the Integration of Energy-Saving Principles and Transition to the Concept of Energy-Saving Production

Amanova¹,

Akimova²,

Kazhmukhametova³

et al. 2020

IJEEP

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The main task of modern production is to form the program of development and determination of the ways for technological improvement. The relevance of the work is in the fact that the technological concept for energy-saving development is almost always connected with the focus on it on the part of the company's management. In particular, with the availability of energy costs for the enterprise, the issue of energy saving is not formed as relevant. In conditions when all the enterprises are increasingly entering the global market and obtaining resources at prices of the world's manufacturers, there is a necessity of updating of the energy conservation system and the revitalization of the study's problematics. The novelty of the study is determined by the fact that it has investigated the means of accounting for the use of energy-saving measures in order to form a sustainable operation of the enterprise. The paper shows the aspects of the greening of an industrial enterprise in the implementation of the energy-saving program. The organizational, structural and technological features of accounting activities have been revealed in the economic reporting of the enterprise. The practical application of the study is possible provided that the company fully contributes to the goals of entering the international market and assesses their performance according to the international reporting standards.

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“…In this context, there is a consensus that DPSs should consider not only the conventional parameters of productivity, but also aspects related to sustainability, such as (1) the reduction of negative environmental impacts of the processes involved; (2) conservation and adequate use of natural resources; (3) practices to ensure the safety of employees, communities and consumers; and (4) practices of feasibility and profitability of the business that ensure an efficient and safe use of production resources. In addition, works, such as Amrina and Yusof [1], Cannata and Taisch [4], Chen et al [5], Joung et al [20] ,and Kondoh et al [22], highlight sustainability as an essential factor for evaluating the performance of a DPS.…”

Section: Introductionmentioning

confidence: 99%

Framework to evaluate the performance and sustainability of a disperse productive system

Watanabe

Silva

Blos

et al. 2018

J Braz. Soc. Mech. Sci. Eng.

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In general, the performance of productive systems considers the efficient use of technological transformation resources (such as machines and raw materials), information processing, and handling/transportation operations. However, there are no normalized criteria or rules to evaluate the performance of a productive system in the context of sustainability. Thus, this paper introduces an approach to identify and evaluate the performance indicators related to the sustainability of productive systems, specifically for geographically dispersed cases, i.e., dispersed productive system (DPS), in which the processes are in a distributed and dispersive architecture. The proposed approach is based on a framework aimed to measure sustainability key performance indicators (SuKPIs) that evaluate the sustainability of a system. The framework considers the ANSI/ISA-95 standard, and the sustainability assessment methodology considers the balance of sustainability indicators, which depend on economic, environmental, social, and technological aspects. The Petri net and derived techniques are used to model and to verify the main functionalities of the proposed framework, and also to monitor the productive processes of DPS for data acquisition of the SuKPIs. An application example is also presented to show the feasibility and validity of the proposal.

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Introducing Energy Performances in Production Management: Towards Energy Efficient Manufacturing

Cited by 8 publications

References 18 publications

Developing a new energy performance indicator for the spindle system based on power flow analysis

Developing a new energy performance indicator for the spindle system based on power flow analysis

Accounting of the Enterprise’s Financial Reserves at the Integration of Energy-Saving Principles and Transition to the Concept of Energy-Saving Production

Framework to evaluate the performance and sustainability of a disperse productive system

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