The newly designed Motor Control Center (MCC) with its withdrawable design is particularly suitable for the frequently changing requirements in the process industry.
The withdrawable design of the MCC allows for a maximum packing density of up to 48 withdrawable units per cubicle. The easy and safe handling coupled with short changeover times guarantee high plant availability. In addition to being used as an MCC the expansions offer integrated and simple power distribution in non-residential and industrial buildings.
Using type-tested standard modules and testing under arc conditions, Sivacon S8 offers a high degree of operator and plant safety. Versatile single-front or double-front installation options along with a system height of 2 to 2.4 meters facilitate precise integration in existing room concepts.
Till Moor | Siemens Industry Automation
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Scientists at the University of California, Los Angeles present new research on a curious cosmic phenomenon known as "whistlers" -- very low frequency packets...
Scientists develop first tool to use machine learning methods to compute flow around interactively designable 3D objects. Tool will be presented at this year’s prestigious SIGGRAPH conference.
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Researchers from TU Graz and their industry partners have unveiled a world first: the prototype of a robot-controlled, high-speed combined charging system (CCS) for electric vehicles that enables series charging of cars in various parking positions.
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Proteins must be folded correctly to fulfill their molecular functions in cells. Molecular assistants called chaperones help proteins exploit their inbuilt folding potential and reach the correct three-dimensional structure. Researchers at the Max Planck Institute of Biochemistry (MPIB) have demonstrated that actin, the most abundant protein in higher developed cells, does not have the inbuilt potential to fold and instead requires special assistance to fold into its active state. The chaperone TRiC uses a previously undescribed mechanism to perform actin folding. The study was recently published in the journal Cell.
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Scientists have discovered that the electrical resistance of a copper-oxide compound depends on the magnetic field in a very unusual way -- a finding that could help direct the search for materials that can perfectly conduct electricity at room temperatur
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