|Industrial waste heat: Estimation of the technically available resource in the EU per industrial sector, temperature level and country|
M Papapetrou, G Kosmadakis, A Cipollina, U La Commare, G Micale
Applied Thermal Engineering 138, 207-216, 2018
|Reverse electrodialysis heat engine for sustainable power production|
A Tamburini, M Tedesco, A Cipollina, G Micale, M Ciofalo, M Papapetrou, ...
Applied energy 206, 1334-1353, 2017
|Assessment of methodologies and data used to calculate desalination costs|
M Papapetrou, A Cipollina, U La Commare, G Micale, G Zaragoza, ...
Desalination 419, 8-19, 2017
|Reverse electrodialysis with NH4HCO3-water systems for heat-to-power conversion|
M Bevacqua, A Tamburini, M Papapetrou, A Cipollina, G Micale, ...
Energy 137, 1293-1307, 2017
|REAPower: use of desalination brine for power production through reverse electrodialysis|
M Tedesco, A Cipollina, A Tamburini, G Micale, J Helsen, M Papapetrou
Desalination and Water Treatment 53 (12), 3161-3169, 2015
|Renewable energy desalination: performance analysis and operating data of existing RES desalination plants|
A Cipollina, E Tzen, V Subiela, M Papapetrou, J Koschikowski, ...
Desalination and Water Treatment 55 (11), 3120-3140, 2015
|Towards the first proof of the concept of a Reverse ElectroDialysis-Membrane Distillation Heat Engine|
M Micari, A Cipollina, F Giacalone, G Kosmadakis, M Papapetrou, ...
Desalination 453, 77-88, 2019
|Application of reverse electrodialysis to site-specific types of saline solutions: A techno-economic assessment|
F Giacalone, M Papapetrou, G Kosmadakis, A Tamburini, G Micale, ...
Energy 181, 532-547, 2019
|Boosting the performance of a Reverse Electrodialysis–Multi-Effect Distillation Heat Engine by novel solutions and operating conditions|
B Ortega-Delgado, F Giacalone, A Cipollina, M Papapetrou, ...
Applied Energy 253, 113489, 2019
|Analysis and simulation of scale-up potentials in reverse electrodialysis|
M Tedesco, P Mazzola, A Tamburini, G Micale, IDL Bogle, M Papapetrou, ...
Desalination and Water Treatment 55 (12), 3391-3403, 2015
|Quantifying the potential economic benefits of flexible industrial demand in the European power system|
D Papadaskalopoulos, R Moreira, G Strbac, D Pudjianto, P Djapic, F Teng, ...
IEEE Transactions on Industrial Informatics 14 (11), 5123-5132, 2018
|Salinity gradient engines|
A Tamburini, A Cipollina, M Papapetrou, A Piacentino, G Micale
Sustainable energy from salinity gradients, 219-256, 2016
|Correlations for estimating the specific capital cost of multi-effect distillation plants considering the main design trends and operating conditions|
G Kosmadakis, M Papapetrou, B Ortega-Delgado, A Cipollina, ...
Desalination 447, 74-83, 2018
|Evaluation of the economic and environmental performance of low-temperature heat to power conversion using a reverse electrodialysis–multi-effect distillation system|
M Papapetrou, G Kosmadakis, F Giacalone, B Ortega-Delgado, ...
Energies 12 (17), 3206, 2019
|Autonomous desalination units based on renewable energy systems-a review of representative installations worldwide|
M Papapetrou, C Epp, E Tzen
Solar Desalination for the 21st Century, 343-353, 2007
|Co-ordination action for autonomous desalination units based on renewable energy systems—ADU-RES|
C Epp, M Papapetrou
Desalination 168, 89-93, 2004
|Environmental aspects and economics of salinity gradient power (SGP) processes|
M Papapetrou, K Kumpavat
Sustainable energy from salinity gradients, 315-335, 2016
|Operating RE/desalination units|
M Papapetrou, ES Mohamed, D Manolakos, G Papadakis, VJ Subiela, ...
Seawater Desalination, 247-272, 2009
|Promotion of renewable energy sources for water production through desalination|
E Tzen, M Papapetrou
Desalination and Water Treatment 39 (1-3), 302-307, 2012
|Assessment of EU policy: Implications for the implementation of autonomous desalination units powered by renewable resources in the Mediterranean region|
J Gibbons, M Papapetrou, C Epp
Desalination 220 (1-3), 422-430, 2008