Engineering Science

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Theoretical and Practical Aspects of Electrical Equipment Eco-Design

Received: Jun. 26, 2019    Accepted: Jul. 30, 2019    Published: Dec. 20, 2019
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Abstract

In the last time some factors and especially the environmental protection requirements have forced to add the ecological criterion for design of electrical equipments, within a new Eco-design concept. The essence of this concept consists in the integration of environmental aspects at project phase, taking into account full life cycle of product. The work presents some theoretical and practical aspects of Eco-design for electrical equipments. Relationship between environmental management systems and Eco-design is underlined. Some key indicators for measuring the environmental performances are exemplified. The actual eco-design conception combines Qualitative Assessment of Life Cycle Criteria with a quantitative method based on the Product Carbon Footprint. The calculation of the last indicator means the quantification of the greenhouse gases emissions (kgCO2 equivalent) during the life cycle of products and services. The maintenance and repairs activities of electrical equipments have also some negative impacts on environment (directs and indirect). The author proposed, as an original contribution, two relevant environmental performance indicators in this field: 1. The absolute indicator (Es)-CO2 emission involved into service [kg CO2]; 2. The relative indicator (es)-CO2 specific emission involved into service [kg CO2/euro] . These indicators assist the companies to find the losses and to establish the efficient corrective and preventive actions, to complete environmental data base and to compare the environmental performance between different management levels. The main advantages of eco-design application are: Creativity and innovation; Low manufactured costs; Superior quality of the product; More guarantees; “Green is better sold” .

DOI 10.11648/j.es.20190404.12
Published in Engineering Science ( Volume 4, Issue 4, December 2019 )
Page(s) 59-64
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Eco-design, Electrical Equipment, Environmental Requirements, Life Cycle of Product/Service, Product Carbon Footprint, CO2 Emission, Environmental Performance Indicator

References
[1] Schischke, K., Hageluken, M., Steffenhagen, G. Eco-Design Awareness Raising Campaign for Electrical & Electronics SMEs. Fraunhofer IZM Berlin, Germany, 2014.
[2] Directive 2012/19/EU on the wastes from electrical and electronic equipment (transposed into Romanian legislation by Government Emergency Ordinance/GEO no. 5/2015).
[3] Directive 2011/65/EU on the restriction of the use of certain hazardous substances in electrical and electronic equipment (transposed into Romanian legislation by GEO no. 322/2013 and no. 234/2019).
[4] SR EN ISO 9001: 2015. Quality management systems. Requirements. ASRO, Bucharest (In Romanian).
[5] SR EN ISO 14001: 2015.Environmental management systems. Requirements. ASRO, Bucharest (In Romanian).
[6] ISO 45 001: 2018. Occupational health and safety management systems. Requirements. ASRO, Bucharest (In Romanian).
[7] Legislation and environmental regulations. Information and Documentation Office for the Environment Infoterra, 2003, Bucharest (In Romanian).
[8] SR EN ISO 14040: 2007 (Romanian version). Environmental management. Life cycle assessment. Principles and framework. ASRO, Bucharest, Second Edition, June 2008.
[9] Wenjie, Qi., Shengtao, Li., Falkingham, Leslie., Hassanzadeh Mehrdad., James, Ian. Environmentally Friendly Design for Electrical Insulation System. State Key Laboratory of Electrical Insulation and Power Equipment, Xi’an Jiaotong University, Xi’an 710049.
[10] Regulation (EC) No. 1221/2009 of the European Parliament and of the Council of 25 November on the voluntary participation by organisations in a Community eco-management and audit scheme (EMAS).
[11] Tsutsuianu, O. (2006); (2011) Environmental Performance Evaluation and Reporting. Environmental Indicators. AGIR Press, Bucharest (In Romanian).
[12] SR ISO/TR 14062/2008 (Romanian version). Environmental management. Integrating environmental aspects into product design and development. ASRO, Bucharest, First Edition, September 2008.
[13] Environmental Information and Management Explorer (EIME), 2014.
[14] Sanyé-Mengnal, E., Lozano, R.G., Farreny, R., Oliver-Solá, J., Gasol, C., Rieradevall, J. Introduction to the Eco-Design Methodology and Role of Product Carbon Footprint. Vol.1 (pp.1-24) Springer, 2014.
[15] Bessède J. L. Eco-Design in Electrical Engineering. Springer International Publishing AG, Cham, Switzerland, 2018.
[16] Romanian Government Decision no. 1043/2007 on eco-design requirements for energy-using products. The Official Gazette of Romania, 12.09.2007. (In Romanian).
[17] Pralea, J. Ecological materials used in eco-design. (In Romanian). UAGE Iassy-Romania, 2019.
[18] Amza, G. Eco-technology. Printech, Bu- charest, 2007. (In Romanian).
[19] Vasilescu, E. Eco-design of processes in materials engineering. AGIR Bulletin, no. 1, 2017, pp. 166-170. (In Romanian).
[20] Tsutsuianu, O. Environmental Performance Indicators into Maintenance Activity of Industrial Equip-ments.` Calitatea, acces la success”, [“The quality, access to success”-Romanian Magazine] 2015, no. 144, pp. 91-93 (In English).
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    Ovidiu Tsutsuianu. (2019). Theoretical and Practical Aspects of Electrical Equipment Eco-Design. Engineering Science, 4(4), 59-64. https://doi.org/10.11648/j.es.20190404.12

