Lelde Timma
Lelde Timma
Other namesLelde Žandecka
PhD Environmental Engineering
Verified email at - Homepage
Cited by
Cited by
Life after the financial crisis. Energy intensity and energy use decomposition on sectorial level in Latvia
L Timma, T Zoss, D Blumberga
Applied Energy 162, 1586-1592, 2016
A holistic approach to manage environmental quality by using the Kano model and social cognitive theory
E Dace, A Stibe, L Timma
Corporate Social Responsibility and Environmental Management 27 (2), 430-443, 2020
Solar and pellet combisystem for apartment buildings: Heat losses and efficiency improvements of the pellet boiler
A Žandeckis, L Timma, D Blumberga, C Rochas, M Rošā
Applied energy 101, 244-252, 2013
Dynamic modelling of a collection scheme of waste portable batteries for ecological and economic sustainability
A Blumberga, L Timma, F Romagnoli, D Blumberga
Journal of Cleaner Production 88, 224-233, 2015
System dynamic model for the accumulation of renewable electricity using power-to-gas and power-to-liquid concepts
A Blumberga, L Timma, D Blumberga
Environmental and Climate Technologies 16 (1), 54-68, 2015
Benchmarking analysis of energy consumption in supermarkets
L Timma, R Skudritis, D Blumberga
Energy Procedia 95, 435-438, 2016
The dynamics of technological substitution: the case of eco-innovation diffusion of surface cleaning products
E Vīgants, A Blumberga, L Timma, I Ījabs, D Blumberga
Journal of Cleaner Production 132, 279-288, 2016
The methodology for assessment of bioeconomy efficiency
I Muizniece, L Timma, A Blumberga, D Blumberga
Energy Procedia 95, 482-486, 2016
Temporal aspects in emission accounting—Case study of agriculture sector
L Timma, E Dace, M Trydeman Knudsen
Energies 13 (4), 800, 2020
A comparative study of Ni0. 7Zn0. 3Fe2O4 obtained by sol-gel auto-combustion and flash combustion methods
A Sutka, S Lagzdina, G Mezinskis, A Pludons, I Vitina, L Timma
IOP Conference Series: Materials Science and Engineering 25 (1), 012019, 2011
Outlining innovation diffusion processes in households using system dynamics. Case study: energy efficiency lighting
L Timma, U Bariss, A Blumberga, D Blumberga
Energy Procedia 75, 2859-2864, 2015
Methodologies used for scaling-up from a single energy production unit to state energy sector
G Cimdina, L Timma, I Veidenbergs, D Blumberga
Environmental and Climate Technologies 15 (1), 5-21, 2015
Energy efficiency policy analysis using socio-technical approach and system dynamics. Case study of lighting in Latvia's households
L Timma, G Bazbauers, U Bariss, A Blumberga, D Blumberga
Energy Policy 109, 545-554, 2017
Possibilities for utilization of solar thermal energy in multi-family buildings in Latvia
A Zandeckis, L Timma, D Blumberga, C Rochas, A Žandeckis
Environmental and Climate Technologies 6 (1), 138-146, 2011
How to assess involvement of electricity end user in energy efficiency improvement-Analysis of survey results
U Bariss, A Dandens, L Timma, A Blumberga, D Blumberga
Energy Procedia 72, 270-277, 2015
Index decomposition analysis for energy sectors in Latvia
L Timma, D Blumberga
Energy Procedia 61, 2180-2183, 2014
Green energy strategy 2050 for Latvia: a pathway towards a low carbon society
D Blumberga, G Cimdiņaa, L Timma, A Blumberga, M Rošāa
Combined and mixed methods research in environmental engineering: when two is better than one
L Timma, A Blumberga, D Blumberga
Energy Procedia 72, 300-306, 2015
Full factorial design of screening experiments for biosurfactant enhanced remediation of hydrophobic substances in soil
L Timma, K Sams, S Valtere, J Vilgerts, D Blumberga
J. Clean Energy Technol 2 (1), 51-56, 2014
Novel tools to study socio-technical transitions in energy systems
L Timma, A Blumberga, G Bazbauers, D Blumberga
Energy Procedia 128, 418-422, 2017
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