Hänel, M.; Khurelbaatar, G.; Jespersen, E.; Upadhyay, A.; Acosta, A.; Khalil, N.; Brix, H.; Arias, C.A. Application Potential of Wastewater Fertigated Short Rotation Coppice Systems in a Selected Region (Aligarh, UP, India). Recycling2023, 8, 75.
Hänel, M.; Khurelbaatar, G.; Jespersen, E.; Upadhyay, A.; Acosta, A.; Khalil, N.; Brix, H.; Arias, C.A. Application Potential of Wastewater Fertigated Short Rotation Coppice Systems in a Selected Region (Aligarh, UP, India). Recycling 2023, 8, 75.
Hänel, M.; Khurelbaatar, G.; Jespersen, E.; Upadhyay, A.; Acosta, A.; Khalil, N.; Brix, H.; Arias, C.A. Application Potential of Wastewater Fertigated Short Rotation Coppice Systems in a Selected Region (Aligarh, UP, India). Recycling2023, 8, 75.
Hänel, M.; Khurelbaatar, G.; Jespersen, E.; Upadhyay, A.; Acosta, A.; Khalil, N.; Brix, H.; Arias, C.A. Application Potential of Wastewater Fertigated Short Rotation Coppice Systems in a Selected Region (Aligarh, UP, India). Recycling 2023, 8, 75.
Abstract
In many Indian regions increased wastewater is both a threat and an opportunity. Efficient wastewater treatment and reuse schemes are needed in India to face impending water and fertiliser shortages. This study explores the application potential of wastewater fertigated Short Rotation Coppice systems (wfSRC) as a cost-efficient and promising solution for treating and reusing wastewater in a specific region (400 km2, 184 settlements) of Aligarh (UP), India. Based on real data from a local wfSRC pilot site using bamboo, willow, and poplar, we analysed the system’s treatment performance, nutrient recovery, carbon sequestration potential, land requirements, biomass production potential, and cost-benefit, under various scenarios. The results show that the pilot wfSRC system is efficiently treating 250 m3/day of domestic wastewater on 6,864 m2 of land, and serving 2,500 people. The land requirements for wfSRC systems vary depending on local conditions and user requirements, ranging from 2.75 – 25.7 m2/PE which equates to a required land area in the whole study region of between 108 and 1006 ha in 2036. This would produce up to 100 DM t/ha/yr of valuable biomass. Early local stakeholder involvement and monitoring of pollutants are recommended as priorities during the planning process for large-scale implementation of wfSRC systems in India.
Keywords
potential of wastewater fertigated/irrigated Short Rotation Coppice/Plantation (SRC; SRP) in India; nature-based wastewater treatment & reuse systems; phytofiltration; sustainable biomass (willow; poplar; bamboo) production systems
Subject
Environmental and Earth Sciences, Water Science and Technology
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.