Consumers' Perceptions of Mental and Physical Energy

Diatomic carbon (C2) is historically an elusive chemical species. It has long been believed that the generation of C2 requires extremely high “physical” energy, such as an electric carbon arc or multiple photon excitation, and so it has been the general consensus that the inherent nature of C2 in the ground state is experimentally inaccessible. Here, we present the first “chemical” synthesis of C2 in a flask at room temperature or below, providing the first experimental evidence to support theoretical predictions that (1) C2 has a singlet biradical character with a quadruple bond, thus settling a long-standing controversy between experimental and theoretical chemists, and that (2) C2 serves as a molecular element in the formation of sp2-carbon allotropes such as graphite, carbon nanotubes and C60.

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Time

10.1093/oso/9780198725022.003.0008 ◽

2018 ◽

Author(s):

Bruno and

Keyword(s):

Temporal Coherence ◽

The Other ◽

Sensory Receptors ◽

Traditional Notion ◽

Physical Energy ◽

Multisensory Interactions ◽

The Senses ◽

Perception Of Time ◽

Temporal Extent ◽

Stimulus Time

Within the traditional notion of the senses, the perception of time is especially puzzling. There is no specific physical energy carrying information about time, and hence no sensory receptors can transduce a ‘temporal stimulus.’ Time-related properties of events can instead be shown to emerge from specific perceptual processes involving multisensory interactions. In this chapter, we will examine five such properties: the awareness that two events occur at the same time (simultaneity) or one after the other (succession); the coherent time-stamping of events despite inaccuracies and imprecisions in coding simultaneity and succession (temporal coherence); the awareness of the temporal extent occupied by events (duration); the organization of events in regular temporal units (rhythm).

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Thermo-Economic Modeling and Evaluation of Physical Energy Storage in Power System

Journal of Thermal Science ◽

10.1007/s11630-021-1417-4 ◽

2021 ◽

Author(s):

Shan Hu ◽

Chang Liu ◽

Jie Ding ◽

Yujie Xu ◽

Haisheng Chen ◽

...

Keyword(s):

Energy Storage ◽

Power System ◽

Economic Modeling ◽

Physical Energy

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Towards automated engineering and validation of cyber-physical energy systems

Energy Informatics ◽

10.1186/s42162-019-0095-x ◽

2019 ◽

Vol 2 (S1) ◽

Cited By ~ 1

Author(s):

Filip Pröstl Andrén ◽

Thomas I. Strasser ◽

Jürgen Resch ◽

Bernhard Schuiki ◽

Sebastian Schöndorfer ◽

...

Keyword(s):

Smart Grid ◽

Power System ◽

Electric Power System ◽

Paradigm Change ◽

Engineering Process ◽

Distributed Generators ◽

Physical Energy ◽

Engineering Costs ◽

Information And Communication ◽

Grid Applications

Abstract The massive deployment of distributed generators from renewable sources in recent years has led to a fundamental paradigm change in terms of planning and operation of the electric power system. The usage of advanced automation and information and communication technology is a key element to handle these new challenges and to turn the traditional power system into a smart grid. The implementation of such complex systems solutions is associated with increasing development complexity resulting in increased engineering costs. The traditional engineering methods used for power system automation were not intended to be used for applications of this scale and complexity. However, the usage of proper methods, automation architectures, and corresponding tools holds huge optimization potential for the engineering process. Therefore, this work presents a model-based engineering and validation support system, covering the overall engineering process for smart grid applications.

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