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Die Checkliste „Sanitäre Einrichtung“ (Toilette, Badezimmer) basiert auf einer aktuellen Literaturstudie. Anhand verschiedener Fachtermen wurden in unterschiedlichen Datenbanken nach relevanten Artikeln gesucht, diese in Bezug auf die Fragestellung „Kriterien, die eine sanitäre Einrichtung (Toilette / Badezimmer) für Menschen in einer stationären Altenpflegeeinrichtung erfüllen muss“ analysiert und die entsprechenden geforderten Kriterien in die Checkliste aufgenommen.
Die Checkliste „Pflegedokumentation“ basiert auf einer Literaturrecherche. Verschiedene Artikel bildeten die Grundlage für die Kriterien der Checkliste „Defäkation in der Pflegedokumentation“. Anhand dieser Checkliste wird untersucht, ob die genannten Items in der Pflegedokumentation enthalten sind und wenn ja, ob diese dann auch tatsächlich ausgefüllt und welche begründeten Rückschlüsse daraus gezogen werden und wie die Umsetzung überprüft wird und Maßnahmen ggfs angepasst werden. Z.B. Möglichkeiten der Erprobung bestimmter Interventionen gut dokumentieren.
In this study, we carried out the structural and thermal characterization of a medical-grade poly (lactide) (PLA) by SEC, TGA, DSC, NMR, ICP-MS and Py-GC/MS. Moreover, we investigated the laser-induced degradation occurring when ultrashort laser pulses (ULP) were employed to cut extremely thin polymer films prepared by solvent-casting. ULP polymer cutting technology is an interesting manufacturing process for its advantages in potential medical applications. In fact, heat transmission to the region surrounding the cuts is limited, so that the incisions are precise and the effects on the regions around them are small. In this way, the need for post-processing is reduced and ULP cutting becomes interesting for industrial applications. However, degradation induced by ULP may occur and compromise the properties of the polymer samples. To investigate this possibility, portions of PLA films, ultrashort laser cut (ULC) and uncut, were analysed by SEC, DSC, NMR and FTIR. Furthermore, PLA oligomers were studied by ESI-MS. Both SEC and NMR showed a decrease in the molecular weight. FTIR, ESI-MS and NMR spectra revealed the presence of olefin end groups originated from a \beta-H transfer mechanism, induced by heat and/or light (Norrish II mechanism). Additionally, the inspection of the ESI mass spectra highlighted the cleavage of ester bonds related to the Norrish I type mechanism, undetected by the other techniques.
Bubble columns are recently used for the humidification of air in water treatment systems and fuel cells. They are well applicable due to their excellent heat and mass transfer and their low technical complexity. To design and operate such devices with high efficiency, the humidification process and the impact of the operating parameters need to be understood to a sufficient degree. To extend this knowledge, we use a refined and novel method to determine the volumetric air–liquid heat and mass transfer coefficients and the humidifier efficiency for various parametric settings. The volumetric transfer coefficients increase with both of the superficial air velocity and the liquid temperature. It is further shown that the decrease of vapor pressure with an increase of the salinity results in a corresponding decrease in the outlet humidity ratio. In contrast to previous studies, liquid heights smaller than 0.1 m are investigated and significant changes in the humidifier efficiency are seen in this range. We present the expected humidifier efficiency with respect to the superficial air velocity and the liquid height in an efficiency chart, such that optimal operating conditions can be determined. Based on this efficiency chart, recommendations for industrial applications as well as future scientific challenges are drawn.
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(2018)