| 1 |
Evaluation of design objectives in district heating system design
Kouhia M, Laukkanen T, Holmberg H, Ahtila P
Energy, 167, 369, 2019 |
| 2 |
District heat network as a short-term energy storage
Kouhia M, Laukkanen T, Holmberg H, Ahtila P
Energy, 177, 293, 2019 |
| 3 |
Primary exergy efficiency-Effect of system efficiency environment to benefits of exergy savings
Laukkanen TP, Kohl T, Jarvinen MP, Ahtila P
Energy and Buildings, 124, 248, 2016 |
| 4 |
Upgrading of soot sludge from waste to fuel by means of low temperature drying in fixed beds
Myllymaa T, Holmberg H, Arhippainen P, Ahtila P
Fuel Processing Technology, 138, 509, 2015 |
| 5 |
Comparison of energy efficiency assessment process methods: Case Bio-SNG process
Kohl T, Laukkanen T, Tuomaala M, Niskanen T, Siitonen S, Jarvinen MP, Ahtila P
Energy, 74, 88, 2014 |
| 6 |
Evaluating municipal energy efficiency in biorefinery integration
Haikonen T, Tuomaala M, Holmberg H, Ahtila P
Energy, 63, 260, 2013 |
| 7 |
Success factors of energy management in energy-intensive industries: Development priority of energy performance measurement
Sivill L, Manninen J, Hippinen I, Ahtila P
International Journal of Energy Research, 37(8), 936, 2013 |
| 8 |
Allocation of fuel costs and CO2-emissions to heat and power in an industrial CHP plant: Case integrated pulp and paper mill
Holmberg H, Tuomaala M, Haikonen T, Ahtila P
Applied Energy, 93, 614, 2012 |
| 9 |
Qualitative analysis of a thermo mechanical pulp and paper mill using advanced composite curves
Ruohonen P, Ahtila P
Energy, 36(6), 3871, 2011 |
| 10 |
Implications of process energy efficiency improvements for primary energy consumption and CO2 emissions at the national level
Siitonen S, Tuomaala M, Suominen M, Ahtila P
Applied Energy, 87(9), 2928, 2010 |
