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- Hydraulic infrastructures
Expansion works of the Panama Canal: the largest engineering piece of work in the 21st century
The expansion works on the Panama Canal have posed an engineering challenge for a long time. At Sacyr, we are passionate about challenges, and in 2016 we successfully finished building the third set of locks, a new maritime transit route that runs parallel to the pre-existing locks.
Watch all our videos on the Stories of the Canal and the Panama Canal
KILOMETERS
Two two-kilometer platforms on the Atlantic and Pacific coasts
MILLION EUROS
Of total investment
PEOPLE
Involved in the project

"The Panama Canal is one of the most emblematic civil construction works in history. To lead its expansion has been a great satisfaction to Sacyr”

Manuel Manrique, President and CEO of Sacyr
Rescue and relocation of local flora and fauna species
- 4,500 rescued and relocated specimens
- 200 protected species
- 2800 ha of reforested surface
- 5,8 million trees planted
- Sacyr Infrastructures
- Canal de Panamá
- Tercer Juego de Esclusas
- Panamá
- Sacyr Conservación
ACM3S

The ultimate goal is to develop a device with industrial robotic technology and precise positioning for, on one hand, proper lane signaling and, on the other hand, automated cone placement/removal, ensuring total safety during the operation. Additionally, this project transforms safety standards on our roads and helps to avoid the presence of vulnerable users, a major priority within Sacyr.
Project funded by the Center for Technological Development and Innovation (CDTI), a Public Business Entity under the Ministry of Science, Innovation, and Universities.
- Roads
- Seguridad vial
- Sacyr Conservación
Icónica

This will be achieved through the implementation of a national cooperation project that brings together various industrial research projects focusing on different V2X connectivity technology solutions on Spanish roads.
General objectives:
- GO1: Advance scientific and technological knowledge on communication systems for vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) information exchange through the use of 5G communications that enable the development of safe driving.
- OG2: Reduce road accidents through the advanced deployment of technology that enables real-time information for safer driving.
- OG3: Conduct Proof of Concept (PoC) tests to validate the technologies researched, with a view to future development and commercialisation.
- OG4: Develop an ecosystem with companies and technology centres that enables effective collaboration to provide global V2X communications solutions for safe driving.
- OG5: Strengthen and position the Consortium and its companies as leaders in their fields of activity, enabling their participation in international initiatives such as 5GAA, ERTICO ITS Europe, ETSI, Horizon Europe (Cluster 5, Climate, Energy and Mobility) and similar.
This project has been approved by the CDTI, with the support of the Ministry of Science and Innovation, with a 40% grant in the last call for proposals for the Misiones '24 programme. This call for proposals is included among the actions planned in the National Recovery, Transformation and Resilience Plan, which will be financed by the Next Generation EU funds.
The consortium is made up of the following companies: SISTEMAS Y MONTAJES INDUSTRIALES SA (leader), VODAFONE INTELLIGENT SOLUTIONS ESPAÑA SL, SACYR CONSERVACIÓN SA, INFONORTE TECNOLOGIA SL, ANTERAL SL, ALSA INNOVACIÓN Y PROYECTOS DE MOVILIDAD SL
The project will be carried out at the various headquarters of the companies that make up the consortium (Community of Madrid, Castile and León, Malaga, Navarre and Asturias). It will begin in October 2024 and is scheduled for completion on 31 December 2025.
- Car
- P3 Projects
APROMAC Machine learning based predictive analysis module for rutting, macrotexture and CRT

The solution aims to:
- Investigate the possible factors that affect the evolution of the condition of a road surface, applying big data and artificial intelligence technologies in order to compare the existence and evolution of these factors with the real evolution experienced on roads operated and managed by Sacyr Concesiones.
- To increase accuracy with respect to current models, thanks to the incorporation of a greater number of variables, using real historical data from similar roads and machine learning technology.
- Facilitate and simplify the generation of simulation scenarios with a complete, user-friendly and visual user interface.
- To carry out a clean data and analysis phase which will allow us to know precisely the degree of effect of the variables studied, and the real evolution of the pavement indicators.
- And finally, to proceed with the development of new predictive models for deterioration indicators. In this project, the models to be developed are focused on the deterioration indicators: rutting, macrotexture and CRT.
This project has a budget of €566,797.00 and will run until 31 December 2026. Once completed, Sacyr Concesiones expects to have an advanced tool for the long-term prediction of road performance.
The project is co-financed by the European Union, European Funds, the Ministry of Finance and CDTI through the Ministry of Science, Innovation and Universities.
- Roads
- Big data
- P3 Projects
BATERURGIA Research on advanced recycling technologies for the recovery of strategic metals from electric vehicle batteries

