• Energy requirements?
• Weighing up the priorities in the “magic triangle” of quality, costs and duration
• Definition of an objective as a benchmark for all subsequent planning phases
• Development of the evaluation criteria as expert assessors in architectural competitions

• The physics of the building and acoustic requirements are taken into consideration
• Fire protection and smoke extraction are taken into consideration,
• Cleaning and maintenance plan, access at heights
• Outlining solutions, costs and timings
• Inclusion of existing solutions to clarify the design
• Support during the initial sampling
• Documentation in report form
• Ongoing updating or further development of the design

• Planning on the basis of static pre-dimensioning for the relevant facade components – glass, profiles, fixings
• Advanced planning for the building physics and acoustics
• The specified security and fire safety requirements are taken into consideration
• Planning and integration of control and operating components
• Updating costs and the construction schedule
• Agreed plan for the materials
• Glass specifications

• Compilation of the design and additional technical criteria in coordination with the planning team
• Drafting of the service description
• Individual quantities and components are recorded
• Differentiation of the various trades when awarding contracts to different contractors, clear definition of the interfaces
• Collation of all documents in a single set of documentation

• Overall energy performance: We determine the necessary values from building services and the facade to work out the overall energy performance of the building. An important component, especially in residential buildings, is the calculation of the transmission heat loss of the entire exterior of the building.
• Isothermal profile and thermal bridges: We analyse the isothermal profile within the planned or implemented construction, calculate 2 or 3 dimensional thermal bridges and give recommendations to avoid condensation forming
• Component construction with layer construction: Depending on the commission, we draw up a catalogue for the entire building or selected components, which shows the scale of each individual component in its layer structure and specifies the material qualities in order to give those involved in planning certainty about the structural-physical qualities of the planned construction.
• Advice throughout every phase: This is the basis on which we advise architects and builders, general contractors and facade manufacturers, whom we assist in all planning and implementation phases.

To this end, particularly critical rooms in a building are identified and analysed so that recommendations can be made for further specific planning. When we need to analyze particularly complex systems or processes, we use a range of 3-dimensional flow simulations (CFD Computational Fluid Dynamics). For this purpose, we convert the given three-dimensional building structure into CFD-readable data sets and enter the energetic, building physics and weather data into the program. For example, statements on flow velocities, temperature distributions in the room air and on surfaces can be determined.

We also use CFD programs for the verification of smoke extraction scenarios as well as necessary or planned smoke extraction and post-flow cross-sections. Cross-sections or the number of conventionally determined smoke extraction openings can thus be optimised and often reduced.