Publications

Selected Referred Journal Publications

  1. J. A Donatelli, S. Chang, (2024) Biological methane potentials of food waste of different components: Methane yields, production kinetics, and element balance, Bioresource Technology 413, 131435
  2. M, Ghasemi, S, Chang, S. Sivaloganathan, (2024) Exploring aeration strategies for enhanced simultaneous nitrification and denitrification in membrane aerated bioreactors: a computational approach, Bulletin of Mathematical Biology 86 (9), 117.
  3. M. Wang, H. Chen, S. Chang, (2024) Investigation of volatile fatty acids production in biological hydrolysis of waste activated sludge via microbial community network and fermentation pathway analyses, Journal of Environmental Chemical Engineering 12 (2), 112056.
  4. Y. Liu, S, Chang. (2023) Effect of temperature phased biological hydrolysis treatment on solubilization of wasted activated sludge, Environmental Technology & Innovation. 32, 103257.
  5. B. Wang, M. Smith, Y. Liu, V. Pileggi, S. Chang, (2023) Microplastic isolation method for wastewater and sludge samples by removal of excess organic and inorganic interferences, Chemosphere.329 138625.
  6. S. Chang, B. Wang, V. Pileggi. (2023) Feasibility of Maximum Probable Number method for the quantification of microplastics in environmental samples. Water Research, 229. 119405.
  7. M. Ghasemi, S. Chang, S. Sivaloganathan. (2023) Modelling and simulation study of simultaneous nitrification-denitrification in membrane aerated bioreactor. Journal of Membrane Science 668. 121210.
  8. M. Wang, H. Chen, S. Chang. (2022). Impact of combined biological hydrolysis and anaerobic digestion temperatures on the characteristics of bacterial community and digestate quality in the treatment of wastewater sludge. Bioresource Technology, 362: 127796. 
  9. B. B. Mehari, S. Chang, (2022) Enhancing temperature-phased biological hydrolysis for methane generation by the optimization of biological hydrolysis time, inoculum, and sludge bypass, Biochemical Engineering Journal 180. 108363.
  10. Y. Liu, B. Wang, V. Pileggi, S. Chang, (2022) Methods to recover and characterize microplastics in wastewater treatment plants, Case Studies in Chemical and Environmental Engineering 5. 100183.
  11. M. Ghasemi, S. Chang, Sivabal Sivaloganathan, (2021) Development of an integrated ultrasonic biofilm detachment model for biofilm thickness control in membrane aerated bioreactors, Applied Mathematical Modelling 100 596–611.
  12. P. Innes, S. Chang, and Md. S. Rahaman, (2021) Treatment of effluent of Upflow anaerobic sludge blanket bioreactor for water reuse, Water, 13 (15), 2123.
  13. H. Chen, H. Wang, R. Chen, S, Chang, Y. Yao, et al.  (2021) Unveiling performance stability and its recovery mechanisms of one-stage partial nitritation-anammox process with airlift enhanced micro-granules, Bioresource Technology. 330. 124961.
  14. M. Wang, H. Chen, S. Chang, (2021) Linkage among the combined temperature –retention time condition, microbial interaction, community structure, and process performance in the hydrolysis of waste activated sludge, Bioresour Technol. 331:125029.
  15. M. Ghasemi, S. Chang, H. Eberl, J. Sivaloganathan (2021) Simulation of composition and mass transfer behavior of a membrane biofilm reactor using a two-dimensional multi-species counter-diffusion model, Journal of Membrane Science 618 118636.
  16. H. Ding, Kotova, H., Shaw, P., Y. Hong, S. Chang, (2020) Impacts of temperature and solids retention time, and possible mechanisms of biological hydrolysis pretreatment on Anaerobic Digestion, Water. 12(11), 3166.
  17. S. Chang, J. Filer. (2020) Thermal hydrolysis to enhance anaerobic digestion performance, Current Pollution Reports (6), 452–467.
  18. H. Chen, M. Wang, S. Chang (2020) Disentangling community structure of ecological system in activated sludge: core communities, Functionality, and functional redundancy. Microbial Ecology 80 (2):1-13.
  19. H. Chen, S. Chang. (2020) Dissecting methanogenesis for temperature-phased anaerobic digestion: Impact of temperature on community structure, correlation, and fate of methanogens. Bioresource Technology 306.123104.
  20. H. Chen, Y. W. C. Xie, H. Wang, S. Chang, Y. Xiong, C. Du, B. Xiao, G. Yu. (2020) Anaerobic treatment of glutamate-rich wastewater in a continuous UASB reactor: Effect of hydraulic retention time and methanogenic degradation pathway. Chemosphere.245. 125672.
  21. J. Filer, H. H. Ding, S. Chang, (2019) Biochemical methane potential (BMP) assay method for anaerobic digestion research, Water, 11 (5), 921.
  22. B. Mehari, S. Chang, Y. Hong, H. Chen, (2018) Temperature-Phased biological hydrolysis and thermal hydrolysis pretreatment for anaerobic digestion performance Enhancement, Water (3.166), 10 (12), 1812.
  23. H. Chen, S. Chang, (2017) Impact of temperatures on microbial community structures of sewage sludge biological hydrolysis. Bioresource Technology, 245 (A) 502-510.
  24. H. Ding, S. Chang, Y. Liu, (2017) Biological hydrolysis pretreatment on secondary sludge: enhancement of anaerobic digestion and mechanism study. Bioresource Technology, 244(1), 989-995.
  25. Q. Guo, S. Chang, Tetra-detector size exclusion chromatography characterization of molecular and solution properties of soluble microbial polysaccharides from an anaerobic membrane bioreactor, (2017) Front. Environ. Sci. Eng. 11(2): 16-26.