We have always been guided by the belief that the quality of our environment has a direct influence on the quality of our lives, whether at work, at home or in the public sphere. Building and architectural practices must meet the material and spiritual needs of users as well as the local physical context, climate and culture.
Our responsibility as Architects and Building Engineers is to integrate social, cultural, economic and environmental interests into every project in which we participate. Developing clear and effective communication is at the heart of our approach. We are committed to the goals of our customers, responding to their needs and the program specifications with creativity, rigor, consistency and innovation. In liaison with the best consultants, we establish a serious collaboration to find the most appropriate solutions. We never stick to any readymade tenet or model; instead, we always remain open and receptive to the requirements of the program, the site and the specific implications of the project. For us, it is of utmost importance to ask the right questions at the right time.
We believe that the best design comes from a synthesis of all the building elements that are usually taken separately: its fabric and architecture, its ecological characteristics, the use of natural light, the symbolism of its form, the relation between the construction and the surrounding urban landscape, the way in which people move through or around the building and, finally, its power of inspiration.
Our goal is to create buildings and spaces that enhance the lives of their users as well as of the local community.
In all our projects we are committed to using the Ecoconstruction principles and rules that are an integral part of the Sustainable Development concept.
Although architects and engineers cannot solve all of the world's ecological problems, we can design buildings that will operate with optimized solutions, and integrate them into appropriate urban planning. Sustainable development is also about taking into account the location of the project as well as the local culture that surrounds it.
This type of development requires us to think of a building globally, in terms of its location and functions, its flexibility and its life span, to take into account its orientation, to imagine its shape and its structure, its heating and ventilation systems as well as the materials used, all of which have an essential impact on the amount of energy needed to build, maintain and operate it. Indeed, only by searching for the new solutions to these problems will we be able to create sustainable buildings for the future.
From energy efficiency, through engineering of building systems, and to a choice of artificial lighting, all the technical equipment and interior fittings, our team of experts along with competent and coordinated specialists offer their services at the very start of each project.
We are involved in all the stages of the project development process: general analysis, diagnostics, functional analysis as well as urban, architectural and technical planning in order to be able to establish an appropriate functional program.
From design development to technical and administrative specifications, from project management to site monitoring, our team takes into account environmental, social, technical and economic aspects as well as controlling and managing the mastery of Quality, Cost and Deadlines.
Our services: Turnkey Project Realization, Project Ownership Assistance, Project Management (Architecture & Engineering), Construction Works Management & Direction, Coordination of Authorizations
Our areas of expertise and activity: Renovation or Reconstruction, New Construction, Interior Improvements, Green Architecture.
Types of buildings involved: Office, apartment and commercial buildings, shopping centers, industrial buildings and logistics platforms, health institutions, buildings of diplomatic representations, international institutions, non-governmental organizations, etc. ...
|Project Name||Type of service||Sector||City||Country|
|Project of implementation of a Malteurop factory, Kyiv||Preliminary study||Architecture & Construction, Energy, Agri-Agro & Aroma||Kyiv||Ukraine|
|Identification of biomass resources and preliminary studies of boilers conversion and of heating networks, Kolomyia||Preliminary study||Energy, Architecture & Construction, Environment||Kolomyia||Ukraine|
|Identification of biomass resources and preliminary studies of boilers conversion and of heating networks, Tchernivtsi||Preliminary study||Architecture & Construction, Energy, Environment||Tchernivtsi||Ukraine|
