Sacyr Innovation Innovation projects Deseacrop: Desalination of seawater for agriculture

Deseacrop: Desalination of seawater for agriculture

This project aims to demonstrate the feasibility of sustainable management of desalinated seawater for crop production in closed soilless systems.

Deseacrop: Desalination of seawater for agriculture

Wastewater from agricultural irrigation has a high nutrient content that seeps into aquifers and can cause problems of contamination of water bodies.
At Sacyr, we have launched a project for the reuse of agricultural drainage water, the Deseacrop project (Desalinated seawater for alternative and sustainable soilless crop production). 

Thanks to the development of this European Life project, we have demonstrated that desalinated water is not only be better when mixed with groundwater, but also increases crop yields and crop quality. In addition, as a novelty, we have treated the irrigation drainage water (approximately 30% of the initial irrigation) by reverse osmosis desalination so that it can be reused for irrigation. In addition, drainage treatment at the desalination plant is carried out 100% with photovoltaic solar energy.

 

 

  • Water
  • Crops
  • Farming
  • Sea rise
Sacyr Innovation Innovation projects Anticipation of the geotechnical behaviour of the ground

Anticipation of the geotechnical behaviour of the ground

This initiative aims to respond to the challenge launched in Sacyr iChallenges 2020 to find solutions to anticipate the behavior of the terrain in our infrastructure projects.

The analysis of the materials and parameters that affect the behavior of the ground is a complex task; the difficult access to the areas of interest or the large extension of these areas makes it even more complicated to obtain quality information that allows us to anticipate geotechnical behavior.

The project seeks to understand which variables are key to ground movement, how millimetric changes can be detected using satellite technology, and combine both learnings into a set of maps and predictive models of the infrastructure area that allow us to anticipate and set up warnings. Early detection of a potential problem can allow us to make a better decision and anticipate the necessary actions or resources.

This project, which puts AI at the service of infrastructure control, offers advantages such as:

  • Greater security and reduction of incidents through the improvement of early warning systems.
  • Efficiency in operation and preventive maintenance
  • Increased cost-effectiveness due to reduced on-site control instrumentation costs
  • Improved information available on ground behavior in the design and construction stages.
  • Geothermal
  • Engineering
Sacyr Innovation Innovation projects Sacyr Inroad: Big Data for predictive road maintenance

Sacyr Inroad: Big Data for predictive road maintenance

Sacyr Inroad is an artificial vision system for vehicles capable of analyzing road conditions in real time.

Sacyr Inroad

This initiative consists of the deployment of different sensors in a maintenance vehicle that allow the system to capture information from the environment and create models that predict the deviation of infrastructure condition indicators. The implementation of this system allows us to improve service quality, increase revenue and reduce costs.
Sacyr Inroad is an exclusive project in the market that represents our commitment to innovation and a different way of doing things. It is an initiative of which we are very proud, as it arises from collaboration with the innovative ecosystem, a fundamental value in the new digital era.

  • Big data
Sacyr Innovation Innovation projects Sacyr Prediction Tool: artificial intelligence for safer roads

Sacyr Prediction Tool: artificial intelligence for safer roads

We created a predictive asphalt maintenance system powered by the latest technologies

This innovative tool uses machine learning and big data to predict with high accuracy the long-term deterioration of road pavement. We developed this project in collaboration with Tyris AI, the winning startup of the 2018 Sacyr Innovation Awards. The system is based on a machine learning module. Through a massive intake of data and sources on asphalt imperfections, this module modifies equations and calculations of pavement deterioration on roads.

Sacyr Prediction Tool

Has the capacity to run dozens of calculations simultaneously, issuing very accurate predictions of the long-term behavior of pavements and their possible deterioration, based on data on the use of the road itself, its construction, and environmental conditions such as weather. 

This project aims to provide greater safety throughout the life cycle of the road. Similarly, the tool aims to ensure that the operations and maintenance developed and applied are much more limited and have a high level of detail and effectiveness to correct each of the deteriorations.

All this translates into more efficient, more sustainable, and of course, safer roads; generating value for customers and users in the short and long term.
 

