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04.11.2022

Rieter publishes Investor Update 2022

  • Sales of CHF 366.8 million in the third quarter, CHF 987.4 million after nine months
  • Order intake of CHF 226.4 million in the third quarter, CHF 1 095.8 million after nine months
  • Order backlog of around CHF 2 000 million as of September 30, 2022
  • Precautionary measures taken against potential energy crisis in Europe
  • Financing of a Professorship for Artificial Intelligence
  • Rieter site sales process on schedule
  • Outlook 2022

Rieter recorded a significant increase in sales in the third quarter of 2022, reaching a level of CHF 366.8 million (2021: CHF 257.3 million). The measures introduced to increase sales and profitability in the second half of 2022 are taking effect and will continue to be implemented in a systematic manner. These include a close cooperation with key suppliers, the development of alternative solutions to eliminate material shortages, the enforcement of price increases, and the improvement of the margin quality of the order backlog.

  • Sales of CHF 366.8 million in the third quarter, CHF 987.4 million after nine months
  • Order intake of CHF 226.4 million in the third quarter, CHF 1 095.8 million after nine months
  • Order backlog of around CHF 2 000 million as of September 30, 2022
  • Precautionary measures taken against potential energy crisis in Europe
  • Financing of a Professorship for Artificial Intelligence
  • Rieter site sales process on schedule
  • Outlook 2022

Rieter recorded a significant increase in sales in the third quarter of 2022, reaching a level of CHF 366.8 million (2021: CHF 257.3 million). The measures introduced to increase sales and profitability in the second half of 2022 are taking effect and will continue to be implemented in a systematic manner. These include a close cooperation with key suppliers, the development of alternative solutions to eliminate material shortages, the enforcement of price increases, and the improvement of the margin quality of the order backlog.

The order intake of CHF 226.4 million in the third quarter of 2022 reflects the expected normalization of demand for new equipment compared to the record year of 2021, which was characterized by catch-up effects and the regional shift in demand. In addition, the well-known uncertainties and risks and the continuing extremely long delivery times at key manufacturers had a dampening effect on demand. Due to the slowdown in capacity utilization in the spinning mills, demand for consumables, wear & tear and spare parts also declined in the third quarter of 2022. Major orders continued to be recorded from Turkey, Uzbekistan, and China.

Rieter has a high order backlog of around CHF 2 000 million as of September 30, 2022 (September 30, 2021: CHF 1 562 million), which will guarantee capacity utilization in all three business groups until well into 2023 or rather 2024. The cancellation rate in the reporting period was around 5% of the order backlog.

Outlook 2022
Rieter anticipates weakened demand for new systems in the coming months. The demand for consumables, wear & tear and spare parts will depend on the capacity utilization of spinning mills in the months ahead.

For the full year 2022, Rieter expects sales of around CHF 1 400 million. The realization of sales revenue from the order backlog continues to be associated with risks in relation to the well-known uncertainties.

Despite significantly higher sales compared to the prior-year period, Rieter expects EBIT and net result for 2022 to be below the previous year’s level. This is due to the considerable increases in the cost of materials and logistics, additional costs for compensation of material shortages as well as expenses in connection with the acquisition in the years 2021/2022.

More information:
Rieter financial year 2022
Source:

Rieter Management AG

06.10.2022

Rieter and the Johann Jacob Rieter Foundation Sponsor Professorship for AI

Together with the Johann Jacob Rieter Foundation, the Rieter Group is supporting a new Endowed Professorship for Industrial Artificial Intelligence (AI) at the ZHAW School of Engineering. The Professorship is dedicated to teaching and research in the field of industrial applications of Artificial Intelligence and will be announced later this year.

The new Endowed Professorship will be established at the Center for Artificial Intelligence (CAI) of the ZHAW in Winterthur. It will focus, in particular, on the application of machine learning methods and knowledge-based systems in connection with processes in production and service.

For Rieter, the commitment is related to the implementation of its technology leadership strategy. The contribution of the Johann Jacob Rieter Foundation to sponsoring the Professorship is in line with the Winterthur Cluster Initiative. The increasing digitalization of production processes opens up new perspectives for Winterthur as a business location.

Together with the Johann Jacob Rieter Foundation, the Rieter Group is supporting a new Endowed Professorship for Industrial Artificial Intelligence (AI) at the ZHAW School of Engineering. The Professorship is dedicated to teaching and research in the field of industrial applications of Artificial Intelligence and will be announced later this year.

The new Endowed Professorship will be established at the Center for Artificial Intelligence (CAI) of the ZHAW in Winterthur. It will focus, in particular, on the application of machine learning methods and knowledge-based systems in connection with processes in production and service.

For Rieter, the commitment is related to the implementation of its technology leadership strategy. The contribution of the Johann Jacob Rieter Foundation to sponsoring the Professorship is in line with the Winterthur Cluster Initiative. The increasing digitalization of production processes opens up new perspectives for Winterthur as a business location.

Building Expertise in the Field of Industrial AI
The Endowed Professorship will serve to build expertise in the field of Industrial AI and will oversee a group that will focus on teaching and research pertaining to trustworthy machine learning. This involves, for example, the deployment of artificial intelligence with the aim of optimizing production processes in relation to the use of raw materials and energy, and making expert knowledge more readily available.

