81 |
Development of cogeneration in Germany: A mean-variance portfolio analysis of individual technology's prospects in view of the new regulatory framework Westner G, Madlener R Energy, 36(8), 5301, 2011 |
82 |
Evaluating the Benefits of a Hybrid Solid Oxide Fuel Cell Combined Heat and Power Plant for Energy Sustainability and Emissions Avoidance Colson CM, Nehrir MH IEEE Transactions on Energy Conversion, 26(1), 140, 2011 |
83 |
The benefit of regional diversification of cogeneration investments in Europe: A mean-variance portfolio analysis Westner G, Madlener R Energy Policy, 38(12), 7911, 2010 |
84 |
Dynamic modeling and evaluation of solid oxide fuel cell - combined heat and power system operating strategies Nanaeda K, Mueller F, Brouwer J, Samuelsen S Journal of Power Sources, 195(10), 3176, 2010 |
85 |
Estimating the power and number of microturbines in small-scale combined heat and power systems Sanaye S, Ardali MR Applied Energy, 86(6), 895, 2009 |
86 |
Merging of energy and environmental analyses for district heating systems Torchio MF, Genon G, Poggio A, Poggio M Energy, 34(3), 220, 2009 |
87 |
Integrated waste-to-energy conversion and waste transportation within island communities Zsigraiova Z, Tavares G, Semiao V, Carvalho MD Energy, 34(5), 623, 2009 |
88 |
Weighting methodologies in multi-criteria evaluations of combined heat and power systems Wang JJ, Jing YY, Zhang CF International Journal of Energy Research, 33(12), 1023, 2009 |
89 |
The potential demand for bioenergy in residential heating applications (bio-heat) in the UK based on a market segment analysis Jablonski S, Pantaleo A, Bauen A, Pearson P, Panoutsou C, Slade R Biomass & Bioenergy, 32(7), 635, 2008 |
90 |
Energy efficiency investments in Kraft pulp mills given uncertain climate policy Adahl A, Harvey S International Journal of Energy Research, 31(5), 486, 2007 |