Wyniki wyszukiwania - BazTech

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Effect of NF3 Gas on Stabilization of Alkaline Earth Metal-Cu Mordenite Catalysts During N2O Decomposition Reaction

Seo Minhye, Lee Soo-Young, Cho Sung-Su, Song Hyoung Woon, Kim Hyun-Kyung, Kim Dong Soo, Lee Sungkyu

Archives of Metallurgy and Materials

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2019

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Vol. 64, iss. 2

695--700

EN

Mordenite-zeolite supported Ca-Cu and Ba-Cu catalysts (Ca-Cu/MOR and Ba-Cu MOR) were successfully fabricated for direct decomposition of both NF3 and N2O gases contained in waste gas stream of (semiconductor) electronics industry. N2O conversion rates of Ca-Cu and Ba-Cu catalysts were 79 and 86%, respectively, at 700°C and 1 atm under space velocity of 5000 h-1. The Ca-Cu catalyst was especially noteworthy in that its capability of converting N2O could be maintained even after its exposure to co-feeding NF3 gas constituent in the waste gas stream. Compositional and surface morphological analyses of the Ca-Cu and Ba-Cu catalysts were made before and after exposure to the waste gas stream to examine any noticeable degradation or change of the catalysts. Unlike Ba-Cu catalyst, SiO2 constituent of the Ca-Cu catalyst was found to remain immune to the NF3-cofeeding waste gas stream, casting a positive prospect for superior and steady N2O decomposition performance via maintenance of its structural integrity.

2

Investigation on performance of a cryosurgical probe in various feeding and environmental conditions

Mezyk L., Kobiera A., Karlinski G., Brojek W.

Journal of Power Technologies

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2018

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Vol. 98, nr 1

89--96

EN

Cryosurgery is a procedure in which diseased tissue is destroyed by freezing. During a strictly controlled process, low temperature is used to separate diseased from healthy tissue with minimal bleeding. It is an effective method that has been applied in many areas of medicine for a number of years, especially in dermatology, oncology, laryngology, gynecology, vascular surgery and ophthalmology. There are many technical solutions different probes for applying low temperature to tissue. The detailed construction of the probes are trade secrets and will not be discussed here. In the paper the authors present the results of research on a chosen type of cryosurgical probe for various conditions: feeding gases, flow rates and external conditions. The results are illustrated in the form of graphs showing the temperature of the tip of the probes in changing conditions.

3

Rozwój modeli matematycznych opisujących emisję N2O z procesów biologicznego oczyszczania ścieków

Mikosz J.

Gaz, Woda i Technika Sanitarna

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2015

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Nr 11

398--402

PL

Procesy biologicznego oczyszczania ścieków są źródłem znacznych ilości gazów cieplarnianych emitowanych do atmosfery. Pośród nich szczególną rolę odgrywa tlenek azotu (I) (N2O),który charakteryzuje się wysoką wartością współczynnika potencjału cieplarnianego równą 298. Dokładna wielkość emisjiN2O z procesów biologicznego oczyszczania ścieków jest trudna do określenia. Podczas biologicznego oczyszczania ściekówN2O jest wytwarzany w procesach nitryfikacji oraz autotroficznej i heterotroficznej denitryfikacji azotu zawartego w ściekach dopływających do reaktora biologicznego, a wielkość jego produkcji jest uzależniona od wartości kilku parametrów eksploatacyjnych. Od początku lat dziewięćdziesiątych podejmowane są próby opisu matematycznego procesów prowadzących do powstawania N2O w osadzie czynnym. Doprowadziło to do opracowania szeregu modeli matematycznych, które w różnym zakresie uwzględniają te procesy oraz czynniki na nie wpływające. W artykule przedstawiono rozwój najważniejszych modeli matematycznych opisujących emisję N2O z procesów biologicznego oczyszczania ścieków. Przedstawiono ich cechy charakterystyczne, zdolność do określenia całkowitej wielkości emisji N2O oraz istniejące ograniczenia ich stosowania.

