MEPF engineering + Structural engineering

Is responsible for the full design of the techinal systems of the buildings as well as close follow-up on the installation and operation. We offer MEPF design solutions that:

– Optimise the initial investments

– Minimise the operational cost

– Enhance “glocalization” – combining global expertise with local knowledge and experience

– Improve user comfort

Closely follow-up technical installations during and after construction

– Are recognized as environmentally friendly

 

  • Mechanical Design
  • Electrical Design
  • Plumbing Design
  • Fire Safety Design and Consulting
  • Structural Engineering
  • Mechanical Design

    Design heating, ventilating, air conditioning, exhaust, heat recovery, outside air pretreatment & dehumidification, central chillers, central heating, temperature controls and energy recovery systems in compliance with international standards such as ASHRAE, European codes, British standards as well as local.

     

  • Electrical Design

    Design entire power distribution of high and low voltage, uninterruptible power supply (UPS), emergency backup power generators, cogeneration, lightning protection, interior & exterior lighting, sports lighting, presence light detector and dimming systems in connection and coordination with all other building system designs requiring electrical power.

  • Plumbing Design

    Limiting water consumption and distribution losses has an important impact on the ecological footprint of the building. Our specialists are experienced in the various sub-domains such as water distribution, legionella control, rainwater recovery, water treatment and pumping.

  • Fire Safety Design and Consulting

    Design fire safety systems including early fire detection, suppression, wet & dry control/extinguishing systems, sprinklers, fire pump designs, and smoke evacuation systems utilizing CFD model simulations.

  • Structural Engineering

architectural lighting consultancy

  • The aesthetic
  • The comfort
  • The energy efficiency
  • The aesthetic

    Appeal of a building, adding an extra layer to the visual experience of a building. This is done by highlighting the design, selecting the right light temperature, hence creating an atmosphere that suits the building.

  • The comfort

    Making sure that the user has the right amount of light on the right place

  • The energy efficiency

    Optimizing the amount of light, by avoiding over-illumination and by adjusting the light levels over the course of the day. Together, these 3 design fundamentals create a light design that is in harmony with the space and its users.

sustainable engineering consulting

Our consulting department offers specialised studies and guidance related to sustainability and building physics for buildings and masterplans. These include feasibility studies and various building physics simulations as well as studies on:

  • Sustainable Service
  • Visual comfort: daylight simulations, ...
  • Thermal comfort
  • Sustainability/Green building certification: EPBD, BREEAM, WELL, ...
  • Sustainable Service
  • Visual comfort: daylight simulations, ...
  • Thermal comfort

     

  • Sustainability/Green building certification: EPBD, BREEAM, WELL, ...
    • EPBD reporting
    • Energy audits

research & development

Involvement and cooperation in scientific research is of utmost importance in determining the best energy efficient solutions for buildings. Research participation must aim for realistic, reusable and financially viable technologies. Together with various universities and agencies we are involved in national and international research programs, supporting the company’s priority of integrating new research and innovations with the necessary essential follow up for our projects. Once these innovations are implemented we continue to collect performance data. We participate in scientific research when it is in line with our vision and mission, both in content and concept.

  • Smart city approach
  • Thermal grids
  • Geothermal applications
  • NZEB/ZEB
  • Smart city approach

    Europe’s model for Smart Cities and communities integrates cities, industry and its local inhabitants to improve urban life by practicing more sustainable integrated solutions. The participatory approach includes better planning, applied innovation, transportation solutions applied, higher energy efficiency reducing carbon footprint and intelligent ICT applications.

  • Thermal grids

    Thermal Grids can play an important role for the future of Smart Cities by ensuring a reliable and affordable heating and cooling supply to various users/inhabitants utilizing low-carbon and renewable energy sources like waste heat, solar energy, biomass, geothermal energy and waste-to-energy applications.

  • Geothermal applications

    Geothermal energy is clean, sustainable, energy efficient and cost effective. Geothermal heat pumps are significantly energy efficient compared to conventional heating systems. Since they draw heat from the ground in the winter and the reverse in the summer it is possible to take advantage of this resource to heat and cool buildings.

  • NZEB/ZEB

    The total amount of energy used by a NZEB in a year is roughly equal to the amount of renewable energy sources available or created on the site often provided by a smart thermal grid system, solar and wind power.
    *NZEB: Net Zero Energy Buildings
    *ZEB: Zero Energy Buildings

other services

  • Architectural lighting design
  • BIM
  • Data room
  • Connectivity
  • Security
  • Swimming pools
  • Vertical & horizontal transport
  • Communication
  • Medical Gas Transport
  • Industrial kitchen
  • Theatre techniques
  • Commissioning
  • Architectural lighting design
  • BIM
  • Data room
  • Connectivity
  • Security
  • Swimming pools
  • Vertical & horizontal transport
  • Communication
  • Medical Gas Transport
  • Industrial kitchen
  • Theatre techniques
  • Commissioning