  • Roads
  • Big data
  • Machine learning
Sacyr Innovation Innovation projects Aurora, smart lighting for a unique experience

Aurora, smart lighting for a unique experience

Aurora is a cultural and technological multisensory experience on the emblematic building of Las Setas de Sevilla

Aurora is an immersive light and sound experience based on an intelligent system of sensors, cameras, and external variables processed in real-time on Las Setas de Sevilla, the largest wooden structure in the world.

This project, jointly developed by Sacyr and startup Skandal Technologies, uses the most innovative technologies, like IoT, advanced LED design, or image recognition software to create a new immersive lighting concept that makes a unique place out of this space. Aurora is managed through software that allows to remotely generate real-time configurations that combine design, data, lighting, sound, and the information captured by the sensors. 

We have created one of the greatest immersive shows in the world with this project. With Aurora, visitors can submerge in an everchanging landscape of light and sound that reinterprets contextual triggers and the parametric geometry of this striking building. All of it right at this site framed by the historical landscape of the center of Sevilla. 

Aurora is a living experience that stands out for its sustainability, and the fact that it changes with temperature, wind, by displaying natural patterns, as it interacts with the visitors in real-time, creating a unique experience.

 

  • Sustainability
  • Renewable energy
  • Solar Energy
Sacyr Innovation Innovation projects Sacyr IOHNIC, the tunnel lighting system of the future

Sacyr IOHNIC, the tunnel lighting system of the future

Sacyr IOHNIC is a linear tunnel lighting system, mostly bilateral, which allows maximum savings in electricity consumption and 100% uniformity of light.

SACYR IOHNIC

At Sacyr, through our subsidiary Sacyr Concesiones, we have developed a patent for tunnel lighting using continuous LED strips to improve lighting in road tunnels and ensure the safety and comfort of road users. Thanks to the implementation of this technology, we can reduce electricity consumption by 66%, which means a reduction of 153 tons of CO2 per year, obtain 100% lighting homogeneity and regulate the equipment freely. 


This project presents an innovative tunnel lighting system based on LED technologies that has its field of application on the user and tends to respond not only to environmental issues, but also has a positive effect on citizens, ensuring their safety and improving their quality of life. 
The implementation of this pioneering solution has great advantages for the user in terms of safety and comfort. Thus, the system facilitates the adaptation to the pupil dilation rhythm, eliminates the flickering effect inside and allows to increase the light intensity.

  • Innovation
  • Tunnels
  • Security
  • Environment
  • illumination
Sacyr Innovation Innovation projects Expansion works of the Panama Canal: the largest engineering piece of work in the 21st century
  • Hydraulic infrastructures

Expansion works of the Panama Canal: the largest engineering piece of work in the 21st century

The third set of locks has opened a new interoceanic transit route, doubles current ship traffic, and complies with rigorous environmental standards

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

4

KILOMETERS

Two two-kilometer platforms on the Atlantic and Pacific coasts 

3,380

MILLION EUROS

Of total investment

10,000

PEOPLE

Involved in the project

Construction for the future

The expansion of the Panama Canal is a colossal work from an economic standpoint as well. The Canal is a strategic route for international trade and at 6% of Panama’s GDP, is the country’s principal economic activity. With a total investment of almost 4,000 million euros, this project has yielded Panama up to 2,500 million euros per year and has generated 180 direct employment positions. 

Innovation at the service of engineering

We designed a unique kind of concrete in order to overcome the challenges that the area posed from the technical, orographic, geological, and climatic standpoints. We improved the formula to guarantee a lifecycle of at least 100 years. Chemical proof, this concrete can stand inner temperatures of up to 70ºC. We also worked on a pioneer earthquake protocol response model, designing a structure ready to respond to two kinds of seismic levels. 

"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

An efficient and sustainable project

Right from the start, the expansion of the Canal has taken the environmental aspects into account. As the new set of locks is quicker to fill and empty, they consume 7% less water. The sluicegates have nine deposits that allow reusing water and save up to 60% of this precious resource. 

As for its atmospheric impact, we estimate that the third set of locks will help reduce more than 160 million tons of CO2 from the shipping sector in the next ten years. 

