1. S. Khanam and B. Mohanty, “Synthesis of mass exchange network using Supertargeting approach” Indian Chemical Engineer, 47 (2005) 8-12. (IF:1.091)
2. S. Khanam and B. Mohanty, “Mass Integration for Recovery of Zinc from Galvanizing and Metal Finishing Industry Using Supertargeting Approach”, Indian Journal of Chemical Technology, 13 (2006) 378-385. (IF:0.76)
3. S. Khanam and B. Mohanty, “A Process Integration based Approach for the Analysis of Evaporator System”, Chemical Engineering and Technology, 30 (2007)1659-1665. (IF: 2.215)
4. R. Bhargava, S. Khanam, B. Mohanty and A.K. Ray, “Mathematical model for a multiple effect evaporator system with condensate-, feed- and product- flash and steam splitting”, Indian Journal of Chemical Technology, 15 (2008) 118-129. (IF:0.76)
5. R. Bhargava, S.Khanam, B. Mohanty and A.K. Ray, “Selection of optimal feed flow sequence for a multiple effect evaporator system”, Computers and Chemical Engineering, 32 (2008) 2203–2216. (IF:4.13)
6. R. Bhargava, S.Khanam, B. Mohanty and A.K. Ray, “Simulation of flat falling film evaporator system for concentration of black liquor”, Computers & Chemical Engineering, 32 (2008) 3213–3223. (IF:4.13)
7. B.B. Gulyani, S. Khanam and B. Mohanty, “A New Approach for Shell Targeting of A Heat Exchanger Network”, Computers & Chemical Engineering, 33 (2009) 1460-1467. (IF:4.13)
8. S. Khanam and B. Mohanty, “Energy reduction schemes for multiple effect evaporator systems”, Applied Energy, 87 (2010) 1102-1111. (IF:11.446)
9. A. Kumar, G. Gautami and S. Khanam, “Hydrogen distribution in the refinery using mathematical modeling”, Energy, 35 (2010) 3763-3772. (IF:8.857)
10. S. Khanam and B. Mohanty, “Placement of condensate flash tanks in a multiple effect evaporator system”, Desalination, 262 (2010) 64-71. (IF: 11.211)
11. S. Khanam and B. Mohanty, “Development of a new model for multiple effect evaporator system”, Computers & Chemical Engineering, 35 (2011) 1983-1993. (IF:4.13)
12. A.K Prasad, R.K. Prasad and S. Khanam, “Development of energy conservations scenarios for sponge iron industry using process integration”, Energy Efficiency, 4 (2011) 321-333. (IF:3.134)
13. A.K. Prasad, R.K. Prasad and S. Khanam, "Design Modifications for Energy Conservation of Sponge Iron Plants”, Journal of Thermal Science and Engineering Applications, 3 (2011) 015001-1 to 015001-11. (IF: 1.879)
14. G. Gautami and S.Khanam, “Selection of optimum configuration for multiple effect evaporator system”, Desalination, 288 (2012)16-23. (IF:11.211)
15. V. Kumar and S.Khanam, “Recovery and utilisation of waste heat in a coal based sponge iron process”, Chemical Engineering and Processing: Process Intensification, 56 (2012) 19–28. (IF:4.264)
16. G. Jyoti and S.Khanam, “Simulation of Heat Integrated Multiple Effect Evaporator System”, International Journal of Thermal Sciences, 76 (2014) 110-117. (IF:4.779)
17. N. Jhaveri, B. Mohanty and S. Khanam, "Mathematical modeling and optimization of hydrogen distribution network used in refinery", International Journal of Hydrogen Energy, 39 (2014) 339-348. (IF: 7.139)
18. R. Wadhwani, B. Mohanty and S. Khanam, "Optimization of amount of chemical dosage to improve the performance of Dissolved Air Flotation unit", Separation Science and Technology, 50 (2015) 1038–1049. (IF:2.799)
19. R. D Souza, S. Khanam and B. Mohanty, “Synthesis of heat exchanger network considering pressure drop and layout of equipment exchanging heat”, Energy, 101 (2016)484-495. (IF: 8.857)
20. G.K. Gaurav and S.Khanam, “Analysis of temperature profile and % metallization in rotary kiln of sponge iron process through CFD”, Journal of the Taiwan Institute of Chemical Engineers, 63 (2016) 473-481. (IF: 5.477)
21. G.K. Gaurav and S. Khanam, “Computational fluid dynamics analysis of sponge iron rotary kiln”, Case Studies in Thermal Engineering, 9 (2017) 14–27. (IF: 4.010)
