This presentation is dedicated to the fascinating and unique aspects of pure media projects. We will deal with this topic in several steps:

1. content of ultra-pure media projects:
- Ultra-pure media with which the ISPE Group is involved
- Types of projects and implementation scenarios that are typical for the ultra-pure media sector
- Project phases that are decisive for implementation

2. challenges and experiences:
- We will present the challenges that come with implementing clean media projects.
- We will share experiences and best practices to benefit from the insights of others.

3. current project management:
- What factors influence the working methods and success of pure media projects?
- Finally, we will look at current developments in project management.

What are the cleanliness aspects and requirements in the aerospace industry and why are these particularly important and can even become a danger if they are not complied with? Technical specifications in cleanroom technology, their effects and current trends in space travel will be highlighted. Goals and solutions for a safe environment in space travel complete the topic around the Mars Sample Curation Facility. Rounded off with a technology transfer and recommendations for action.

Major projects in the pharmaceutical industry are generally characterized by high complexity and enormous time pressure. In addition to conventional processing models such as EPCM, forms of partnership-based processing from the Anglo-Saxon world are also finding their way into Europe.

However, all models pose similar challenges to the client and therefore to project management. Stringent interface management and maximum transparency, created by project-optimized controlling and reporting, are essential. In addition, this type of project often involves unplanned risks that need to be mitigated or eliminated as quickly as possible through the flexible intervention of experienced experts.

A Project Management Office (PMO), tailored to the respective customer, the individual project and the corresponding project situation and phase, guarantees not only a targeted organizational structure but also a structured process that ensures the long-term success of the project.

The Smart Lab Ecosystem was founded by Siemens AG, H. Lüdi + Co. AG and Inside Reality AG in order to better manage the complexity of the laboratory environment, significantly increase the flexibility of the infrastructure and minimize energy requirements. Various experts are creating a modular system kit consisting of tried and tested solutions. Digital planning reduces the design phase and industrial prefabrication considerably shortens the project duration while significantly improving installation quality. Find out more about the future of laboratory and cleanroom technology in the presentation.

STMicroelectronics' (ST) competence center for power semiconductors is located in Catania, Sicily. Research, development and production of silicon carbide (SiC) substrates are combined there in cooperation with research institutes, universities and suppliers. Valtria is currently supporting ST in the rapid establishment of an integrated clean room production facility for the manufacture of SiC-based raw and epitaxial wafers, with the aim of improving ST's supply capability and expanding internal substrate sourcing, bringing together all process steps for the manufacture of such wafers in large quantities under one roof in Europe. In this context, it is important to remember that the production of SiC chips for electric vehicle applications is of critical importance, with the supply of Si/SiC wafers for semiconductor technology being a major concern for the European Union, particularly in view of the real risk of wafer supply shortages.