The BATERURGIA project aims to respond to the challenges posed by the recycling of lithium-ion batteries and provide knowledge to solve the problems arising from the recovery and selective separation of critical metals to facilitate their use in the manufacture of new batteries or, alternatively, to replace conventional raw materials and introduce them into other production sectors as alternative raw materials. These recovery technologies will be validated, at pilot plant level, to demonstrate their potential to generate precursors to be used in the manufacture of new batteries or as raw material input to other industrial processes.
BATERURGIA is being executed by a Consortium made up of 5 large companies (Sacyr Concesiones, Sacyr Proyecta, Tubacex, Ferroglobe and Colorobbia) and 3 SMEs (Recyclia, Little Energy and Coveless), the coordinator of the group being Sacyr Concesiones.
BATERURGIA has been subsidised by the call ‘Science and Innovation Missions 2022’, promoted by the Centre for Technological Development and Innovation (CDTI), with Next Generation funds from the European Union, within the Recovery, Transformation and Resilience Plan.
- Batteries
- Vehicle mobility
- Infrastructures
SUSTAIN digitization of superblocks as a means of organizing the urban fabric, where people and the environment are the priority

The result of the project will therefore be the development of a management platform that, through the integration of digital twins and artificial intelligence algorithms, will enable a more efficient design and optimisation of superblocks in all their constituent elements: buildings, mobility infrastructures and public spaces. The aim is to be able to simulate behaviour and make justified decisions based on data from different sources, in order to reduce risks, improve participation and continuously adapt the design to maximise social, environmental and economic benefits.
The SUSTAIN Consortium is formed by Inycom, the project leader, Globalcyclus, Cemosa, Buchanan and Setas de Sevilla.
The project is funded by the call ‘Science and Innovation Missions 2024’, promoted by the Centre for Technological Development and Innovation (CDTI) with Next Generation funds from the European Union, within the Recovery, Transformation and Resilience Plan.
El proyecto está financiado por la convocatoria “Misiones de Ciencia e Innovación 2024”, promovida por el Centro para el Desarrollo Tecnológico y la Innovación (CDTI) con fondos Next Generation de la Unión Europea, dentro del Plan de Recuperación, Transformación y Resiliencia.
- Environment
- Infrastructures
VALDESC. Innovative solutions for the promotion of the VALorisation of complex CDW and the decarbonisation of the construction sector in the CAM.

It also aims to improve the productivity of the sector through the industrialisation of construction systems, seeking to balance economic and social development and environmental protection.
The aim of the project is to research and generate new knowledge relating to new decarbonised and circular processes and products based on closing cycles, with greater added value, of complex CDW material resources (fine mixed stone, ceramics, mineral wool, gypsum and lightweight).
VALDESC is led by SURGE AMBIENTAL, with the participation of VALORIZA, SACYR, MOGENSEN, SIKA, HORMICRUZ, KNAUF, HOLCIM, ADCORE, FORESTBANK and LAYERMD and with the support of the Research and Technological Development Centre TECNALIA, the Eduardo Torroja Institute of Construction Sciences CSIC-IETcc and the IMDEA AGUA Institute.
The project will have an economic, environmental and social impact on the following aspects:
1) To increase the recovery rates of CDW and reduce the landfill of recoverable waste, estimating a recovery potential of 774,015 t/year of different CDW streams that are currently destined for landfill;
2) Reducing the carbon footprint around the construction sector by around 51,531 t CO2 eq./year compared to the baseline situation;
3) Reduce fossil energy consumption, due to the use of Solid Recovered Fuels ‘SRF’ instead of fossil fuel by approximately 10,890 t/year.
4) Creation of up to 18 jobs by all partners and subcontracted research centres as a consequence of the development of this project;
5) Economic impact in the region of 8,747,170 €/year/year resulting from the exploitation of the results and inducing a private investment by companies of approximately 3.4 million euros;
6) Retraining of professionals and generation of knowledge among construction and recovery machinery companies on digital and green technologies.
The project has been subsidised through the Call 2024 of the Grants to contribute to the improvement of public-private cooperation in R&D&I through projects with a tractor effect in consortium of the Regional Ministry of Education, Science and Universities of the Community of Madrid, co-financed by the European Regional Development Fund (ERDF), in the framework of the Programme of the Community of Madrid 2021-2027. It has a budget of 6 million euros and will last for 3 years, ending in 2027.
- Career
- Environmental impact












