TY - JOUR
T1 - Rheological properties of thermally treated and digested sludge
T2 - Implications for energy requirements of pumps and agitators
AU - Rossano-Becerril, Sergio
AU - Sleutels, Tom
AU - Krooneman, Janneke
AU - Euverink, Gerrit Jan Willem
PY - 2024/7/26
Y1 - 2024/7/26
N2 - Understanding sludge rheology and optimizing equipment performance is crucial for energy efficiency in wastewater treatment plants (WWTPs). This study examined sludge rheology after thermal hydrolysis pretreatment (THP) at 60, 80, and 120 ◦C for 2 h, followed by anaerobic digestion (AD) at 37 ◦C for 20 days, and assessed impacts on pump and agitator performance. Post-treatment, sludge showed reduced viscosity and improved flowability, indicated by changes in Herschel-Bulkley parameters, enhancing pump and agitator efficiency, particularly at 120 ◦C. These rheological improvements were correlated to the solubilization of sludge components after THP and solids reduction after AD, highlighting the interconnectedness of rheology and treatment outcomes. Despite high heat demands, an energy balance showed that THP scenarios, especially at 120 ◦C, had lower energy requirements for pumps and agitators, leading to energy savings without increased heat consumption. These findings underscore the influence of rheological changes in improving energy efficiency in WWTPs.
AB - Understanding sludge rheology and optimizing equipment performance is crucial for energy efficiency in wastewater treatment plants (WWTPs). This study examined sludge rheology after thermal hydrolysis pretreatment (THP) at 60, 80, and 120 ◦C for 2 h, followed by anaerobic digestion (AD) at 37 ◦C for 20 days, and assessed impacts on pump and agitator performance. Post-treatment, sludge showed reduced viscosity and improved flowability, indicated by changes in Herschel-Bulkley parameters, enhancing pump and agitator efficiency, particularly at 120 ◦C. These rheological improvements were correlated to the solubilization of sludge components after THP and solids reduction after AD, highlighting the interconnectedness of rheology and treatment outcomes. Despite high heat demands, an energy balance showed that THP scenarios, especially at 120 ◦C, had lower energy requirements for pumps and agitators, leading to energy savings without increased heat consumption. These findings underscore the influence of rheological changes in improving energy efficiency in WWTPs.
KW - thermal hydrolysis pre-treatment
KW - Sludge Herschel-Bulkley parameters
KW - sludge processing efficiency
KW - process energy reduction
KW - thermische hydrolyse voorbehandeling
KW - slib Herschel-Bulkley-parameters
KW - efficiëntie van de slibverwerking
KW - reductie van procesenergie
U2 - 10.1016/j.biortech.2024.131153
DO - 10.1016/j.biortech.2024.131153
M3 - Article
SN - 1873-2976
VL - 408
JO - Bioresource Technology
JF - Bioresource Technology
ER -