Contact us
We plan and design refrigeration systems that precisely match your requirements
An efficient refrigeration system is not only created during installation, but also during the planning phase. That’s why we develop a precise, economical and sustainable refrigeration concept for every customer. This is based on realistic load profiles, a detailed analysis of the spatial and technical conditions as well as the objective of your project – whether new construction, expansion or optimization of an existing system.
On this basis, we design the appropriate system architecture: from the selection of suitable components to the dimensioning of performance and the integration of modern control and safety functions. We take into account energy efficiency, operating costs, redundancy requirements and statutory regulations such as the F-Gas Regulation, the Pressure Equipment Directive and industry-specific standards.
Our practice-oriented approach results in planning that not only works on paper, but is reliable, efficient and future-proof in operation. The result: an overall technical concept that is precisely tailored to your processes and forms the basis for an economical, durable and service-friendly refrigeration system.
System planning together with our partner 2K Plan
2K plan
Planning office for building and industrial technology
Kaltes Feld 36a
08468 Heinsdorfergrund
Phone: 03765 3091483
E-mail: info@2k-plan.de
For complex projects, we rely on close cooperation with our partner office 2K Plan GmbH. As a specialist engineering office for technical building and industrial technology, 2K Plan develops sophisticated system solutions, integrates energy assessments and supports projects throughout all planning phases. In this way, you receive holistic, technically coordinated system planning – from the concept phase to the elaboration and successful implementation.
Energy analysis and efficiency planning for existing systems
A particular focus is on the energy analysis and optimization of existing refrigeration systems. The actual energy consumption, load profiles and control processes are examined in detail in order to identify weak points and inefficient operating areas. This forms the basis for a well-founded assessment that clearly shows where energy is being lost and which measures will have the greatest effect.
The analysis includes the testing of operating points, components and control strategies as well as the evaluation of compressors, condensers, defrosting and partial load behavior. Possible modernization options are also included – such as the use of new refrigerants, adaptations to regulatory requirements or the integration of digital monitoring and remote maintenance systems.
Specific packages of measures with savings forecasts, payback periods and profitability assessments are derived from all the technical data. This creates a basis for decision-making that makes it clear which optimization steps are technically and financially most worthwhile and how the efficiency of the system can be sustainably increased.
Energy analysis and efficiency planning for existing systems
A particular focus is on the energy analysis and optimization of existing refrigeration systems. The actual energy consumption, load profiles and control processes are examined in detail in order to identify weak points and inefficient operating areas. This forms the basis for a well-founded assessment that clearly shows where energy is being lost and which measures will have the greatest effect.
The analysis includes the testing of operating points, components and control strategies as well as the evaluation of compressors, condensers, defrosting and partial load behavior. Possible modernization options are also included – such as the use of new refrigerants, adaptations to regulatory requirements or the integration of digital monitoring and remote maintenance systems.
Specific packages of measures with savings forecasts, payback periods and profitability assessments are derived from all the technical data. This creates a basis for decision-making that makes it clear which optimization steps are technically and financially most worthwhile and how the efficiency of the system can be sustainably increased.