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Integrated optical systems offer high component density in a compact, stable and robust platform. However, there are many situations in which it is useful to transition from an integrated waveguide to an optical fiber, such as long distance transmission. The loss associated with coupling between the two platforms can be critical in applications such as quantum information processing (QIP).
This paper explores the impact of adequately sizing HPWH units based on field installations and data collected from sites in the southeastern United States. Utilities may consider offering incentives for HPWHs based on tank size or estimated flow rates rather than technology type. To maximize the value to utilities, adequate sizing of HPWH units based on gallon per day (gpd) usage is impressive.
As the complexity of power plants increase, so does the difficulty in accurately modeling the interactions among the subsystems. Distributed sensing and control offers a possible solution to this problem, but introduces a new one: how to ensure that each subsystem satisfying its control objective leads to the safe and reliable operation of the entire power plant. In this work we present a distributed...
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