Management of R&D



Designing a right Strategic Plan for R + D + I, aligned with the growth plan of the company


Maximum external financing. National and European programs.

Innovation Culture

Development and implementation of a programme of entrepreneurial change based on innovation


Solintel seeks to serve its clients more than twenty years experience in management of R + D + i for companies in traditional sectors such as construction, agriculture and transport, as well as in the environmental area. Investment in R + D + I must meet:

  • Business orientation.
  • Prefetch existing technology (state of the art)
  • Planning and control. Continuous assessment.
  • A proper business plan and implementation of business results. Including a strategic plan for the protection of property.
  • An effective training plan and business transformation

Our consulting services in management of R + D + I are targeted at sectors such as agriculture, construction and transport.

Defined and developed strategic R & D business model adapted to current and future expansion plans. Thanks to the knowledge of the National R + D, stand-alone programs and international programs (FP7, Iberoeka, Eureka, Ecoinnovation, ...) we are able to design a funding model that ensures the highest percentage of return on financial public.

We make easier the certification process to ensure maximum use of tax incentives on R + D + I and advise on the implementation of the Certificate Management System R & D & I.


TDEITE.- Development of techniques for design and implementation of transport infrastructure based on the use of new materials that minimize execution time and resources, as well as air emissions during construction.
Duration: 2008-2010

1.015.678,00 €

The purpose of the project "Development of techniques for design and implementation of transport infrastructure based on the use of new materials that minimize execution time and resources, as well as air emissions during construction (tdeite)" is to contribute significantly to the development of sustainability through design and implementation techniques of structural elements of transport infrastructure using composites in combination with traditional materials such as concrete and steel.

ENZYTEC.- Development of a new enzyme-based sustainable product focused on soil stabilization as an alternative to traditional stabilization processes .
Duration: 2008-2010

750.883,00 €

This project aims at sustainable development of a new enzyme product focused on soil stabilization, allowing the substitution of traditional products such as cement and lime, while maintaining efficiency in the stabilization process.

BEEMP_UP.- Demonstrate the social and economic returns to tailor initiatives to dramatically reduce energy consumption in existing buildings, and lay the groundwork for mass commercial release.
Duration: 2011-2015

7.700.00,00 €

Develop and demonstrate an effective and economical renovation existing residential buildings, drastically reducing energy consumption in the following areas: 77% in the energy required for heating, 45% in the energy needed to heat water, and 42% in light. All this without compromising user comfort and without damaging the environment.

BIOSOS.- BIOS is an acronym for Sustainable Biorefinery. The final project is to develop technologies for the design of integrated biorefinery concepts combining the production of energy and bioproducts.
Duration: 2009-2012

27.613.423,00 €

Develop each of the stages that make up the biorefinery concept, defined as the development of biorefining technologies based on biomass as a raw material that combines biological, chemical and thermal and exploits the synergies between different technologies, resulting in a full range of products.

E-HUB.- The ambition of this project is to enable the use of the full potential of renewable energies (up to cover 100% of the energy demand at the district level). To achieve this, the concept of E-Hub is developed, which is crucial for the implementation of such a large share of renewable energy.
Duration: 2010-2014

11,660,114.00 €

Identify and develop, where appropriate, the power generation and energy storage to serve existing large energy demands. Establish districts "type" of European geography that energy demands associated with "type" to be covered by previously inventoried technologies / developed. Develop a system of global control and energy management for the district (the E-Hub) from which emerge management models and energy business will also be detailed.

EE-QUARRY.- The EE-QUARRY project arises from the need to control a very energy-intensive industry demanding that characterizes its high energy demands and huge CO2 emissions .
Duration: 2010-2014

6.380.000,00 €

Improving energy efficiency and reduce CO2 in the quarries, through the development of a new and very effective technical supervision and Energy Management System. The use of crushed rock would increase at a rate faster than any use of material importance.

FC DISTRICT.- The overall project objective is to optimize FC-DISTRICT and implement an innovative energy production and efficient energy for a sustainable, exploitation of decentralized cooperation of generation, along with the construction and optimization of district heat storage and distribution network.
Duration: 2010-2014

11.836.264,60 €

The concept is based on the heat exchange between the dynamics of the buildings (equipped with fuel cells, solid oxide) for energy production in collaboration with the improvement of thermal storage systems and building insulation, the distribution system (optimized pipelines and district heating, with or without a cushion of heat) and consumption (new business models and services) in order to achieve energy balance at the district level.