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    ACS Style

    Ovidiu Tsutsuianu. Theoretical and Practical Aspects of Electrical Equipment Eco-Design. Eng. Sci. 2019, 4(4), 59-64. doi: 10.11648/j.es.20190404.12

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    AMA Style

    Ovidiu Tsutsuianu. Theoretical and Practical Aspects of Electrical Equipment Eco-Design. Eng Sci. 2019;4(4):59-64. doi: 10.11648/j.es.20190404.12

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  • @article{10.11648/j.es.20190404.12,
      author = {Ovidiu Tsutsuianu},
      title = {Theoretical and Practical Aspects of Electrical Equipment Eco-Design},
      journal = {Engineering Science},
      volume = {4},
      number = {4},
      pages = {59-64},
      doi = {10.11648/j.es.20190404.12},
      url = {https://doi.org/10.11648/j.es.20190404.12},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.es.20190404.12},
      abstract = {In the last time some factors and especially the environmental protection requirements have forced to add the ecological criterion for design of electrical equipments, within a new Eco-design concept. The essence of this concept consists in the integration of environmental aspects at project phase, taking into account full life cycle of product. The work presents some theoretical and practical aspects of Eco-design for electrical equipments. Relationship between environmental management systems and Eco-design is underlined. Some key indicators for measuring the environmental performances are exemplified. The actual eco-design conception combines Qualitative Assessment of Life Cycle Criteria with a quantitative method based on the Product Carbon Footprint. The calculation of the last indicator means the quantification of the greenhouse gases emissions (kgCO2 equivalent) during the life cycle of products and services. The maintenance and repairs activities of electrical equipments have also some negative impacts on environment (directs and indirect). The author proposed, as an original contribution, two relevant environmental performance indicators in this field: 1. The absolute indicator (Es)-CO2 emission involved into service [kg CO2]; 2. The relative indicator (es)-CO2 specific emission involved into service [kg CO2/euro] . These indicators assist the companies to find the losses and to establish the efficient corrective and preventive actions, to complete environmental data base and to compare the environmental performance between different management levels. The main advantages of eco-design application are: Creativity and innovation; Low manufactured costs; Superior quality of the product; More guarantees; “Green is better sold” .},
     year = {2019}
    }
    

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    JF  - Engineering Science
    JO  - Engineering Science
    SP  - 59
    EP  - 64
    PB  - Science Publishing Group
    SN  - 2578-9279
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    AB  - In the last time some factors and especially the environmental protection requirements have forced to add the ecological criterion for design of electrical equipments, within a new Eco-design concept. The essence of this concept consists in the integration of environmental aspects at project phase, taking into account full life cycle of product. The work presents some theoretical and practical aspects of Eco-design for electrical equipments. Relationship between environmental management systems and Eco-design is underlined. Some key indicators for measuring the environmental performances are exemplified. The actual eco-design conception combines Qualitative Assessment of Life Cycle Criteria with a quantitative method based on the Product Carbon Footprint. The calculation of the last indicator means the quantification of the greenhouse gases emissions (kgCO2 equivalent) during the life cycle of products and services. The maintenance and repairs activities of electrical equipments have also some negative impacts on environment (directs and indirect). The author proposed, as an original contribution, two relevant environmental performance indicators in this field: 1. The absolute indicator (Es)-CO2 emission involved into service [kg CO2]; 2. The relative indicator (es)-CO2 specific emission involved into service [kg CO2/euro] . These indicators assist the companies to find the losses and to establish the efficient corrective and preventive actions, to complete environmental data base and to compare the environmental performance between different management levels. The main advantages of eco-design application are: Creativity and innovation; Low manufactured costs; Superior quality of the product; More guarantees; “Green is better sold” .
    VL  - 4
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    ER  - 

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Author Information
  • Energy and Environment Department, Romanian National Committee of the World Energy Council, Bucharest, Romania

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