Sustainable industrial technology for recovery of cellulose from banknote production waste and reprocessing into cellulose nanocrystals
Autor: | Samy Zein El-Abden, Maksym Tatariants, Arunas Baltusnikas, Samy Yousef, Simona Tuckute, Mohamed S. Hamdy, Linas Kliucininkas |
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Rok vydání: | 2019 |
Předmět: |
Economics and Econometrics
Banknote Waste management 0211 other engineering and technologies 02 engineering and technology 010501 environmental sciences Reuse 01 natural sciences Incineration chemistry.chemical_compound Industrial technology chemistry Leaching (chemistry) Hazardous waste Sustainable design Environmental science 021108 energy Cellulose Waste Management and Disposal 0105 earth and related environmental sciences |
Zdroj: | Resources, Conservation and Recycling. 149:510-520 |
ISSN: | 0921-3449 |
DOI: | 10.1016/j.resconrec.2019.06.026 |
Popis: | Banknote printing is the industry that has a deep influence on financial operations on market, reflecting the economic performance of governments. Therefore, it is surrounded by a great secrecy even when dealing with production waste and end-of-life products, which are utilized very carefully by controlled combustion or incineration after crushing using special techniques designed to ensure that the waste does not come into possession by third parties. This waste contains significant amounts of cotton, percentage of which sometimes can reach up to 100% of the weight of banknote paper. It is clear that disposal of such waste by simply incinerating it is contrary to the principles of sustainability and preservation of resources. In order to achieve these principles, this research aims to develop a new strategy called “Banknote for Banknote (BFB)” to recover and refine cotton from Banknote waste and later reuse it in the production of banknote paper or reprocess it into cellulose nanocrystals suitable for use in many advanced applications through a sustainable technology. The experiments were performed only on the Banknote Production Waste (BPW) (which is estimated as ˜3% of the total volume of Banknote production) because the end-of-life banknotes are usually contaminated with many substances during the circulation. Some of them can become hazardous to the extent of being contaminated with drugs (e.g. cocaine, etc.); that requires many additional analyses and special treatment. In the developed technology BPW was treated by using five sequential processes that were selected based on the banknote design, structure, need to reach minimum gas emissions and high recovery rate. The technology began from crushing treatment at the Central Bank for safety reasons, then leaching process was used to dissolve the heavy metals from the ink layer (Al, Fe, Ni, etc.) and separate other pigment metal elements (Si, Ti, etc.) in the form of suspended particles, while the dissolution and bleaching stages were employed to dissolve the remaining organic components and purify the cotton substrate. Finally, acid hydrolysis was used to prepare Cellulose nanocrystals with average size 75 nm from the purified cotton. Although the experiments were conducted on Egyptian Banknote, the advanced technology is applicable to all types of cotton based-banknotes with high profitability. |
Databáze: | OpenAIRE |
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