1. Zero liquid discharge solutions;Ahirrao,2014

2. Evaluation of operational parameters from a microfiltration system for indigo blue dye recovery from textile dye effluent;Amaral;Desalination and Water Treatment,2014

3. Baboo, P. (2015). Technical paper, effluent treatment and biohydrolyser for ammonia and urea plant waste streams. UreaKnowHow.com, https://www.researchgate.net/profile/Prem-Baboo/publication/283619633_Effluent_Treatment_and_Biohydrolyser_for_Ammonia_and_Urea_Plant_waste_streams/links/5641709c08aeacfd89365d57/Effluent-Treatment-and-Biohydrolyser-for-Ammonia-and-Urea-Plant-waste-streams.pdf. Accessed on 14th January 2023.

4. Bahadur, N. (2019). Policy brief. TERI advanced oxidation technology (Tadox) to treat textile and dyeing wastewater, achieve zero liquid discharge, and enhance water reuse: R&D-based policy recommendations. New Delhi, India: The Energy and Resources Institute (TERI). https://www.teriin.org/sites/default/files/2021-03/textile-dyeing-wastewater.pdf. Accessed on 3rd December 2022.

5. Novel pilot scale photocatalytic treatment of textile and dyeing industry wastewater to achieve process water quality and enabling zero liquid discharge;Bahadur;Journal of Water Process Engineering,2019