You are here

Home » Content

ATIK KABLO MATERYALLERİNİN GERİ KAZANIMI İLE EKO-ÜRETİM VE REKABET GÜCÜNÜN SOSYAL ETKİLERLE GELİŞTİRİLMESİ

DEVELOPMENT OF ECO-PRODUCTION AND COMPETITIVENESS USING RECOVERY OF CABLE WASTE MATERIAL WITH SOCIAL IMPACTS

Journal Name:

  • Journal of Naval Sciences And Engineering

Publication Year:

  • 2011

Key Words:

Keywords (Original Language):

Author Name
Abstract (2. Language): 
The paper deals with the use of resources produced from raw materials cooper and aluminum via recycling technologies. By means of SWOT analysis and the evaluations of the proposal, it has been found that implementation eco-productive recycling technologies has significant positive impact in environmental, technological, economical and social terms.
Bookmark/Search this post with
Abstract (Original Language): 
Bu makale geri dönüşüm teknolojileri ile üretilen bakır ve aliminyum hammadelerinin kullanımı ile ilgilidir. Swot analizi uygulamaları ve öneri değerlendirmeleri ile eko-üretken geri, dönüşüm teknolojilerinin uygulanmasının çevresel,teknolojik, ekonomik ve sosyal açıdan kaydadeğer pozitif etkileri olduğu belirlenmiştir.
FULL TEXT (PDF): 
PDF icon arastirmax-atik-kablo-materyallerinin-geri-kazanimi-ile-eko-uretim-rekabet-gucunun-sosyal-etkilerle-gelistirilmesi.pdf
  • 2
46
58
  • Turkish

REFERENCES

References: 

[1] Sekito T, Tanaka N, Matsuto T. (2003), Study on composition and particle characteristics of shredded
municipal waste for the improvement of separation efficiency in a municipal bulky waste processing facility,
Waste Management and Research, 21.4: 299-308.
[2] Yoo C, Ataei A, Kim Y, Kim M J, Lui H B, Lim JJ (2010), Environmental systems engineering: A state
of the art review, Scientific Research and Essays, 20(5): 2341-2357.
[3] Brebu M, Vasile C, Rovana A S, Chiriac M, Precup M, Yang J, Roy C. (2000) Study of the natural ageing
of PVC insulation for electrical cables, Polymer Degradation and Stabilit,. 67(2): 209-21.
[4] Kertscher E. (1994), Recycling of cable waste, Wire Industry, 61.721: 40-2.
[5] Mweta D E, Akinnifesi F K, Saka J D K, Makumba W, Chokotho N. (2007), Green manure from prunings
and mineral fertilizer affect phosphorus adsorption and uptake by maize crop in a gliricidia-maize
intercropping, Scientific Research and Essays, 2(10): 446-453.
[6] Isa H. (2008), The need for waste management in the glass industries: A review, Scientific Research and
Essays, 7(3): 276-279.
[7] Paksoy T. (2010), Optimizing a supply chain network with emission trading factor, Scientific Research
and Essays, 20(5): 2535-2546.
[8] Deniz B, Sirin U. (2010), A study of ecological integrity based on native plants in Kusadasi (Turkey)
urban area and surrounding natural environment, Scientific Research and Essays, 14(5): 1820-1828
[9] Medles K. et al. (2007), Experimental modeling of the electrostatic separation of granular materials,
Particulate Science and Technology, 25(2): 163-71.
[10] Koyanaka S., et al. (1997), Recovering copper from electric cable wastes using a particle shape separation
technique, Advanced Powder Technology, 8.2: 103-11.
[11] Kadous N. et al. (2005), Optimization of the electrostatic separation process using the design of
experiments methodology, Materials Technolog, 20.(3): 156-60.
[12] Lee S-H. (2010), An analysis of technology market from the perspective of technology life cycle, African
Journal of Business Management, 4 (17): 3641 – 3654.
[13] Jakab E, Blazsó M. (2002), The effect of carbon black on the thermal decomposition of vinyl polymers,
Journal of Analytical and Applied Pyrolysis, 64.(2): 263-77.
[14] Hughes D. (1976), Recovery of copper and aluminum from cable wastes, Drahtwelt, 62(3): 99-102.
[15] Cui J, Forssberg E. (2007), Characterization of shredded television scrap and implications for materials
recovery, Waste Management, 27(3): 415-24.
[16] Cabling Insight http: //www.nexans.com/eservice / Corporateen / navigate_236352/Cabling_Insight.html>
[accessed 5 september 2009]

Thank you for copying data from http://www.arastirmax.com