In addition to research, for the purpose of knowledge transfer, the new professorship will also be active in teaching, in the bachelor's degree programs in Computer Science and in Data Science, in the Master of Science in Engineering, and in continuing education.

The annual commitment of CHF 300 000 over a period of six years will be financed equally by the Rieter Group and the Johann Jacob Rieter Foundation.
“The use of artificial intelligence in industry is becoming increasingly important, especially with regard to the potential of data for evaluation and control of complex processes. The support of the Johann Jacob Rieter Foundation and the Rieter Group will allow us to further expand AI research in the field of industrial applications,” explains Prof. Dr. Dirk Wilhelm, Director of the ZHAW School of Engineering.

“The use of Artificial Intelligence will make a significant contribution to automation and process optimization, and thereby advance sustainability in the textile industry. This makes it an important element of the leading technology that Rieter offers,” emphasizes Rieter CEO Dr. Norbert Klapper.

“The Smart Machines cluster is growing in importance,” says Thomas Anwander, member of the Foundation Board, and adds: “The Endowed Professorship for Industrial AI at the ZHAW aims to promote Winterthur as a technology location by pooling locally available strengths in mechanical engineering and Industry 4.0.”

(c) Fraunhofer UMSICHT/Mike Henning
Prof. Christian Doetsch (l.) and Prof. Manfred Renner (r.)
09.08.2022

Fraunhofer UMSICHT: New institute directors

Prof. Manfred Renner and Prof. Christian Doetsch will take joint leadership of the Fraunhofer Institute for Environmental, Safety and Energy Technology UMSICHT from August 2022. As renowned scientists, they have most recently shaped the direction of the institute as heads of the Products division and Energy division respectively, and will now follow in the footsteps of Prof. Eckhard Weidner, who has entered retirement.

This is the first time in its history that Fraunhofer UMSICHT is led by two directors. Both institute directors began their professional careers at the institute and from August they will have a joint hand in its future.

Prof. Manfred Renner and Prof. Christian Doetsch will take joint leadership of the Fraunhofer Institute for Environmental, Safety and Energy Technology UMSICHT from August 2022. As renowned scientists, they have most recently shaped the direction of the institute as heads of the Products division and Energy division respectively, and will now follow in the footsteps of Prof. Eckhard Weidner, who has entered retirement.

This is the first time in its history that Fraunhofer UMSICHT is led by two directors. Both institute directors began their professional careers at the institute and from August they will have a joint hand in its future.

Prof. Manfred Renner holds a doctorate in mechanical engineering, specializing in process engineering and business development. Since 2006, he has held various roles at Fraunhofer UMSICHT, most recently heading up the Products division and overseeing its 126 employees and its budget of 14.8 million euros. He has set international standards through his award-winning research into a free of water tanning leather tanning process that uses compressed carbon dioxide. With the development of innovative aerogel-based insulation materials for building facades, he has made a significant contribution to environmentally friendly, circular applications in the construction industry and initiated a number of industrial projects. One of the notable technological breakthroughs made by his team was the development of a new type of fire-resistant glass, which can withstand even the most extreme heat. This won his development team the Joseph von Fraunhofer Prize in October 2020.

Alongside becoming institute director, Prof. Renner will also take over the leadership of the Fraunhofer Cluster of Excellence Circular Plastics Economy CCPE in August 2022. In this role, he will represent the Fraunhofer-Gesellschaft on a national and international level with regard to the transformation of industry and society to a circular economy. In addition, he will start his professorship in Responsible Process Engineering at the Faculty of Mechanical Engineering of the Ruhr-Universität Bochum. Over the course of his professorship, he will shape the systemic development of the circular economy at a corporate, regional and European level.

Prof. Christian Doetsch has worked in energy research for more than 25 years, spending most of this time at Fraunhofer UMSICHT. As head of the Energy division, he managed a team of around 145 employees and was responsible for a budget of approximately 10.4 million euros. His technological focal points are energy storage, Power-to-X technologies including hydrogen electrolysis and chemical conversion, catalysts, and energy system modeling and optimization. His overarching aim is the integration of renewable energies into a cross-sectoral, resilient energy system.

In 2015, Doetsch co-founded the award-winning start-up Volterion GmbH & Co. KG, which develops redox flow batteries. He attained high visibility on a global scale by redesigning stacks, one of the main components of redox flow batteries, an achievement for which he, his team and Volterion representatives were awarded the Joseph von Fraunhofer Prize in May 2021. The energy expert also acts as deputy spokesperson for the Fraunhofer Energy Alliance and task manager for the energy storage group at the International Energy Agency (IEA). He also co-founded the “Open District Hub e. V.,” an association that promotes the energy transition in the sector by means of energy systems integration.

Since January 2020, he has been Professor of Cross Energy Systems at the Faculty of Mechanical Engineering of the Ruhr-Universität Bochum. In this role, he conducts research into ecological evaluation and resilience of cross-sectoral energy systems.

Source:

Fraunhofer UMSICHT