EN

Processes of biological wastewater treatment produce significant amount of greenhouse gases (GHG) that usually are emitted directly to atmosphere. Among them nitrous oxide (N2O) plays an important role as it has a high value of GHG potential equal to 298. The exact magnitude of N2O emission from wastewater treatment is difficult to estimate. During biological wastewater treatment N2O is produced as a mid-product of nitrification, and autotrophic and heterotrophic denitrification of nitrogen present in influent. The intensity of its production depends on several operational parameters. Since early 1990s the attempts to develop a mathematical description of the processes that lead to N2O production in activated sludge processes have been undertaken. It resulted in elaboration of several mathematical models that vary in the scope of processes they include and the parameters they consider. The article present the development of mathematical models describing N2O emission from biological wastewater treatment. Discussed are their characteristic features and the capability to estimate total N2O emission, as well as their short comings and limitations.

4

Recursive Partitioning application in the assessment of the climatic conditions impact of non- CO2 GHGs on agricultural emissions

Kolasa-Więcek A.

Journal of Research and Applications in Agricultural Engineering

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2013

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Vol. 58, nr 1

96--101

EN

Agricultural practices contribute to emissions of the greenhouse gases (GHGs) such a methan (CH4) and nitrous oxide (N2O). Their estimated share from agricultural sources is assessed at around 50% of CH4 and 60% of N2O emissions. The efforts made by the agricultural sector aim to limit and reduce emissions. Due to their significant share, all the complementary knowledge information concerning their reduction are highly precious. The paper proposes the use of neural modeling techniques and the summary of results by modeling based on a decision tree (Recursive Partitioning) to estimate the levels of methane and nitrous oxide emissions from agriculture under varying weather conditions in Poland. The obtained results support the hypothesis that neural model describing the effect of meteorological conditions on the CH4and N2O emissions is an appropriate tool for the assessment of the projected emission level.

PL

Praktyki rolnicze przyczyniają się do emisji gazów cieplarnianych (GGC), takich jak metan (CH4) i podtlenku azotu (N2O). Ich szacunkowy udział ze źródeł rolniczych oceniany jest na około 50% emisji CH4 i 60% emisji N2O. Wysiłki podejmowane przez sektor rolny mają na celu ograniczenie i redukcję ich emisji. Ze względu na ich znaczący udział, wszelkie informacje dopełniające wiedzę na temat możliwości ich redukcji są niezwykle cenne. W pracy zaproponowano wykorzystanie technik neuronowego modelowania oraz posumowania wyników z wykorzystaniem modelowania w oparciu o drzewo decyzyjne (Recursive Partitioning) do estymacji poziomu metanu i podtlenku azotu emitowanych z rolnictwa przy zmiennych warunkach meteorologicznych w Polsce. Uzyskane wyniki badań potwierdzają hipotezę, że model neuronowy, opisujący wpływ warunków meteorologicznych na emisję CH4 i N2O, jest właściwym instrumentem dla dokonania oceny prognozowania poziomu tej emisji.

5

Applying CEAS method to UV, VIS, and IR spectroscopy sensors

Wojtas J., Mikołajczyk J., Nowakowski M., Rutecka B., Medrzycki R., Bielecki Z.

Bulletin of the Polish Academy of Sciences. Technical Sciences

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2011

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Vol. 59, nr 4

415-418

EN

In the paper, several applications of Cavity Enhanced Absorption Spectroscopy (CEAS) for trace mater detection are described. NO2 sensor was constructed using this technique with blue-violet lasers (395–440 nm). The sensor sensitivity reaches the level of single ppb and it was applied in security portal. For detection of two gases at the same time, two-channel sensor was constructed. Used method allows a significant reduction in the cost of optoelectronic CEAS sensor designed to measure of concentrations of many gases simultaneously. Successful monitoring of N2O and NO in the air requires high precision mid-infrared spectroscopy. The constructed sensors are able to measure concentration at ppb level. These sensors might be used for monitoring of atmospheric purity as well as for detection of explosives.

