Sustainable approach to zeolite agglomeration for petroleum spill management - Agglomeration and deagglomeration integrated in one HPGR system

Ewelina Pabiś-Mazgaj^1*, Tomasz Gawenda², Agata Stempkowska²

1 Łukasiewicz Research Network – Institute of Ceramics and Building Materials, Cementowa 8 Str., 31-983 Krakow, Poland

2 AGH University of Kraków, Faculty of Civil Engineering and Resource Management, Department of Environmental Engineering Mickiewicza 30 Av., 30-059 Krakow, Poland

* Corresponding authors emails: ewelina.pabis-mazgaj@icimb.lukasiewicz.gov.pl

DOI10.24435/materialscloud:x5-dk [version v1]

Publication date: Mar 10, 2025

How to cite this record

Ewelina Pabiś-Mazgaj, Tomasz Gawenda, Agata Stempkowska, Sustainable approach to zeolite agglomeration for petroleum spill management - Agglomeration and deagglomeration integrated in one HPGR system, Materials Cloud Archive 2025.36 (2025), https://doi.org/10.24435/materialscloud:x5-dk

Description

This study proposes an eco-friendly approach to zeolite agglomeration for petroleum sorbents. The novelty lies in integrating agglomeration and deagglomeration within a single high-pressure grinding roll (HPGR) system, enhancing sorption capacity by creating a secondary porosity network. This eliminates energy-intensive calcination, making it a sustainable alternative to wet granulation. We examine the impact of binder and water dosages on sorption capacity, mechanical resistance, and textural properties of roll-compacted zeolite agglomerates. Feed materials were characterized using N₂ adsorption, XRD, XRF, particle size distribution, and SEM. Structural and functional properties were assessed via mercury intrusion porosimetry, petroleum sorption efficiency (Westinghouse test), sorption capacity, gravitational drop tests, and SEM. All sorbents (0.5–1 mm) met the 50 wt.% oil absorbency threshold for petroleum spill cleanup in Poland. The fabricated zeolite agglomerates exhibited superior sorption capacities compared to zeolite powder, Na-P1, and commercial sorbents. The optimal feed composition yielded sorbents with the best properties and versatile performance. An analysis of sorption characteristics and pore size distribution showed that a higher proportion of 10–100 µm pores improved efficiency. This study addresses the knowledge gap in zeolite powder agglomeration and demonstrates the effectiveness of integrating agglomeration and deagglomeration in a high-pressure roller press.

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File name	Size	Description
Repository -XRD data.zip MD5md5:1e8b1803e65f2ad8da5463584f7f60aa	270.9 KiB	In situ XRD data
powder_zeolite_xrd.txt MD5md5:09629b8ab78ef85a8dd62343788ba7bf	41.1 KiB	powder_zeolite_XRD_data_Intensity_
powder_binder_xrd.txt MD5md5:c35495892ba37d329cdce3d4d760581c	40.8 KiB	powder_zeolite_XRD_data_Intensity

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Files and data are licensed under the terms of the following license: Creative Commons Attribution 4.0 International. Data deposited for the purpose of submitting the article to the Nature Springer Scientific Reports journal.
Metadata, except for email addresses, are licensed under the Creative Commons Attribution Share-Alike 4.0 International license.

External references

Preprint (Preprint where the data is discussed)

Pabiś-Mazgaj, Ewelina and Gawenda, Tomasz and Stempkowska, Agata, Sustainable approach to zeolite agglomeration for petroleum spill management -Agglomeration and deagglomeration integrated in one HPGR system (February 03, 2025) (submitted)

Keywords

XRD data Natural zeolite powder Binder powder

Version history:

2025.36 (version v1) [This version]	Mar 10, 2025	DOI10.24435/materialscloud:x5-dk

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