This folder holds the following references to publications, sorted by year and author.

There are 231 references in this bibliography folder.

Stanek, W, Simla, T, and Gazda, W (2019).
Exergetic and thermo-ecological assessment of heat pump supported by electricity from renewable sources
Renewable Energy, 131:404 - 412.

Valero, A and Valero, A (2019).
Thermodynamic Rarity and Recyclability of Raw Materials in the Energy Transition: The Need for an In-Spiral Economy
Entropy, 21:873.

Velázquez-Martinez, O, Porvali, A, Boogaart, KGvd, Santasalo-Aarnio, A, Lundström, M, Reuter, M, and Serna-Guerrero, R (2019).
On the use of statistical entropy analysis as assessment parameter for the comparison of lithium-ion battery recycling processes
Batteries, 5.

Arshadi, M, Yaghmaei, S, and Mousavi, SM (2018).
Content evaluation of different waste PCBs to enhance basic metals recycling
Resources, Conservation and Recycling, 139:298-306.

Bookhagen, B, Obermaier, W, Opper, C, Koeberl, C, Hofmann, T, Prohaska, T, and Irrgeher, J (2018).
Development of a versatile analytical protocol for the comprehensive determination of the elemental composition of smartphone compartments on the example of printed circuit boards
Analytical Methods, 10:3864-3871.

Dudek, M, Kolenda, Z, Jaszczur, M, and Stanek, W (2018).
Thermodynamic Analysis of Power Generation Cycles With High-Temperature Gas-Cooled Nuclear Reactor and Additional Coolant Heating Up to 1600 °C
Journal of Energy Resources Technology, 140(2).

Dutta, D, Panda, R, Kumari, A, Goel, S, and Jha, MK (2018).
Sustainable recycling process for metals recovery from used printed circuit boards (PCBs)
Sustainable Materials and Technologies, 17.

Gładysz, P, Stanek, W, Czarnowska L, Sładek, S, and Szlęk, A (2018).
Thermo-ecological evaluation of an integrated MILD oxy-fuel combustion power plant with CO2 capture, utilisation, and storage – A case study in Poland
Energy, 144:379-392.

Gładysz, P, Stanek, W, Czarnowska, L, Sładek, S, and Szlęk, A (2018).
Thermo-ecological evaluation of an integrated MILD oxy-fuel combustion power plant with CO2 capture, utilisation, and storage – A case study in Poland
Energy, 144:379 - 392.

Holgersson, S, Steenari, BM, Björkman, M, and Cullbrand, K (2018).
Analysis of the metal content of small-size Waste Electric and Electronic Equipment (WEEE) printed circuit boards—part 1: Internet routers, mobile phones and smartphones
Resources, Conservation and Recycling, 133:300-308.

Lombardi, L, Mendecka, B, Carnevale, E, and Stanek, W (2018).
Environmental impacts of electricity production of micro wind turbines with vertical axis
Renewable Energy, 128:553 - 564.

Mendecka, B, Lombardi, L, and Stanek, W (2018).
Analysis of life cycle thermo-ecological cost of electricity from wind and its application for future incentive mechanism
Energy Conversion and Management, 170:73 - 81.

Mendecka, B, Lombardi, L, Gładysz, P, and Stanek, W (2018).
Exergo-Ecological Assessment of Waste to Energy Plants Supported by Solar Energy
Energies, 11(4).

Nekouei, RK, Pahlevani, F, Rajarao, R, Golmohammadzadeh, R, and Sahajwalla, V (2018).
Two-step pre-processing enrichment of waste printed circuit boards: Mechanical milling and physical separation
Journal of Cleaner Production, 184:1113-1124.

Ortego, A, Valero, A, Valero, A, and Restrepo, E (2018).
Vehicles and Critical Raw Materials: A Sustainability Assessment Using Thermodynamic Rarity
Journal of Industrial Ecology, 0(0).

Palacios, JL, Calvo, G, Valero, A, and Valero, A (2018).
Exergoecology Assessment of Mineral Exports from Latin America: Beyond a Tonnage Perspective
Sustainability, 10(723):1-18.

Simla, T, Stanek, W, and Czarnowska, L (2018).
Thermo-Ecological Cost of Electricity Generated in Wind Turbine Systems
Journal of Energy Resources Technology, 141(3).

Stanek, W and Czarnowska, L (2018).
Thermo-ecological cost – Szargut's proposal on exergy and ecology connection
Energy, 165:1050 - 1059.

Stanek, W, Czarnowska, L, Gazda, W, and Simla, T (2018).
Thermo-ecological cost of electricity from renewable energy sources
Renewable Energy, 115:87-96.

Stanek, W, Mendecka, B, Lombardi, L, and Simla, T (2018).
Environmental assessment of wind turbine systems based on thermo-ecological cost
Energy, 160:341 - 348.

Torres Cuadra, C and Valero Capilla, A (2018).
A New Methodology to compute Exergy Cost. Part I: The Flow-Process Model
In: Proceeding of ECOS 2018. The 31st International Conference on Efficiency, Cost, Optimization, Simulation and Enviromental Impact of Energy Systems. June 17-22, 2018, Guimaraes, Portugal.

Valero, A, Valero, A, and Stanek, W (2018).
Assessing the exergy degradation of the natural capital: From Szargut's updated reference environment to the new thermoecological-cost methodology
Energy, 163:1140 - 1149.

Buliński, Z, Szczygieł, I, Kabaj, A, Krysiński, T, Gładysz, P, Czarnowska, L, and Stanek, W (2017).
Performance Analysis of the Small-Scale α-Type Stirling Engine Using Computational Fluid Dynamics Tools
Journal of Energy Resources Technology, 140(3).

Buliński, Z, Szczygieł, I, Krysiński, T, Stanek, W, Czarnowska, L, Gładysz, P, and Kabaj, A (2017).
Finite time thermodynamic analysis of small alpha-type Stirling engine in non-ideal polytropic conditions for recovery of LNG cryogenic exergy
Energy, 141:2559 - 2571.

Calvo, G, Valero, A, and Valero, A (2017).
Assessing maximum production peak and resource availability of non-fuel mineral resources: Analyzing the influence of extractable global resources
Resources, Conservation and Recycling, 125:208-217.