|Identification of biomass resources and preliminary studies of boilers conversion and of heating networks, Ivano-Frankivsk||Preliminary studies||Energy, Architecture & Construction, Environment||Ivano-Frankivsk||Ukraine|
|Biomass district heating: project of boiler-houses heat conversion into biomass, Romny||Detailed preliminary draft||Energy, Environment, Architecture & Construction||Romny||Ukraine|
|700 MW wind park development, Crimea||Turnkey||Energy, Environment, Architecture & Construction||Crimea||Ukraine|
|Project of 50 MW solar park, Odessa region||Development||Energy, Environment, Architecture & Construction||Odessa||Ukraine|
|30 MW solar park, Odessa region||Development||Energy, Architecture & Construction||Odessa||Ukraine|
|Project of solar greenhouses, Kherson region||Feasibility studies||Architecture & Construction, Energy, Agri-Agro & Aroma||Kherson||Ukraine|
|15 MW wind Park, Kherson region||Development||Architecture & Construction, Energy, Environment||Kherson||Ukraine|
|Exportation of the Rhone Poulenc Plant to Saudi Arabia, Ryad||All building trades study||Architecture & Construction, Other services||Ryad||Arabie Saoudite|
|Renovation of the Lomonosov university, Moscow||Turnkey||Architecture & Construction||Moscow||Russiа|
|Conception of the Brunei Memorial Museum, Dar es Salam||Design, participation in the contest||Architecture & Construction||Dar es Salam||Sultanat de Brunei|
|Fedotov hospitals: Turnkey project of the modular operating rooms, Moscow||Studies and calculation||Architecture & Construction||Moscow||Russiа|
|Michelin factory: Engineering of the industrial site heating network, Saint-Hingberg||Development||Architecture & Construction, Energy||Saint-Hingberg||Allemagne|
|Turnkey project of circuit board plant, Sofia||Turnkey||Architecture & Construction||Sofia||Bulgaria|
|Turnkey project of circuit board plant, Prague||Turnkey||Architecture & Construction||Prague||Czech Republic|
|Turnkey project of circuit board plant, Bakou||Turnkey||Architecture & Construction||Bakou||Azerbaijan|
|Turnkey project of wind park, Ereïmentaou||Turnkey||Architecture & Construction, Energy, Environment||Ereïmentaou||Kazakhstan|
|Ministry of Agriculture of Libya: modular milk production units, Tripoli||Development||Architecture & Construction, Agri-Agro & Aroma||Tripoli||Libye|
|International Village "Sport et Vacances": hotel center in the form of village furnished with 300 accommodations, Boucotte||General design||Architecture & Construction||Boucotte||Sénégal|
|Lagon Bleu: Spa complex, Côte d'Ivoire||Programmation and feasibility studies||Architecture & Construction||Côte d'Ivoire||Côte d'Ivoire|
|Construction of Riyadh Palace Hôtel, Ryad||Studies and implementation||Architecture & Construction||Ryad||Saudi Arabia|
|International hotel: study of water pipelines, heating and ventilation systems, Sharm-el-Sheih||Fluids studies||Architecture & Construction||Sharm-el-Sheih||Egypt|
|Development of 10 MW solar park, Zhytomir region||Due diligence||Architecture & Construction, Energy, Environment||Malyn||Ukraine|
|Девелопмент проекта СЭС мощностью 34 МВт, Херсонская обл.||Development||Energy, Architecture & Construction||Kherson||Ukraine|
|Trifonovka Energies : development of 10 MW solar park, Trifonovka||Feasibility studies||Energy, Architecture & Construction, Environment||Trifonovka||Ukraine|
|Energy efficient modernization of urban waste water station in the 1,5 M inhabitants city, Kharkiv||Pre-feasibility studies: wastewater treatment plant, main pumping station||Energy, Architecture & Construction, Environment||Kharkiv||Ukraine|
|Turnkey project development and coordination for the 6 MW biomass boiler, Slavouta||Development and turnkey implementation||Architecture & Construction, Energy, Environment||Slavouta||Ukraine|
|Water pump station in the 1,5 M inhabitants city, Kharkiv||Feasibility studies and energy audit||Architecture & Construction, Energy, Environment||Kharkiv||Ukraine|
|Urban heating system fuelled by biomass for the 76 000 inhabitants city, Berdytchiv||Feasibility studies for the optimization of the district heating system in Berdychiv, including the biomass boiler and the new hot spots||Architecture & Construction, Energy, Environment||Berdychiv||Ukraine|
|Energy audit for the regional children hospital, Rivne||Feasibility studies and energy audit for energy efficiency improvement||Energy, Architecture & Construction||Rivne||Ukraine|
|Energy audit for the school n° 2, Ladyzhin||Feasibility study and energy audit for energy efficiency improvement||Energy, Architecture & Construction||Ladyzhyn||Ukraine|
