# Environmentally friendly polymers are used to enhance the water retention capacity of waste residue and the potential for vegetation growth

**Authors:** Jun Kang Zhao, Qun Chen, Lu Li, Cheng Zhou, Ting Quan He, Muammar Qadafi, Muammar Qadafi, Muammar Qadafi

PMC · DOI: 10.1371/journal.pone.0332470 · 2025-11-14

## TL;DR

A water-retaining polymer improves the ability of waste residue to hold water, promoting better plant growth in previously inhospitable conditions.

## Contribution

Modified hydrophilic polyurethane (W-OH) is introduced as an effective, eco-friendly solution to enhance water retention and plant growth in waste residue.

## Key findings

- 3% W-OH treatment significantly increased volumetric water content and prolonged drying time compared to untreated waste residue.
- W-OH forms a dense membrane around residue particles, reducing large pores and enhancing capillary water storage.
- Plant growth tests showed improved growth parameters for Amorpha fruticosa in 3% W-OH-treated residue.

## Abstract

The large pores and lack of water storage capacity limit the ecological rehabilitation of the waste residue. Modified hydrophilic polyurethane (W-OH) was used to improve the water retention of the residue. The water retention capacity of residues with different mass concentrations (1%, 3%, and 5%) of W-OH solution based on water mass was evaluated for several drying-wetting (D-W) cycles at 30°C and 50°C. The plant growth experiment investigated the plant growth status of waste residue before and after adding W-OH, to demonstrate the excellent water retention of W-OH under the same waste residue. Infiltration tests showed that W-OH effectively increased the volumetric water content (VWC) of waste residue and reduced its drying time. Untreated residue had 11.62% saturated initial VWC and 152 h drying time; 3% and 5% W-OH groups showed similar results (17.63%−18.09% VWC, 288–304 h drying time), so 3% W-OH is recommended for less usage. After 4 dry-wet cycles, both groups had reduced VWC and drying time. However, the 3% W-OH-treated residue still exhibited better water retention. A dense membrane is formed by W-OH solution around waste residue particles, enclosing/connecting particles, filling pores (reducing large ones), increasing capillary water storage, and hindering water evaporation. Degraded by more D-W cycles and higher temperature, the membrane weakens water retention, yet W-OH-treated residue still has better water retention than the untreated residue. Water retention of improved waste residue was enhanced, and plant growth promoted, per plant growth tests. After 21-day planting, Amorpha fruticosa in 3% W-OH-treated residue had better growth parameters than in untreated residue. This means that the waste grade treated with 3% W-OH can provide more water for plants to meet their growth needs.

## Linked entities

- **Chemicals:** W-OH (PubChem CID 168654802)
- **Species:** Amorpha fruticosa (taxon 48131)

## Full-text entities

- **Chemicals:** W-OH (-), polyurethane (MESH:D011140), polymers (MESH:D011108), Water (MESH:D014867)

## Figures

22 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12617928/full.md

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Source: https://tomesphere.com/paper/PMC12617928