6

Density Functional Calculations on the Adsorption of N2O and H2O on the Ion-ex changed ZSM-5

Gao H. W., Guo L., Deng H. H., Ge L. Y., Yan T. X.

Polish Journal of Chemistry

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2009

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Vol. 83, nr 6

1195-1201

EN

Density functional theory (DFT) calculations were performed to study the configuration and electronic states of N2O and H2O adsorbed on the ion-ex changed ZSM-5 using the Gaussian98 program. We also calculated the adsorption energy of NO2 species and H2O ad sorbed on various ion exchanged ZSM-5. The calculated results indicated that Cu+, Co2+ and Ti3+ sites on ZSM-5 have strong affinity to N2O and these metal cations are stable against water poisoning.

7

Growth and properties of ZnO films grown using pa-movpe with DMZn and N2O

Nakano T., Nishimoto K., Sumiya M., Fuke S.

Journal of Automation Mobile Robotics and Intelligent Systems

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2009

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Vol. 3, No. 4

124-126

EN

ZnO films were grown by plasma-assisted metal organic vapor phase epitaxy (PA-MOVPE) using dimethylzinc (DMZn) and N O gases. The crystallinity and surface morphology of ZnO films were investigated using X-ray diffraction (XRD) and scanning electron microscopy (SEM), respectively. The crystallinity of ZnO improved (a) when the N2O flow rate was increased, because vapor phase reaction was suppressed while surface migration was enhanced, and (b) when the growth temperature was increased, because surface diffusion was enhanced. In the PA-MOVPE method with N2O gases and DMZn, both the N2O flow rate and crystal growth temperature strongly affected the crystallinity of ZnO films.

8

Detection of atmospheric hydrogen using ECD detector doped with N2O

Nęcki J. M., Heliasz M., Rosiek J., Pycia M., Różański K., Sliwka L., Bartyzel J.

Chemia Analityczna

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2009

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Vol. 54, No. 4

705-716

EN

Atmospheric concentrations of molecular hydrogen are commonly measured with the aid of commercial reduction gas analysers (RGA). An alternative technique of H, detection has been proposed and tested. It is based on commercial automated gas chromatograph equipped with a μ-ECD detector doped with N2O. The main advantage of the presented method is its suitability for high-precision monitoring of atmospheric H2. Typical precision of single analysis, which was obtained in the tests of the system, is in the order of l nmol mol-1. This value is comparable to the precision offered by commercial RGA detectors. The (j-ECD detector investigated in this study revealed linear response in the range of H, concentrations encountered in atmospheric monitoring. The main disadvantage of the method is high sensitivity of the &mu-ECD detector to the impurities in gases used in the analytical system.

PL

Pomiary stężenia wodoru cząsteczkowego w atmosferze są prowadzone na świecie od wielu lat ze względu na wpływ wodoru na budżet innych gazów, w tym także gazów czynnych w efekcie cieplarnianym. Najczęściej wykorzystuje się do tego celu detektory rtęciowe, które jednak z powodu znacznej nieliniowości nie są rozwiązaniem optymalnym. W niniejszej pracy zaprezentowano alternatywną technikę pomiaru zawartości H2 w atmosferze, w której wykorzystano detektor wychwytu elektronów domieszkowany podtlenkiem azotu. Drogą eksperymentalną wyznaczono warunki pracy detektora zapewniające wysoką precyzję pomiaru wodoru (ok. 1 nmol mol-1) przy bardzo dobrej liniowości w pełnym zakresie pomiarowym stężeń tego gazu w troposferze.

9

Przemiana tlenku diazotu w ślizgowym wyładowaniu łukowym

Krawczyk K., Młotek M., Rzepecka K.

Przemysł Chemiczny

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2003

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T. 82, nr 10

1387-1390