|EBRD: Lender's engineer for 37,5 MW wind park, Otchakiv||Due diligence, construction and operation monitoring||Architecture & Construction, Energy, Other services||Otchakiv||Ukraine|
|Framatom : Study of export standards for 2x600 and 2x900 MW nuclear islands of the nuclear power plant Daya Bey, Daya Bey||Technical specifications studies of ventilation materials, ice water filtration and production, analysis of facilities' security, safety and earthquake resistance||Architecture & Construction, Energy||Daya Bey||Chine|
|Framatom : Study of export standards for 2x600 and 2x900 MW nuclear islands of the nuclear power plant, South Korea||Technical specifications studies of ventilation materials, ice water filtration and production, analysis of facilities' security, safety and earthquake resistance||Energy, Architecture & Construction||Corée du Sud|
|Framatom : Study of export standards for 2x600 and 2x900 MW nuclear islands of the nuclear power plant Karun, Karun||Technical specifications studies of ventilation materials, ice water filtration and production, analysis of facilities' security, safety and earthquake resistance||Energy, Architecture & Construction||Karun||Iran|
|Electricity of France (EDF): project of waste heat recovery from the Flammanville nuclear power plant, Flammanville||EDF: project for the use of thermal discharges at the Flammanville nuclear power stations, Flammanville||Energy, Architecture & Construction, Environment||Flammanville||France|
|Electricity of France (EDF): project of waste heat recovery from the Cattenom nuclear power plant, Cattenom||EDF: project for the use of thermal discharges from Cattenom nuclear power stations, Cattenom||Energy, Architecture & Construction, Environment||Cattenom||France|
|Electricity of France (EDF): project of waste heat recovery from the Gravelines nuclear power plant, Gravelines||EDF: project for the use of thermal discharges at the Gravelines, Gravelines nuclear power plants||Energy, Architecture & Construction, Environment||Gravelines||France|
|Electricity of France (EDF): project of waste heat recovery from the Fessenheim nuclear power plant, Fessenheim||EDF: project for the use of thermal discharges from Fessenheim nuclear power plants, Fessenheim||Architecture & Construction, Energy, Environment||Fessenheim||France|
|Electricity of France (EDF): Ventilation study for the supporting buildings of the nuclear power plant (fuel building), Marcoule||Absolute filtration, iodine trapping by activated carbon, radion protection, decontamination, dismantling studies for exchangers of power stations G1, G2 and G3||Energy, Architecture & Construction||Marcoule||France|
|Rationalization of maintenance and optimisation of regulaton for the municipal buildings heating system, Strasbourg||Energy efficiency||Energy, Architecture & Construction||Strasbourg||France|
|Val de Marne Public Office for Development and Construction (OPAC): conception of the municipal buildings management, Puteaux||Energy consumption optimization, comfort and user safety improvement||Energy, Architecture & Construction||Puteaux||France|
|Monaco Congress Center: Design study and preliminary study of the congress center Forum Grimaldi||Architecture & Construction||Monte Carlo||Monaco|
|Musée d'Orsay: Renovation of the building of the station Gare d'Orsay, Paris||Renovation of the total area of 60,000 m2 including 30,000 m2 of an exhibition hall and a multipurpose room with 400 seats||Architecture & Construction||Paris||France|
|European Parliament: Development of the centralised technical management system of the alarm and security complex in the European parliamentarians' offices, Strasbourg||Implementation||Architecture & Construction||Strasbourg||France|
|Council of Europe: Construction of the meeting, teaching and living rooms in the European Youth Centre, Strasbourg||Construction of meeting rooms, classrooms and accommodation facilities||Architecture & Construction||Strasbourg||France|
|Montpellier Méditerranée Airport: Balancing of 15/20 kV grid and installation of the boarding bridges' supply, Montpellier||Implementation||Energy, Architecture & Construction||Montpellier||France|
|Paris-Orly Airport: Feasibility study of the snow removal system for aircraft hangers, Paris||Feasibility studies||Architecture & Construction||Paris||France|
|Paris Roissy-Charles de Gaulle Airport: Сorrosion protection of flashlights, installation of the heating, ventilation and air conditioning systems, Paris||Turnkey||Architecture & Construction||Paris||France|
|Paris Orly Airport, South Terminal: Installation of the central parc electrical supply, Paris||Turnkey||Energy, Architecture & Construction||Paris||France|