22. G.K. Gaurav and S. Khanam, “Profitability analysis of power generation using waste heat of sponge iron process”, Energy, 141 (2017) 333-347. (IF: 6.082)
23. S.Khanam, “Modified approach of total site integration for energy conservation: A case study of sponge iron cluster”, Chemical Engineering Research and Design, 133 (2018) 142-154. (IF: 4.119)
24. S.Khanam, “Performance analyses of LP and MILP solvers based on newly introduced scale: Case studies of water network problems in chemical processes”, Chemical Engineering Research and Design, 136 (2018) 417-430. (IF: 4.119)
25. S.Khanam, “Influence of operating parameters on supercritical fluid extraction of essential oil from turmeric root”, Journal of Cleaner Production, 188 (2018) 816-824. (IF: 11.072)
26. S.Khanam, “Selection of suitable model for different matrices of raw materials used in supercritical fluid extraction process", Separation Science and Technology, 53 (2018) 71-96. (IF: 2.779)
27. S.Khanam, “Analyses of different modifications proposed for sponge iron process for best utilization of waste heat”, Process Integration and Optimization for Sustainability, 2 (2018) 365–381.
28. S.S. Energy integration in boiler section of thermal power plant”, Journal of Cleaner Production, 202 (2018) 601-615. (IF: 11.072)
29. V. Devi and S. Khanam, “Study of ω-6 linoleic and ω-3 α-linolenic acids of hemp (Cannabis sativa) seed oil extracted by supercritical CO2 extraction: CCD optimization”, Journal of Environmental Chemical Engineering, 7 (2019) 102818. (IF: 7.968)
30. V.Devi and S. Khanam, “Comparative study of different extraction processes for hemp (Cannabis sativa) seed oil considering physical, chemical and industrial-scale economic aspects”, Journal of Cleaner Production, 207 (2019) 645-657. (IF: 11.072)
31. S.S. Enhancement of efficiency for steam cycle of thermal power plants using process integration”, Energy, 173 (2019) 364-373. (IF: 8.857)
32. S.Khanam, “Selection of suitable model for the supercritical fluid extraction of carrot seed oil: A parametric study”, LWT - Food Science and Technology, 119 (2019) 108815. (IF: 6.056)
33. S.Khanam, “Supercritical CO2 extraction of carrot seed oil: screening, optimization and economic analysis”, International Journal of Environmental Science and Technology, 17 (2019) 2311-2324. (IF: 3.519)
34. V. Devi and S. Khanam, “Development of generalized and simplified models for supercritical fluid extraction: Case study of papaya (Carica papaya) seed oil”, Chemical Engineering Research and Design, 150 (2019) 341-358. (IF: 4.119)
35. S.S. Simultaneous water and energy conservation in non-isothermal processes – A case study of thermal power plant”, Journal of Cleaner Production, 282 (2021) 125423. (IF: 11.072)
36. V. Devi and S. Khanam, “Statistical modeling of supercritical extraction of hemp (Cannabis sativa) and papaya (Carica papaya) seed oils through artificial neural network and central composite design”, Soft Computing, 26 (2022) 1-18. (IF: 3.732)
37. Priyanka Katiyar, Karan Gupta, Pushpraj Katiyar, Shabina Khanam, “Supercritical fluid extraction of turmeric root oil using CO2: Experimental analysis and process modelling”, Industrial Crops & Products, 188 (2022) 115559. (IF: 6.449)
38. S. Khanam, G. Durga Prasad, Pushp Raj Varma, “Optimization of Water Consumption in Coal Washeries of CCL”, Minetech, 43 (2022) 15-24.
Average Impact Factor: 5.932
I am member of Editorial Board of the Journal – Process Integration and Optimization for Sustainability (PIOS), published with Springer Nature.
Apart from these research publications, an article entitled “PROCESS INTEGRATION OF COAL BASED SPONGE IRON PLANT” has been published in DRI UPDATE Magazine, November 2020, Sponge Iron Manufacturing Association (SIMA), New Delhi. It is circulated to all sponge iron fraternity of the world through SIMA.