物理的再生法によるPETボトルリサイクルにおける汚染物質除去効果

  • 上新原 十和
    サントリービジネスエキスパート株式会社品質保証本部安全性科学センター
  • 但馬 良一
    サントリービジネスエキスパート株式会社品質保証本部安全性科学センター
  • 齋藤 義弘
    サントリービジネスエキスパート株式会社SCM本部新包材技術開発推進部
  • 原田 雅己
    サントリービジネスエキスパート株式会社品質保証本部安全性科学センター
  • 古澤 栄一
    協栄産業株式会社
  • 金丸 敦
    協栄産業株式会社

書誌事項

タイトル別名
  • Evaluation of cleaning efficiency of contaminants in mechanical recycle of PET bottle
  • ブツリテキ サイセイホウ ニ ヨル PET ボトルリサイクル ニ オケル オセン ブッシツ ジョキョ コウカ

この論文をさがす

抄録

Polyethylene terephthalate (PET) bottle is widely used for food packaging. The ratio of PET bottle in the beverage packages is as much as 64.9%, so we should develop sustainable PET bottles from the viewpoint of environmental impact reduction. In this study, we estimated the cleaning efficiency of mechanical recycle system of commercial plant, and the direct food contact impact in the application of mechanical recycled PET bottles in accordance with the FDA guidance. The contaminated PET flakes were prepared artificially with eight surrogate contaminants, namely N-methylpyrrolidone, 2-(2-bufhoxyethoxy)ethanol, diethylketone, toluene, benzophenone, naphthalene, phenylcyclohexane, and decane, in the level from 44 to 23000 mg/kg. The contaminated flakes were added by the ratio of 1% to non-contaminated flakes, and they were processed in the real plant of mechanical recycle. As a result, the cleaning efficiency throughout all processes was from 95.1 to 99.8%. And in the analysis of relationship between the cleaning efficiency and the physical properties of contaminants, we determined good regression equations in alkaline washing and vacuum melt extrusion. Additionally migration test was carried out by using beverage or liquor simulant stored for three months in the bottles manufactured from the resin processed in the prior test. As a result, any surrogates were not detected, and it satisfied the FDA's migration limit of 10μg/L.

収録刊行物

参考文献 (13)*注記

もっと見る

詳細情報 詳細情報について

問題の指摘

ページトップへ