Balasundaram, GowthamVidyarthi, Praveen KumarGahlot, PallaviArora, PrathamKumar, VinodKumar, ManishKazmi, A. A.Tyagi, Vinay Kumar2022-06-162022-06-162022-05-26Balasundaram G, Vidyarthi PK, Gahlot P, et al., (2022) Energy feasibility and life cycle assessment of sludge pretreatment methods for advanced anaerobic digestion, Bioresource Technology, Volume 357, August 2022, Article number 1273450960-8524https://doi.org/10.1016/j.biortech.2022.127345http://dspace.lib.cranfield.ac.uk/handle/1826/18035Energy sustainability is one of the critical parameters to be studied for the successful application of pretreatment processes. This study critically analyzes the energy efficiency of different energy-demanding sludge pretreatment techniques. Conventional thermal pretreatment of sludge (∼5% total solids, TS) produced 244 mL CH4/gTS, which could result in a positive energy balance of 2.6 kJ/kg TS. However, microwave pretreatment could generate only 178 mL CH4/gTS with a negative energy balance of −15.62 kJ/kg TS. In CAMBI process, the heat requirements can be compensated using exhaust gases and hot water from combined heat and power, and electricity requirements are managed by the use of cogeneration. The study concluded that <100 ℃ pretreatment effectively enhances the efficiency of anaerobic digestion and shows positive energy balance over microwave and ultrasonication. Moreover, microwave pretreatment has the highest global warming potential than thermal and ultrasonic pretreatments.enAttribution-NonCommercial-NoDerivatives 4.0 Internationalhttp://creativecommons.org/licenses/by-nc-nd/4.0/Thermal pretreatmentMicrowaveUltrasonicationMethaneEnergy analysisArticle1873-2976