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Numerical Heat Transfer And Fluid Flow

This introductory review on plasma health care is intended to provide the interested reader with a summary of the current status of this emerging field, its scope, and its broad interdisciplinary approach, ranging from plasma physics, chemistry and technology, to microbiology, biochemistry, biophysics, medicine and hygiene. Apart from the basic plasma processes and the restrictions and requirements set by international health standards, the review focuses on plasma interaction with prokaryotic cells (bacteria), eukaryotic cells (mammalian cells), cell membranes, DNA etc. In so doing, some of the unfamiliar terminology—an unavoidable by-product of interdisciplinary research—is covered and explained. Plasma health care may provide a fast and efficient new path for effective hospital (and other public buildings) hygiene— helping to prevent and contain diseases that are continuously gaining ground as resistance of pathogens to antibiotics grows. The delivery of medically active 'substances' at the molecular or ionic level is another exciting topic of research through effects on cell walls (permeabilization), cell excitation (paracrine action) and the introduction of reactive species into cell cytoplasm. Electric fields, charging of surfaces, current flows etc can also affect tissue in a controlled way. The field is young and hopes are high. It is fitting to cover the beginnings in New Journal of Physics, since it is the physics (and non- equilibrium chemistry) of room temperature atmospheric pressure plasmas that have made this development of plasma health care possible.

/pdf/plasma-medicine-an-introductory-review-16ncxlrbef.pdf

Plasma medicine: an introductory review

https://biblio.ugent.be/publication/533365/file/533369.pdf

Performance of a new partitioned procedure versus a monolithic procedure in fluid-structure interaction

Electrical and optical emission properties of non-equilibrium atmospheric air discharges between a metal pin and a tap water anode/cathode are presented. With a water anode the discharges are of the glow type as is derived from short-exposure time plasma imaging and electrical characteristics. Additionally, the validity of extrapolated scaling laws of low pressure glow discharge supports these findings.In the case of a water cathode the plasma is filamentary in nature at the water surface. In the case of a water anode, the plasma is diffuse down to 10 ns. The timescales on which the filaments are visible in the near water cathode region and estimates of the electrical field in the cathode layer are consistent with the assumption that these filaments occur due to the electrical instability of the water surface.Spatially resolved rotational temperature measurements and dependence of the rotational temperature on current are discussed in detail. The rotational temperatures of OH and N2 in the positive column of the plasma are identical and equal to 3250 ± 250 K. A 2500 K temperature drop in the near anode region clearly shows that the water anode acts as an effective heat sink for the discharge. This indicates that apart from the electrical stabilization of the discharge by the water electrode due to its distributed resistance, a water anode also thermally stabilizes the discharge. The rotational temperature of nitrogen near the metal anode is typically two times smaller.

https://iopscience.iop.org/article/10.1088/0022-3727/41/21/215201/pdf

Dc excited glow discharges in atmospheric pressure air in pin-to-water electrode systems

https://biblio.ugent.be/publication/533350/file/533352.pdf

Stability of a coupling technique for partitioned solvers in FSI applications

https://biblio.ugent.be/publication/940207/file/940246.pdf

Performance of partitioned procedures in fluid-structure interaction

https://repository.tudelft.nl/islandora/object/uuid%3A0785b96e-adde-412e-8cab-491625b325b6/datastream/OBJ/download

Joris Degroote

Papers

Performance of a new partitioned procedure versus a monolithic procedure in fluid-structure interaction

Dc excited glow discharges in atmospheric pressure air in pin-to-water electrode systems

Stability of a coupling technique for partitioned solvers in FSI applications

Performance of partitioned procedures in fluid-structure interaction

Implicit coupling of partitioned fluid-structure interaction problems with reduced order models