| Title | Recent advances in the adsorptive removal of heavy metals from acid mine drainage by conventional and novel materials: A review |
|---|---|
| ID_Doc | 6580 |
| Authors | Wibowo, YG; Taher, T; Khairurrijal, K; Ramadan, BS; Safitri, H; Sudibyo, S; Yuliansyah, AT; Petrus, HTBM |
| Title | Recent advances in the adsorptive removal of heavy metals from acid mine drainage by conventional and novel materials: A review |
| Year | 2024 |
| Published | |
| Abstract | Coal mining activities have widespread and detrimental effects on the environment and human health, primarily attributable to the generation of acid mine drainage (AMD). AMD is characterized by its low pH and high heavy metal content, posing significant risks to ecosystems and human populations alike. Extensive research has focused on the adsorption-based removal of heavy metals from AMD, involving the development of both conventional and innovative materials aimed at addressing this challenge. However, the practical application of these materials faces obstacles such as limited availability, complex preparation processes, and sensitivity to pH conditions. Effectively addressing this issue requires the identification of cost-effective and abundant materials that demonstrate consistent efficacy across diverse environmental conditions. Additionally, considering the potential for reusability and integration within a circular economy framework is crucial. This study offers a comprehensive overview of the current research landscape pertaining to heavy metal removal from AMD through adsorption. It includes a systematic categorization of heavy metals, an examination of their environmental and human health impacts, a comparative analysis of the performance of conventional and novel materials, an exploration of the influence of material preparation techniques and solution pH, and an assessment of the potential for reusability and circular economy integration. By consolidating and analyzing existing knowledge, this study provides valuable insights and serves as a valuable resource for researchers engaged in heavy metal removal from AMD. Moreover, it addresses significant knowledge gaps in this field, contributing to the advancement of sustainable solutions for AMD mitigation and environmental protection. |
Similar Articles
| ID | Score | Article |
|---|---|---|
28997
|
Masindi, V; Foteinis, S; Renforth, P; Ndiritu, J; Maree, JP; Tekere, M; Chatzisymeon, E Challenges and avenues for acid mine drainage treatment, beneficiation, and valorisation in circular economy: A review(2022) | |
| 22055
|
Abidli, A; Huang, YF; Ben Rejeb, Z; Zaoui, A; Park, CB Sustainable and efficient technologies for removal and recovery of toxic and valuable metals from wastewater: Recent progress, challenges, and future(2022) | |
| 19733
|
Jadaa, W Wastewater Treatment Utilizing Industrial Waste Fly Ash as a Low-Cost Adsorbent for Heavy Metal Removal: Literature Review(2024)Clean Technologies, 6.0, 1 | |
| 9956
|
Simón, D; Palet, C; Costas, A; Cristóbal, A Agro-Industrial Waste as Potential Heavy Metal Adsorbents and Subsequent Safe Disposal of Spent Adsorbents(2022)Water, 14.0, 20 | |
| 26434
|
Ranaweera, KH; Grainger, MNC; French, AD; Mucalo, MR Construction and demolition waste repurposed for heavy metal ion removal from wastewater: a review of current approaches(2023)International Journal Of Environmental Science And Technology, 20, 8 | |
| 22194
|
Vecino, X; Reig, M; López, J; Valderrama, C; Cortina, JL Valorisation options for Zn and Cu recovery from metal influenced acid mine waters through selective precipitation and ion-exchange processes: promotion of on-site/off-site management options(2021) | |
| 25929
|
Hussain, MK; Khatoon, S; Nizami, G; Fatma, UK; Ali, M; Quraishi, A; Singh, B; Assiri, MA; Ahamad, S; Saquib, M Unleashing the power of bio-adsorbents: Efficient heavy metal removal for sustainable water purification(2024) | |
| 23979
|
Costa, ETS; Guilherme, LRG; Lopes, G; de Lima, JM; Ono, FB; Curi, N Comparing the sorptive affinity of an aluminum-mining by-product for cationic and anionic pollutants(2021)International Journal Of Environmental Science And Technology, 18, 5 | |
| 2122
|
Madela, M; Skuza, M Towards a Circular Economy: Analysis of the Use of Biowaste as Biosorbent for the Removal of Heavy Metals(2021)Energies, 14, 17 | |
| 15128
|
Sanchez-Ramos, D; Garrido, FJLB; Hernández, IA; Romero, LR; Camacho, JV; Fernández-Morales, FJ Sustainable use of wastes as reactive material in permeable reactive barrier for remediation of acid mine drainage: Batch and continuous studies(2023) |