| 1 |
System efficient integration of standby control and heat pump storage systems in manufacturing processes
Schlosser F, Seevers JP, Peesel RH, Walmsley TG
Energy, 181, 395, 2019 |
| 2 |
On the use of risk-based Shapley values for cost sharing in interplant heat integration programs
Jin YH, Chang CT, Li SJ, Jiang D
Applied Energy, 211, 904, 2018 |
| 3 |
Utility Exchanger Network synthesis for Total Site Heat Integration
Tarighaleslami AH, Walmsley TG, Atkins MJ, Walmsley MRW, Neale JR
Energy, 153, 1000, 2018 |
| 4 |
Total Site Heat Integration: Utility selection and optimisation using cost and exergy derivative analysis
Tarighaleslami AH, Walmsley TG, Atkins MJ, Walmsley MRW, Neale JR
Energy, 141, 949, 2017 |
| 5 |
Integrating district cooling systems in Locally Integrated Energy Sectors through Total Site Heat Integration
Liew PY, Walmsley TG, Alwi SRW, Manan ZA, Klemes JJ, Varbanov PS
Applied Energy, 184, 1350, 2016 |
| 6 |
A retrofit framework for Total Site heat recovery systems
Liew PY, Lim JS, Alwi SRW, Manan ZA, Varbanov PS, Kleme JJ
Applied Energy, 135, 778, 2014 |
| 7 |
Centralised utility system planning for a Total Site Heat Integration network
Liew PY, Alwi SRW, Varbanov PS, Manan ZA, Klemes JJ
Computers & Chemical Engineering, 57, 104, 2013 |
| 8 |
Analysis and integration of fuel cell combined cycles for development of low-carbon energy technologies
Varbanov P, Klemes J
Energy, 33(10), 1508, 2008 |
| 9 |
On the use of heat pumps in total site heat integration
Bagajewicz MJ, Barbaro AF
Computers & Chemical Engineering, 27(11), 1707, 2003 |
