Hardy, J. (2024). Dynamic modelling and optimisation of open-channel networks with a focus on the energy-efficiency of pumping systems [Doctoral thesis, ULiège - University of Liège]. ORBi-University of Liège. https://orbi.uliege.be/handle/2268/313343 |
Hardy, J., Dewals, B., & Dewallef, P. (21 November 2023). Resilience and energy efficiency of waterways [Paper presentation]. Symposium pompen & turbines, Anvers, Belgium. |
Hardy, J., Dewallef, P., & Dewals, B. (02 October 2023). Greener waterways infrastructure through pumping stations [Paper presentation]. Belgium Hydraulics day. |
Hardy, J. (2023). Summary of Lab test on pumps. |
Hardy, J., Dewallef, P., & Dewals, B. (2023). Positioning of GreenWIN test bench compared to standard ISO9906. |
Hardy, J., Dewallef, P., & Dewals, B. (2023). On-site monitoring of pumping systems in inland waterways. |
Hardy, J., Dewallef, P., & Dewals, B. (2023). Assessment of the performance of large-capacity pumps used in waterways: experimental tests and computational modelling. |
Hardy, J., Dewallef, P., & Dewals, B. (2023). Report setting out the results of the lab tests. |
Hardy, J., Dewallef, P., & Dewals, B. (2023). Estimates of CO2 emission reduction induced by improved pumping operations. |
Rodriguez Castro, D., Roucour, S., Archambeau, P., Cools, M., Erpicum, S., Habchi, I., Hardy, J., Pirotton, M., Weber, L., Teller, J., & Dewals, B. (30 June 2022). Modelling direct flood losses: what can we learn from the July 2021 flood in the Meuse basin (Belgium)? [Paper presentation]. KAHR Science Conference, Germany. |
Hardy, J., Dewals, B., Erpicum, S., Archambeau, P., Pirotton, M., Dewallef, P., Parkinson, D., Taylor, N., & Barnet, C. (2022). Improving energy-efficiency of pumping operations in waterways: a combined laboratory and computational approach. In 39th IAHR world congress. Springger. doi:10.3850/IAHR-39WC2521716X2022135 |
Hardy, J. (2022). Test bench measurements. |
Rodriguez Castro, D., Roucour, S., Archambeau, P., Cools, M., Erpicum, S., Habchi, I., Hardy, J., Pirotton, M., Weber, L., Teller, J., & Dewals, B. (20 May 2022). Collection of consistent field data on flood features, buildings characteristics and damage during the July 2021 flood in the Meuse basin [Paper presentation]. DEUFI project: Urban floods, annual scientific meeting, Montpellier, France. |
Hardy, J., Dewallef, P., Erpicum, S., Pirotton, M., Parkinson, D., Taylor, N., Treacy, P., Archambeau, P., Thome, O., & Dewals, B. (2022). Energy saving in waterway networks – From pump to hydraulic management. In Yearbook of PIANC 2022. Bruxelles, Belgium: Louis VAN SCHEL. |
Hardy, J., Dewallef, P., Erpicum, S., Pirotton, M., Thome, O., Archambeau, P., Dewals, B., Parkinson, D. (Other coll.), Taylor, N. (Other coll.), Barnet, C. (Other coll.), & Treacy, P. (Other coll.). (December 2021). Assessing the performance of high capacity submersible pumps used in waterways: experimental tests and computational model calibration [Poster presentation]. 2nd IAHR Young Professionals Congress. |
Hardy, J., Erpicum, S., Pirotton, M., Archambeau, P., Dewallef, P., Thome, O., Parkinson, D., Taylor, N., Barnet, C., Treacy, P., & Dewals, B. (13 April 2021). Experimental test bench for performance-assessment of large submersible and dry-action pumps used in waterways [Paper presentation]. WEBINAR ON “EXPERIMENTAL METHODS AND LABORATORY INSTRUMENTATION IN HYDRAULICS”, Poland. |
Hardy, J. (2021). Experimental test bench for performance assessment of large pumps. |
Hardy, J. (2019). Pump characteristics that can be tested in the laboratory bench. |
Hardy, J., Dewallef, P., & Dewals, B. (2019). Complements on the test bench design. |
Hardy, J. (2019). ULiege Progress on study case Kennet & Avon canal. |
Hardy, J., Dewallef, P., & Dewals, B. (2019). Clarifications following technical review (Design of the pump test rig at ULiège). |
Hardy, J., Thome, O., & Dewallef, P. (2019). Pump test rig - Technical report. |
Hardy, J. (2019). Progress of the pump bench for waterways application. |
Hardy, J. (2019). Operating principle of pumps in waterways application. |