
Structural simulation of railway rolling stock using finite element method analysis
ADVANTAGES OF INCORPORATING THE SUSPENSION SYSTEM TO THE FINITE ELEMENT MODEL
MSLOOP aims to validate a technology consisting of developing a cost effective solar field for CSP Parabolic Trough Power Plants using optimized ternary molten salts as HTF with an innovative hybridization system.
CADE takes part of the consortium together with COBRA, SCHLAICH BERGERMANN PARTNER, ARCHIMEDE SOLAR and UNIVERSIDAD COMPLUTENSE DE MADRID
The MSLOOP 2.0 consortium consists of a multidisciplinary team formed by five partners from three European Union member countries (Spain, Italy and Germany) in strategic fields within solar thermal sector. This composition will boost an innovative development capable of achieving a strong positioning in the market.
The Kick-off meeting of the project Msloop 2.0 was held the 23th November 2016 at Cobra’s headquarters in Madrid. Five experienced institutions in strategic fields within solar thermal sector comprise the project. The project is receiving funding from the EC under the Fast Track to Innovation Programme (H2020) that promotes close-to-the-market innovation activities.
The consortium aims to develop a new solution of hybrid CSP commercial plant with at least 20 % LCOE reduction that will provide firm and dispatchable electricity.
During the kick-off meeting, the Consortium members discussed the status of the research area, project goals, and expectations of the different stakeholders with respect to the project outcome. An introduction of the main issues of the Work Packages was explained, describing the task involved in each one.
The members not only discussed about the organizational structure of the project and the technical content, but also they decided on matters related to the dissemination of results and the activities to be performed in the next 6 months.
CADE will be in charge of several WPs related to operation parameters optimization and reliability improvement, detail engineering, manufacturing and assembly supervision, operation and performance testing and validation, commercial scale up, reliability studies, among others.
For any question or further information request about CSP hybrids plants, please complete the following form:
More info about MSLOOP in: www.msloopproject.eu
ADVANTAGES OF INCORPORATING THE SUSPENSION SYSTEM TO THE FINITE ELEMENT MODEL
In modern industry, worker safety is an absolute priority, especially in environments where heavy machinery is used in industrial production processes. These activities, essential for producing high-precision and quality components, carry inherent risks due to material fragmentation, such as splinters and part fragments. Ensuring a safe environment is not only
Modern industry demands efficiency, precision and speed, especially in the field of mechanical engineering and simulation. Automation has emerged as a crucial answer to these demands, and tools like Python and IronPython are leading this revolution, particularly in environments like ANSYS. In this post, we’ll explore why automation is essential
In the Oil & Gas industry, and in the particular case of hydrocarbon reactors, equipment subjected to high operating pressures and temperatures, the selection of the material is mainly oriented to the use of 2 1/4 Cr-1Mo steels due to the high performance of the material at a mechanical level,
Green hydrogen, produced by electrolysis of water, is a promising option for the transition to a more sustainable and decarbonised energy economy. In this process, electricity, ideally obtained from renewable sources such as solar photovoltaics, is used to break down water (H2O) into hydrogen (H2) and oxygen (O2). This hydrogen
In today’s competitive industrial environment, refineries are constantly looking for ways to improve their energy efficiency and reduce operating costs. Dynamic simulation and energy optimization are key tools that can lead to significant energy savings and more sustainable operation. Dynamic simulation refers to the use of mathematical and computational models
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Albacete
Parque Científico y Tecnológico
Paseo de la Innovación 3, 02006 Albacete – España
Tel. +34 967 19 01 72
C/Raimundo Fernández Villaverde, 53 (Entreplanta)
28020
Madrid – España
Albacete
Parque Científico y Tecnológico
Paseo de la Innovación 3, 02006 Albacete – España
Tel. +34 967 19 01 72
C/Raimundo Fernández Villaverde, 53 (Entreplanta)
28020
Madrid – España
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