Leather-based fertilizers from Personal Protective Equipment (PPE) reverse logistics: Technical efficiency and environmental safety

IF 5.4 Q1 ENVIRONMENTAL SCIENCES Resources, conservation & recycling advances Pub Date : 2023-10-01 DOI:10.1016/j.rcradv.2023.200153

Rosane Martinazzo , Camila Ariana Muller , Luciana Costa Teixeira , Lizete Stumpf , William Rodrigues Antunes , Lisiane Emilia Grams Metz , Ricardo Alexandre Valgas , Adilson Luís Bamberg , Carlos Augusto Posser Silveira

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Abstract

Agriculture and industry are seeking healthy food and enough goods to meet the global demand without causing environmental impacts, which motivates the search for sustainable and eco-efficient technologies. This study focuses on reverse logistics in the Personal Protective Equipment (PPE) industry. Chrome-tanned leather shavings from the manufacture of PPE and post-use leather PPE were used to produce leather-based fertilizers (LBFs), which were evaluated for their agronomic efficiency and food safety. N-rich liquid LBFs were successfully produced through hydrolysis, either with or without previous chromium extraction. At the dose of maximum technical efficiency, LBFs are safe, with acceptable levels of Cr in the plant biomass and the soil compartments. However, LBF overdoses promote Cr accumulation in plants and soils, which demonstrates the need for a rigorous control over the fertilization management to ensure successful PPE reverse logistics.

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来自个人防护装备(PPE)逆向物流的皮革肥料:技术效率和环境安全

农业和工业正在寻求健康的食品和足够的商品，以满足全球需求，而不造成环境影响，这促使人们寻求可持续和生态高效的技术。本研究聚焦于个人防护装备(PPE)行业的逆向物流。利用生产个人防护用品和使用后皮革生产的铬鞣皮革屑生产革基肥料，并对其农艺效率和食品安全性进行了评价。通过水解成功制备了富n液体LBFs，无论是否预先提取铬。在最大技术效率的剂量下，lbf是安全的，植物生物量和土壤隔间中的铬含量可接受。然而，LBF过量会促进植物和土壤中Cr的积累，这表明需要严格控制施肥管理，以确保PPE逆向物流的成功。

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