Journal of Korean Society for Quality Management (품질경영학회지)

Korean Society for Quality Management (한국품질경영학회)
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Study of Development of Selective Removal Adsorption Ion Exchange Resin Materials for Fabricated with Chemical-biological Cloth by QFD

QFD 기법을 이용한 특정 유해가스 노출제어 이온선택성 보호복 소재개발연구

  • Song, Hwa Seon (Department of Industrial Management Engineering, Namseoul University) ;
  • Koo, Il Seob (Department of Industrial Management Engineering, Namseoul University) ;
  • Kim, In Sik (Department of Applied Chemistry and Biological Engineering, Chungnam National University)
  • 송화선 (남서울대학교 산업경영공학과) ;
  • 구일섭 (남서울대학교 산업경영공학과) ;
  • 김인식 (충남대학교 화학공학과)
  • Received : 2015.07.03
  • Accepted : 2015.08.13
  • Published : 2015.09.30
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Abstract

Purpose: Through studying the expert's and non-experts panel responses to the questions regarding the attributes of chemical-biological protection cloth quality in terms of the levels of customer demand and technical factors has been studied. We are applied to a QFD matrix with find out the relationship between the selective removal efficiency of chemical-biological cloth and the guidelines of technical approach. Methods: We fabricated several composite of ion-exchange resins with selectively permeable performance designed to facilities water vapor transport and selective adsorption of the harmful gases. With these materials, we characterized on the selectively permeable performance to identify ion-exchange resin with chemical-biological protective cloth. Results: Results showed that ion exchange materials possessed performance with selectively efficiencies as NH3, SOx, NOx and HCl gas. The selective adsorption amount of ammonia and hydrogen gases were $90-80{\mu}g/g$ with TRILITE SCR-BH sulfonated ion exchange resin. The PP non-woven/ion exchange resin adsorbent materials possessed performance with water vapor permeability were 1,100-1,350 g/m2/day, it's was two times high value compare with activated carbon. With these materials, we characterized selectively removal efficiency to identify new ion-exchange material with chemical-biological protective capability. Conclusion: This study shows that a QFD aids in deciding with of the adsorption parameters to optimized with chemical-biological protection cloth manufacturing.

Keywords

References

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