| 1 |
Technical and economic feasibility of organic Rankine cycle-based waste heat recovery systems on feeder ships: Impact of nitrogen oxides emission abatement technologies
Baldasso E, Andreasen JG, Mondejar ME, Larsen U, Haglind F
Energy Conversion and Management, 183, 577, 2019 |
| 2 |
Using the forward movement of a container ship navigating in the Arctic to air-cool a marine organic Rankine cycle unit
de la Fuente SS, Larsen U, Pawling R, Kerdan IG, Greig A, Bucknall R
Energy, 159, 1046, 2018 |
| 3 |
Expansion of organic Rankine cycle working fluid in a cylinder of a low-speed two-stroke ship engine
Larsen U, Wronski J, Andreasen JG, Baldi F, Pierobon L
Energy, 119, 1212, 2017 |
| 4 |
Selection of cooling fluid for an organic Rankine cycle unit recovering heat on a container ship sailing in the Arctic region
de la Fuente SS, Larsen U, Pierobon L, Kaern MR, Haglind F, Greig A
Energy, 141, 975, 2017 |
| 5 |
Mechanical pretreatment at harvesting increases the bioenergy output from marginal land grasses
Tsapekos P, Kougias PG, Egelund H, Larsen U, Pedersen J, Trenel P, Angelidaki I
Renewable Energy, 111, 914, 2017 |
| 6 |
Development of a model for the prediction of the fuel consumption and nitrogen oxides emission trade-off for large ships
Larsen U, Pierobon L, Baldi F, Haglind F, Ivarsson A
Energy, 80, 545, 2015 |
| 7 |
Design and optimization of a novel organic Rankine cycle with improved boiling process
Andreasen JG, Larsen U, Knudsen T, Haglind F
Energy, 91, 48, 2015 |
| 8 |
System analysis and optimisation of a Kalina split-cycle for waste heat recovery on large marine diesel engines
Larsen U, Nguyen TV, Knudsen T, Haglind F
Energy, 64, 484, 2014 |
| 9 |
Multiple regression models for the prediction of the maximum obtainable thermal efficiency of organic Rankine cycles
Larsen U, Pierobon L, Wronski J, Haglind F
Energy, 65, 503, 2014 |
| 10 |
Thermodynamic evaluation of the Kalina split-cycle concepts for waste heat recovery applications
Nguyen V, Knudsen T, Larsen U, Haglind F
Energy, 71, 277, 2014 |
