Abstract:
Pharmaceutically active compounds (PhAC) are pervasive in aqueous environments, and their presence poses an ever-increasing threat to aquatic creatures and all associated living forms. Most PhACs are extremely hydrophilic and have a complicated molecular structure, preventing them from being destroyed by traditional wastewater treatment methods. In addition, these contaminants are present at such a low concentration that their detection poses a significant challenge. Researchers have utilized advanced oxidation processes to degrade these chemicals over time. However, most studies have been conducted on the lab scale and do not function well for real wastewater since many interfering substances are present. In addition, these techniques are expensive and result in the production of harmful byproducts. To combat the PhACs, it is vital to develop a sustainable economic strategy. This book chapter discusses the occurrence of PhACs in wastewater, their potential environmental impacts, and the necessary procedures for accurately quantifying these compounds. The book addresses the possibilities of biological systems, such as constructed wetlands (CW) and bioelectrochemical systems (BES), in the hunt for a sustainable method of eliminating PhACs. CWs have been selected because they are robust systems with several simultaneous removal mechanisms. BES have also demonstrated considerable potential for treating these substances in wastewater and producing bioelectricity. In addition, the chapter discusses an emerging technology, that is, hybrid CW–BES systems, which utilize the benefits of both CW and BES and may prove to be an efficient approach to treating wastewater, removing PhACs, and generating electricity simultaneously.