eprintid: 13989 rev_number: 11 eprint_status: archive userid: 5 dir: disk0/00/01/39/89 datestamp: 2016-11-25 12:39:41 lastmod: 2021-08-27 17:28:05 status_changed: 2016-11-25 12:39:41 type: article metadata_visibility: show creators_name: Raptis, C.E. creators_name: van Vliet, M. creators_name: Pfister, S. creators_id: 8728 title: Global thermal pollution of rivers from thermoelectric power plants ispublished: pub divisions: prog_wat keywords: electricity generation; global; grid-based; heat emissions; once-through cooling; water temperature increase; water temperature model abstract: Worldwide riverine thermal pollution patterns were investigated by combining mean annual heat rejection rates from power plants with once-through cooling systems with the global hydrological-water temperature model variable infiltration capacity (VIC)-RBM. The model simulates both streamflow and water temperature on 0.5° ×0.5° spatial resolution worldwide and by capturing their effect, identifies multiple thermal pollution hotspots. The Mississippi receives the highest total amount of heat emissions (62% and 28% of which come from coal-fuelled and nuclear power plants, respectively) and presents the highest number of instances where the commonly set 3 °C temperature increase limit is equalled or exceeded. The Rhine receives 20% of the thermal emissions compared to the Mississippi (predominantly due to nuclear power plants), but is the thermally most polluted basin in relation to the total flow per watershed, with one third of its total flow experiencing a temperature increase ≥5 °C on average over the year. In other smaller basins in Europe, such as the Weser and the Po, the share of the total streamflow with a temperature increase ≥3 °C goes up to 49% and 81%, respectively, during July-September. As the first global analysis of its kind, this work points towards areas of high riverine thermal pollution, where temporally finer thermal emission data could be coupled with a spatially finer model to better investigate water temperature increase and its effect on aquatic ecosystems. date: 2016 date_type: published publisher: IOP Publishing id_number: 10.1088/1748-9326/11/10/104011 creators_browse_id: 350 full_text_status: public publication: Environmental Research Letters volume: 11 number: 10 pagerange: e104011 refereed: TRUE issn: 1748-9326 coversheets_dirty: FALSE fp7_project: no fp7_type: info:eu-repo/semantics/article citation: Raptis, C.E., van Vliet, M. , & Pfister, S. (2016). Global thermal pollution of rivers from thermoelectric power plants. Environmental Research Letters 11 (10) e104011. 10.1088/1748-9326/11/10/104011 . document_url: https://pure.iiasa.ac.at/id/eprint/13989/1/erl_11_10_104011.pdf