SENER

SENER
Industry Engineering & Construction
Founded 1956
Founder Enrique de Sendagorta
Headquarters Getxo, Basque Country, Spain
Number of locations
Facilities in 11 countries
Area served
Worldwide
Key people
Jorge Sendagorta, president
Revenue Increase €1,159 million (2011 figures)[1]
Increase €107.58 million (2011 figures)
Number of employees
+2,000
Website www.sener.es

SENER is a private engineering and technology group founded in 1956 specialized in offering technological solutions. It accomplishes specific activities related to Engineering and Construction, and has industrial holdings in companies working in the areas of energy, environment and aeronautics.

SENER Ingeniería y Sistemas

The Engineering and Construction area, called under the name SENER Ingeniería y Sistemas, has a turnover of more than 653 million euros (2011 figures), about 2,200 employees and branch offices in Algeria, Argentina, Brazil, Japan, Mexico, Poland, Portugal, South Korea, Spain, United Arab Emirates, United States and India. The company develops projects in the sectors of Aerospace, Civil and Architecture, Power and Process and Marine Engineering.

Aerospace Engineering

Main article: Sener Aeronáutica

During the last 43 years SENER has supplied equipment, systems integration and engineering services to international markets in the fields of Space, Aeronautics and Vehicles and Defense.
In the Space field, the company develops components and systems for the flight segment in its three areas of activity: precision mechanisms, guidance, navigation and control (GNC) systems and optical payloads. As far as precision mechanisms are concerned, SENER carries out projects such as providing the entire antenna system used in the Solar Orbiter mission and the medium- and high-gain antennas for the BepiColombo satellite. In optical payloads, it has developed systems such as the UV camera for the World Space Observatory satellite. Regarding guidance, navigation and control (GNC) systems, mention should be made of projects such as the Attitude and Orbit Control System (AOCS) for the Herschel and Plank scientific satellites or the project as prime contractor for the Proba-3 space mission. This activity is complemented by projects carried out by NTE-SENER, company owned by SENER, specializing – as far as the Space sector is concerned - in developing life support projects, such as the European Space Agency’s MARES or MELISSA programs.
In Aeronautics and Vehicles, the company delivers detail designs for automotive vehicles as well as of complex tooling facilities for aeronautical production lines. In this field, it has delivered turn-key production systems for wing stringer production and HTP assembly for the A350XWB. Regarding part production, SENER delivers turn-key equipment such as hot forming systems and pultrusion machines for wing spar production.
In the Defense field, SENER’s main area of activity is that of missiles: missile subsystems, actuation and control and SAL guided systems. Furthermore, the company has the ability to provide complete systems. Among its projects, we can mention the supply of Taurus missiles for the Spanish Air Force as main contractor or the participation in the IRIS-T[2] and Meteor [3] programs. SENER is also leading the project for the development of the future air defense system for the Spanish Army and Air Force, entitled Sagitario.

Power and Process

SENER develops processing and electricity generating plants, especially combined-cycle, co-generation and solar thermal power plants (the company has participated in projects involving 26 plants in India, Spain and USA, outstanding among which are Gemasolar, Valle 1 and Valle 2); nuclear power plants, liquefied natural gas regasification plants (as the Gate terminal in the Netherlands or the SAGGAS terminals), biofuels, refinery units, chemicals, petrochemicals and plastics plants, developing also transportation, storage and distribution systems for solid, liquid, and gaseous fuels.

Civil and Architecture

In this sector, SENER develops complete engineering projects for railroad infrastructure (International High Speed Line Figueras-Perpignan), high speed lines (sections of the high-speed lines Madrid-Valencia and Madrid-Barcelona), metros and Light Rail Systems, LRS (as lines 1, 2 and 4 of the Bilbao Metro, line 9 of the Barcelona metro or the light rail in Porto – Portugal -), roads and highways (developing technical standards for the ITS-Intelligent Transport Systems in Mexico), airports (Lublin Airport, preparation of the Master Plan of Mexico City Airport, etc.), ports (such as dredging projects in ports of Catalonia 2009–2012), marine works, hydraulic engineering, environmental projects, architecture and urbanism (reconstruction of Kraków football stadium, Bilbao Exhibition Centre or Valencia Airport Parking).

Marine

SENER has always retained its original marine vocation, and it is in this area that the company is specially acclaimed for its FORAN System.[4] FORAN is a CAD/CAM system for the design, production and manufacture of ships. The system comprises several application packages, a number of common modules (build strategy, 2D drafting, 3D walk-through design review, concurrent engineering), links with production equipment, interfaces to management systems and even its own integrated development environment. The system runs on Windows workstations connected through LAN or WAN, permitting a fully interactive and concurrent definition of the ship 3D product model. The most recent design information is saved in an Oracle database providing designers with a wide range of complementary disciplines. When designing each ship part or each sub-assembly, it allows to define production processes in parallel mode, thus enabling the generation (for the most part, automatic) of custom-made, accurate and well-organized production information. The company also undertakes engineering projects for ship design and engineering, such as the repair and modernization of the Argentinian Navy’s icebreaker "Almirante Irizar" or the Viking Line Ferry at Seville Shipyard.

SENER Grupo de Ingeniería

SENER Grupo de Ingeniería - the matrix company - promotes and takes part in manufacturing and production businesses. Through its Aeronautics area, it is present in consortium, such as Industria de Turbopropulsores ITP (sole Spanish industrial company producing aeronautical engines and gas turbines, started by SENER in 1984, and where SENER is at present the major shareholder). Furthermore, through its Energy and Environment area, SENER has promoted different projects – in which it also holds stock options and contributes with its own technology – in the fields of renewable energies and waste energy valorization such as Zabalgarbi, Tracjusa, Valpuren Comatur, Valpuren Bañuelo and Torresol Energy. The performance of all companies comprising the Energy and Environment area is based on technology and processes developed within the Group. A company highlight in 2011 was the commercial operation start of the Gemasolar thermosolar plant, owned by Torresol Energy, which has a rated power of 19.9 MW.

SENER Foundation

In 2002 SENER established the SENER Foundation[5] having as a goal to support the training and work of people or groups from Spain or other countries that stand out for their scientific or technological competence, thus contributing to the progress of society. In support of young newly graduated engineers, the Foundation awards scholarships for postgraduate studies that are followed by an employment internship at SENER, which is a way to facilitate the integration of these professionals in technology projects.

SENER websites and domain names

In June 2016, Sener was one of the very first brands to launch a complete digital platform using the new branded domain name extension.[6] Seven domain name, with very specific domain names - engineeringandconstruction.sener, marine.sener, or aerospace.sener. This enables the brand to access the content more easily.

22 domain names were initially registered in the dot Sener Top Level Domain name, out of which thirteen are the URL of an actual website.[7]

References

This article is issued from Wikipedia - version of the 11/10/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.