We also care about preserving the biodiversity of Gatun Lake, which the Canal traverses. Before beginning construction works, environmental specialists rescued and relocated all local fauna (such as turtles, caimans, sloths, and boa constrictors) to the adjacent San Lorenzo park. Furthermore, we reforested a surface area of 2,800 ha, planted close to 6 million trees, and carried out training, informative, and follow-up programs about the project with the local communities.

Rescue and relocation of local flora and fauna species

Right from the first clearing and dredging jobs, we established strict protocols to care for wild flora and fauna:
  • 4,500 rescued and relocated specimens 
  • 200 protected species 
  • 2800 ha of reforested surface
  • 5,8 million trees planted

Brief history of the Panama Canal

The Spanish were the first to promote the creation of a maritime route in Panama. In the 15th century, they opened the Camino de Cruces, connecting the Atlantic and Pacific coasts for the first time. In the 19th century, several expeditions took place in the isthmus, and the transoceanic railway was inaugurated, which was pivotal to the later construction of the Canal. In the early 20th century, the United States started looking into the Panama transoceanic route with a keen eye. A few days after the country obtained its independence, they won the concession for constructing the Canal from the French company Compagnie Universelle du Canal interocéanique de Panama. Construction works started in 1904 and ended in August 1914, going down in the history of engineering. 

  • Sacyr Infrastructures
  • Canal de Panamá
  • Tercer Juego de Esclusas
  • Panamá
Sacyr Innovation Innovation projects Lifesure, sustainable urban roads

Lifesure, sustainable urban roads

We developed the technology to manufacture recycled bituminous mixtures for use on urban road surfaces

 Lifesure project

The production of hot mix asphalt (HMC) requires significant energy consumption and generates a large volume of greenhouse gases. Similarly, the maintenance and rehabilitation of road pavements and other roads produces an enormous amount of waste from the milling of bituminous mix layers.

LIFESURE provides an answer to all these problems. This project uses new technologies to efficiently manufacture 100% recycled mixes at low temperature so that they can be reused on urban roads.


 

LIFESURE

This project represents the teamwork and successful collaboration of several areas of the Group (Machinery, Engineering and Innovation). It is led by Sacyr Engineering and Infrastructures and involves strategic partners such as the Madrid City Council and CEDEX. In addition, LIFESURE is an initiative aligned with our strategy to meet the Sustainable Development Goals (SDGs). With it, we want to contribute to the improvement of the sector, sustainability, the economy and society in general.

  • New technologies
  • Energy saving
  • Environment
  • Spain
Sacyr Innovation Innovation projects BOCALT, heat for a more sustainable energy

BOCALT, heat for a more sustainable energy

We design and develop a novel heat pump for applications with high temperature heat sources

One of the lines of action for reducing CO2 emissions is the decrease in the consumption of fossil fuels and the increase in the production of energy from renewable sources.
In this context, the recovery of residual heats, which are currently not being used, and the use of various types of renewable energies, which can be captured at medium temperature, such as solar thermal energy or medium enthalpy geothermal energy, would be important advantages both environmental and energy consumption reductions. In the same way, it would allow the increase of the use of renewable energies.

 

 

BOCALT

Is an R&D project that consists of the design and development of a new heat pump capable of using heat from sources at high temperatures (between 30ºC and 60ºC). This solution allows us to recover waste heat from industrial processes or renewable energy sources, capable of heating fluids to temperatures close to 80 ºC with high efficiency, incorporating a natural refrigerant that not only meets the requirements of the new F-Gas regulation for this type of equipment but scores highest on global atmospheric warming potential indices. All this, without damaging the ozone layer, and also using the latest generation inverter (modulating) compressors.
The potential for using this technology is enormous since it can be implemented in energy rehabilitation projects to replace boilers while maintaining radiators, in centralized sanitary hot water heating facilities without the need for a sanitization system, for heating process or industrial fluids. , to take advantage of the heat recovered from fluids or residual effluents, or to use springs or geothermal wells with low enthalpy (30 to 60 ºC), etc.