FLOODPROBE.- The main objective is to provide cost-effective means FloodProBE to reduce the risk of flooding in urban areas. To this end, FloodProBE develop technologies, methods, concepts and tools for evaluating and adapting new and existing buildings and infrastructure.
Duración: 2009-2014

4.634.615,00 €

Develop technologies, methods and tools for flood risk assessment and adaptation of buildings both new and already built, infrastructure and protections. This will have a better understanding of vulnerability, resilience and functioning of flood protection. This research supports the implementation of Floods Directive through the development of strategies for flood risk management more effective.

RECTYRE.- The main objective of this project is to demonstrate the technical and commercial feasibility of a new use of shredded tires, developing a new product to market without any thermal or chemical treatment. The real innovation of the project is the modification of the design parameters in order to replace the natural ground synthetic fillers.
Duration: 2009-2011

1.294.391 €

The main tasks are to optimize the process and applications, which will increase the penetration potential of this development in new markets. The main result of the project are recycling and reuse networks to detect and to help create future replications in the market. These networks of suppliers and processors will be tested in Poland.

S4EeB.- Develop and implement a prototype to optimize the existing Building Management System by identifying, monitoring and adding the parameter of "occupancy" in the buildings and the environment to improve operations and eliminate unnecessary energy consumption in heating, ventilation , air conditioning and light.
Duration: 2011-2014

3.957.997,00 €

This is achieved through the integration of a new network of low cost audio sensors detect other construction materials and controls and improved automation strategies and algorithms and conditioning deployed, calibrated and validated at two sites trade and an international airport operational status in real time in order to demonstrate that the benefits justify saving and investment, providing new solutions to market and support the reduction of climate change.

TRANS-IND.- The overall objective of the Trans-IND is to develop a cost-effective construction process to allow greater capacity for industrialization of items for transport infrastructure (road bridges, footbridges, retaining walls, noise barriers and security, ...) made reinforced polymeric materials (fiberglass and carbon), the Trans-IND.
Duration: 2009-2013

9.765.714,00 €

Trans-Ind cover all activities, from the collection of needs and customer requirements to the design of the modules and components of transport infrastructure, manufacturing of components, logistics, transport and assembly in situ, as well as developing the technological tools needed to manage the entire process.

CETIEB.-The renovation at an efficient level of energy that buildings are made ​​tight and affects the indoor climate. In the case of restoration, the inhabitants or users are not adapted to this new situation. Therefore, the air exchange rates may be lower than that required mechanical ventilation if there is installed or the system performance is optimized. Then, try to increase the energy efficiency of buildings, indoor environmental quality is often degraded due to the lack of exchange with the outdoor environment.
Duration: 2010-2013

3.460.000,00 €

The project's main objective is to develop innovative solutions for better control of indoor environmental quality and to investigate active and passive systems to improve it. The focus is on cost effective solutions to ensure a wide application of the systems developed.

EEPOS -Focuses on neighbourhood energy management and decision support systems that will integrate local consumers & producers (prosumers) with the main electrical and heating grids.
Duration: 2012-2015

4.148.424,00 €

The objectives are to develop a visionary scenarios and business models for neighbourhood energy services for energy trading between prosumers in neighbourhoods and the grid. Management systems for energy positive neighbourhoods. Information and decision support system for optimising the use of energy beyond the buildings. Methods for end-user engagement and interfaces to support them with relevant information. Validation in real environments and virtual simulations.

FLOATEC.-Floating technology for water retention and flood resilience in the urban fabric.
Duration: 2008-2011

1.500.000,00 €

Development of a basic module floating structure that meets the requirements of different applications of high commercial potential. On the other hand is to establish the foundation for technological cooperation, research and commercial, durable over time among the participating companies


Edificio PAYMA
Avda. de la Industria 32, EP-2
28108 Alcobendas (Madrid)
Tlf. + 34 91 229 13 68
Fax. +34 91 299 13 67



Jose Luis Royo



Patricia Pineda