| Title | Potential of Mineral Fraction in Compost-Like-Output, Methods of Its Obtaining and the Possibility of Using It in the Context of Circular Economy |
|---|---|
| ID_Doc | 22900 |
| Authors | Polomka, J; Jedrczak, A |
| Title | Potential of Mineral Fraction in Compost-Like-Output, Methods of Its Obtaining and the Possibility of Using It in the Context of Circular Economy |
| Year | 2020 |
| Published | Materials, 13.0, 13 |
| Abstract | Most of the systems for the mechanical and biological treatment of waste used in Poland send the 0-80 mm fraction separated from the municipal waste stream, after biostabilization, entirely to a landfill. Such action is not in line with the adopted EU strategy focused on waste management in the circular cycle. The purpose of this work was to assess the technical feasibility of recovering the mineral fractions contained in compost-like-output (CLO) on the proprietary technological line designed for glass recovery. The research was launched in January 2019, and lasted for a subsequent 12 months. In the article, the amounts of mineral fractions possible to be separated from CLO are presented, as well as their morphological composition and selected properties being determined. The processing of CLO on the line allowed to recover on average 69.4 +/- 7.0% of the glass. This product was accepted by glass recycling plants. Mineral fractions constituting waste from the glass separation process were tested for their use in winter road maintenance. Tests were also carried out confirming the possibility of using selected mineral fractions (0-10 mm) from CLO to obtain a waste cement mix useful for constructing road foundations using a standard amount of cement. |
| https://www.mdpi.com/1996-1944/13/13/3023/pdf?version=1594047504 |
Similar Articles
| ID | Score | Article |
|---|---|---|
21466
|
Polomka, J; Dronia, W; Jedrczak, A Use of a novel water separation process for the recovery of the mineral fraction from the stabilized organic fraction found in municipal waste(2023)Waste Management & Research, 41.0, 5 | |
| 10495
|
den Boer, E; Jedrczak, A Performance of mechanical biological treatment of residual municipal waste in Poland(2017) | |
| 13393
|
Moscato, I; Munoz, DC; González, SD How To Deal With Organic Municipal Solid Waste Over-Sieve Fraction(2020)Environmental Engineering And Management Journal, 19, 10 | |
| 2562
|
Wozniak, J; Pactwa, K Overview of Polish Mining Wastes with Circular Economy Model and Its Comparison with Other Wastes(2018)Sustainability, 10, 11 | |
| 16565
|
Policastro, G; Cesaro, A Composting of Organic Solid Waste of Municipal Origin: The Role of Research in Enhancing Its Sustainability(2023)International Journal Of Environmental Research And Public Health, 20, 1 | |
| 16660
|
Burlakovs, J; Jani, Y; Kriipsalu, M; Vincevica-Gaile, Z; Kaczala, F; Celma, G; Ozola, R; Rozina, L; Rudovica, V; Hogland, M; Viksna, A; Pehme, KM; Hogland, W; Klavins, M On the way to 'zero waste' management: Recovery potential of elements, including rare earth elements, from fine fraction of waste(2018) | |
| 13382
|
Ferrotto, MF; Asteris, PG; Borg, RP; Cavaleri, L Strategies for Waste Recycling: The Mechanical Performance of Concrete Based on Limestone and Plastic Waste(2022)Sustainability, 14, 3 | |
| 16997
|
Soricu-Feodorov, C; Apostol, T; Dumitrescu, A; Cocârta, DM Sludge Recovery Through Composting: Case Study- Calarasi Sewage Treatment Plant, Romania(2024)University Politehnica Of Bucharest Scientific Bulletin Series B-Chemistry And Materials Science, 86, 2 | |
| 16919
|
Soricu-Feodorov, C; Apostol, T; Dumitrescu, A; Cocârta, DM Sludge Recovery Through Composting: Case Study - Calarasi Sewage Treatment Plant, Romania(2024)University Politehnica Of Bucharest Scientific Bulletin Series B-Chemistry And Materials Science, 86, 2 | |
| 5266
|
Lederer, J; Gassner, A; Kleemann, F; Fellner, J Potentials for a circular economy of mineral construction materials and demolition waste in urban areas: a case study from Vienna(2020) |