Since its development, CLEWs has guided he development of several studies, presented at international conferences and published on peer reviewed journals.
Access the publications list below for more in-depth understanding of past and recent CLEWs efforts. Click on the title to be re-directed to the full publication.
Access the publications list below for more in-depth understanding of past and recent CLEWs efforts. Click on the title to be re-directed to the full publication.
Sridharan, V., Pereira Ramos, E., Zepeda, E., Boehlert, B., Shivakumar, A., Taliotis, C., Howells, M., 2019. The Impact of Climate Change on Crop Production in Uganda—An Integrated Systems Assessment with Water and Energy Implications. Water 11, 1805.
Engström, R. et. al., 2019. Cross-Scale Water and Land Impacts of Local Climate and Energy Policy—A Local Swedish Analysis of Selected SDG Interactions. Sustainability 2019, 11(7), 1847.
Sridharan, V., Broad, O., Shivakumar, A., Howells, M., Boehlert, B., Groves, D.G., Rogner, H.-H., Taliotis, C., Neumann, J.E., Strzepek, K.M., Lempert, R., Joyce, B., Huber-Lee, A., Cervigni, R., 2019. Resilience of the Eastern African electricity sector to climate driven changes in hydropower generation. Nature Communications 10, 302.
Almulla, Y., Ramos, E., Gardumi, F., Taliotis, C., Lipponen, A., Howells, M., 2018. The role of Energy-Water nexus to motivate transboundary cooperation: 1 18, 3–28.
Sridharan, V., Eunice Pereira Ramos, Taliotis, C., Howells, M., Paul Basudde, Isaac V. Kinhonhi, 2018. Vulnerability of Uganda’s Electricity Sector to Climate Change: Integrated Systems Analysis - Meteor, in: Handbook of Climate Change Resilience. Springer.
Engström, R. et. al., 2018. Multi‐functionality of nature‐based and other urban sustainability solutions: New York City study. Land Degradation & Development, vol. 29, issue 10.
Sundin, C., 2017. Exploring the water-energy nexus in the Omo River basin: a first step toward the development of an integrated hydrological-OSeMOSYS energy model. KTH - Royal Institute of Technology.
Engström, R. et. al., 2017. Connecting the resource nexus to basic urban service provision – with a focus on water-energy interactions in New York City. Sustainable Cities and Society, Volume 31, May 2017, Pages 83–94.
Moksnes, N., 2016. UN Sustainable development goals from a Climate Land Energy and Water perspective for Kenya. KTH - Royal Institute of Technology, Department of Energy Technology.
Arderne, C., 2016. A climate, land-use, energy and water nexus assessment of Bolivia. KTH - Royal Institute of Technology, Department of Energy Technology.
De Strasser, L. et. al., 2016. A Methodology to Assess the Water Energy Food Ecosystems Nexus in Transboundary River Basins. Water, vol 8, no 2.
Mentis, D. et. al., 2015. Desalination using renewable energy sources on the arid islands of South Aegean Sea. Energy, vol 94, pp 262-272.
Siyal, S. et. al., 2015. Economic analysis of standalone wind-powered hydrogen refueling stations for road transport at selected sites in Sweden. International Journal of Hydrogen Energy, 40 (32), 9855-9865.
Siyal, S. et. al., 2015. A preliminary assessment of wind generated hydrogen production potential to reduce the gasoline fuel used in road transport sector of Sweden. International Journal of Hydrogen Energy, 40 (20), 6501-6511.
Siyal, S. et. al., 2015. Wind energy assessment considering geographic and environmental restrictions in Sweden: A GIS-based approach. Energy, 83, 447-461.
UNDESA, 2014. Prototype Global Sustainable Development Report. Chapter 6. Special theme: The climate-land-energy-water-development nexus. (Global CLEWs model developed by Constantinos Taliotis and Manuel Weirich, KTH).
Howells, M., Rogner, H., 2014. Water-energy nexus: Assessing integrated systems. Nature Climate Change, 4, 246–247.
Welsch, M. et. al., 2013. Adding value with CLEWS–Modelling the energy system and its interdependencies for Mauritius. Applied Energy, 113, 1434-1445.
Weirich, M., 2013. Global Resource Modelling of the Climate, Land, Energy and water (CLEWs) nexus using the Open Source energy Modelling System (OSeMOSYS). KTH - Royal Institute of Technology.
Howells, M. et. al., 2013. Integrated analysis of climate change, land-use, energy and water strategies. Nature Climate Change: 3, 621–626.
Hermann, S. et. al., 2012. Climate, land, energy and water (CLEW) interlinkages in Burkina Faso: An analysis of agricultural intensification and bioenergy production
Bazilian, M. et. al., 2011. Considering the energy, water and food nexus: Towards an integrated modelling approach. Energy Policy, 39 (12), 7896-7906.