  • CO2
  • Energy
  • Environment
Sacyr Innovation Innovation projects Repair 2.0, sustainable technology for road rehabilitation

Repair 2.0, sustainable technology for road rehabilitation

We are developing new techniques and information systems for the sustainable rehabilitation of road pavements

The Repair 2.0 project aims to develop new technologies and methodologies that support infrastructure management and allow the rehabilitation and conservation of any type of road at a lower economic and environmental cost, improving their adaptation to climate change.
The implementation of this project has allowed us to develop new recycled asphalt mixtures at rates of up to 100%, which are more sustainable and resilient, mechanical performance similar to hot mixes, suitable for high capacity roads, obtained with low energy consumption and low emissions and manufactured at room temperature, (cold technologies), which is a world first.

 

 

  • New technologies
  • Transport infrastructure
  • Sustainable
  • Climate change
  • Big data
Sacyr Innovation Innovation projects Nanomaterials, more economical and sustainable soils

Nanomaterials, more economical and sustainable soils

ECARYSE is a project that pursues the reduction of lime in expansive soils by means of nanomaterials and the use of waste and stabilizing by-products

Currently, lime is used as a stabilizing agent in the process of stabilizing inadequate and marginal soils. This material has a very high cost and is a source of significant carbon dioxide emissions into the atmosphere. 
The ECARYSE project aims to achieve the stabilization of clayey soils for the construction of new road sections through the use of new components based on waste and by-products, achieving as a result a minimization in the use of natural resources and a significant cost reduction.

 

 

  • New technologies
  • Waste
  • Materials
  • Natural resources
Sacyr Innovation Innovation projects TUNNELAD, vehicle automation for tunnel works

TUNNELAD, vehicle automation for tunnel works

This project aims to automate vehicles whose main task is the loading and unloading of debris from the excavation of tunnels

TUNNELAD is a project that seeks to improve the mobility of vehicles whose task is to load and unload debris from the excavation of the tunnel by replacing conventional vehicles driven manually, by autonomous and connected vehicles, managed, moreover, from a control center. 
The main objectives of the project are the automation of Volvo A-25 trucks through the development of a removable kit adapted to their characteristics, as well as the development of the guidance system, location and perception of the environment in tunnels, and the development of the monitoring and control system.

 

 

  • Tunnels
  • Vehicle mobility
Sacyr Innovation Innovation projects GEOBATT, geothermal energy for more sustainable buildings

GEOBATT, geothermal energy for more sustainable buildings

Hybridization of geothermal energy with flow batteries for the air-conditioning of zero energy tertiary buildings

The GEOBATT project aims to develop a new energy technology to supply the air conditioning systems of buildings based on the hybridization of subway thermal energy storage (low enthalpy geothermal) with electric energy storage by means of flow batteries. All this, with the aim of obtaining buildings with almost zero energy consumption, with application in both developed and developing countries, contributing to a more sustainable building industry.

 

 

  • Sustainable
  • Machinery
  • Energy efficiency
Sacyr Innovation Innovation projects We are building Latin America’s largest cement works in Oruro and Potosí (Bolivia)
  • Infrastructures

We are building Latin America’s largest cement works in Oruro and Potosí (Bolivia)

These two factories can produce more than 3,000 tons of clinker a day.

We are building the largest and most modern cement works in South America, in Oruro and Potosí. The Potosí cement works are a greenfield design. The project includes the construction, assembly, and commissioning of a new clinker line capable of producing 3,000 tons a day, and a cement line that can produce up to 1.3 million tons of cement a  year.

The Ouro project is also greenfield, encompassing design, the supply of materials and equipment, construction, assembly, commissioning, training, and intellectual transfer. The plant has a minimum capacity of 3,000 tons of clinker a day to manufacture Portland Type IP-30 Cement in accordance with Bolivian Standards. This double project represents an investment of close to 435 million euros. 

1,3

MILLONES DE TONELADAS

Producción anual de cemento en Potosí

3.000

TONELADAS

Producción diaria de clínker en ambas cementeras

435

MILLONES DE EUROS

Presupuesto de construcción

  • Cement

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