For this project, we collaborated with a company specializing in comprehensive software solutions for heat pump planning, dimensioning, and optimization. Their established platform supports installers, planners, and end customers in selecting appropriate systems, configuring components, and evaluating technical feasibility under different operating conditions.
Our contribution focused on the development of complementary graphical and analytical modules designed to enhance specific areas of the existing software environment. Rather than modifying the core calculation engine, the objective was to extend the platform with structured visual components that improve usability and support the system selection workflow.
A central part of our work involved implementing interactive graphical features that visually represent different heat pump models and configuration variants based on user input. Depending on selected parameters and system options, the modules dynamically adjust visual elements to reflect product types, structural layouts, and configurable components. This approach helps translate technical configuration data into intuitive visual representations, improving clarity for both professional installers and non-technical end users.
In addition, we implemented supporting evaluation features that allow structured comparison of selected configurations within defined scenarios. These functions assist users in reviewing alternatives and understanding how configuration choices relate to system structure and setup. The emphasis was placed on clarity, consistency, and seamless integration into the partner’s existing interface and workflow logic.
From a technical perspective, the modules were developed with a modular and interoperable architecture, ensuring straightforward integration into the established platform. The design allows further graphical enhancements or configuration extensions as new product lines or requirements emerge.
The result is an extended software ecosystem in which the existing engineering and calculation framework is complemented by clear, interactive visual representations of system configurations. This strengthens the overall user experience and enhances the communicative value of the heat pump planning platform without altering its core analytical foundation.
