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ECOS 2020 - Proceedings of the 33rd International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems(1)
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scopus(18)
Colombian mineral resources: An analysis from a Thermodynamic Second Law perspective
ArticleAbstract: Natural non-renewable resources, such as minerals, are becoming increasingly depleted against a backPalabras claves:COLOMBIA, Exergy, Mineral depletion, Thanatia, ThermoeconomicsAutores:Alicia Valero, Antonio Valero, Gabriel Carmona L., Whiting K.Fuentes:scopusAssessing the exergy degradation of the natural capital: From Szargut's updated reference environment to the new thermoecological-cost methodology
ArticleAbstract: This paper shows the common developments performed by the Institute of Thermal Technology and the RePalabras claves:Chemical exergy, Exergoecology Portal, Exergy Replacement Cost, Mineral resources, Reference environment, Thermo-ecological costAutores:Alicia Valero, Antonio Valero, Stanek W.Fuentes:scopusApplication of thermoeconomics to industrial ecology
ArticleAbstract: Industrial Ecology involves the transformation of industrial processes from linear to closed loop syPalabras claves:Exergy, Industrial ecology, Thermoeconomics, Waste treatmentAutores:Alicia Valero, Antonio Valero, Torres Cuadra C., Usón S.Fuentes:scopusExergoecology: A thermodynamic approach for accounting the Earth's mineral capital. The case of bauxite-aluminium and limestone-lime chains
ArticleAbstract: As man extracts minerals, the natural deposits become depleted in quantity and concentration, and hePalabras claves:Aluminium industry, Exergoecology, exergy cost, Lime industry, Mineral exergy bonus, minerals, ResourcesAutores:Alicia Valero, Antonio ValeroFuentes:scopusExergy and the Hubbert peak. Assessment of the scarcity of minerals on earth
Conference ObjectAbstract: This paper demonstrates how thermodynamics and in particular the exergy analysis can help to assessPalabras claves:Autores:Alicia Valero, Antonio Valero, Torres Cuadra C.Fuentes:scopusExergy assessment of topsoil fertility
ArticleAbstract: Soil degradation, affecting around 38% of the world's cropland, threatens the global food supply. DuPalabras claves:Exergy, Pristinia, soil degradation, soil fertility, Sustainability, ThanatiaAutores:Alicia Valero, Antonio Valero, Ascaso S., Palacino B.Fuentes:scopusExergy evaluation of the mineral capital on Earth. influence of the reference environment
Conference ObjectAbstract: The mineral capital on Earth is assessed from a 2nd law of thermodynamics approach. This requires toPalabras claves:Autores:Alicia Valero, Antonio Valero, Martínez A.Fuentes:scopusEco-cbkp_redit system to incentivise the recycling of waste electric and electronic equipment based on a thermodynamic approach
ArticleAbstract: The use of electric and electronic equipment has been increasing dramatically in the last years andPalabras claves:Eco-cbkp_redits, Exergy, rarity, Raw materials, recycling, reuse, Waste electrical and electronic equipment, WEEEAutores:Alicia Valero, Ascaso S., Calvo G., Círez F., Magdalena R., Ortego A.Fuentes:scopusMineral resources in life cycle impact assessment: part II – recommendations on application-dependent use of existing methods and on future method development needs
ArticleAbstract: Purpose: Assessing impacts of abiotic resource use has been a topic of persistent debate among lifePalabras claves:Life cycle assessment, Life cycle impact assessment, Life Cycle Initiative, Mineral resources, Raw materials, Resource depletion, Resource dissipation, Task force mineral resourcesAutores:Alicia Valero, Alvarenga R., Bach V., Berger M., Cimprich A., Dewulf J., Frischknecht R., Guinée J., Helbig C., Huppertz T., Jolliet O., Motoshita M., Northey S., Peña C.A., Rugani B., Sahnoune A., Schrijvers D., Schulze R., Sonderegger T., Sonnemann G., Weidema B.P., Young S.B.Fuentes:scopusMineral resources in life cycle impact assessment—part I: a critical review of existing methods
ReviewAbstract: Purpose: The safeguard subject of the Area of Protection “natural Resources,” particularly regardingPalabras claves:Life cycle assessment, Life cycle impact assessment, Life Cycle Initiative, Method review, Mineral resources, Raw materials, Resource depletion, Task force mineral resourcesAutores:Alicia Valero, Alvarenga R., Bach V., Berger M., Cimprich A., Dewulf J., Frischknecht R., Guinée J., Helbig C., Huppertz T., Jolliet O., Motoshita M., Northey S., Rugani B., Schrijvers D., Schulze R., Sonderegger T., Sonnemann G., Weidema B.P., Young S.B.Fuentes:scopus