تتميز منصة المشغل المصممة هندسيًا بمفهوم تشغيل سهل الاستخدام ورؤية است.ثنائية ، مما يسهل المهمة على المشغل. محرك هيدروليكي مستقل بالكامل وجهاز كمبيوتر صغير مزود بشاشة عرض وقدرة على التشخيص الذاتي. مصمم هندسيًا مع أدوات تحكم ذكية لتوفير الراحة التشغيلية والسهولة.
The Center for Hydrogen Technology is a new line of business for Power Machines, established to master technologies for storing, transporting, producing, and consuming hydrogen. The company is researching technologies that can create plants in the fields of electrolysis, hydrogen storage systems, steam reformation, and pyrolysis. The ultimate goal is to become a supplier that offers a full range of engineering solutions for hydrogen production and consumption.
The enterprises that are part of Power Machines stood at the origins and rapid growth of the Russian energy sector. Here, the first sets of Russian turbine and generator equipment were made, and unique technologies were created, which are now widely used in the global energy industry. Thanks to our knowledge of the features of almost all energy facilities in Russia, we offer our customers the most efficient and optimal solutions.
The company is implementing the project with support from the Ministry of Industry and Trade of the Russian Federation to ensure energy and technological independence for the state. To implement this task, the design bureau was re-established; at present, the prototype gas turbine units GTE- F-class and GTE- E-class are in production. The company is also developing hydrogen energy technologies and is working on the creation of a gas turbine capable of operating on methane-hydrogen mixtures.
Based on its experience creating heavy-duty full-speed steam turbines and achieving advanced scientific achievements, Power Machines developed and manufactured the first half-speed turbine unit in Russia with a capacity of MW. Today the half-speed turbine is considered one of the most promising in the world – the main assembly characteristics will allow future machines to be created based on its design, the use of which will be possible in a turbine plant with a unit capacity in the range of - MW.