Numerical prediction of heat transfer under a turbulent impinging slot jet with surface motion and crossflow

Huang, George Pei-gear.

January 1983

No description available.

Air jets.

Improving TCP performance over heterogeneous networks : The investigation and design of End to End techniques for improving TCP performance for transmission errors over heterogeneous data networks.

Alnuem, M.A.

January 2009

Transmission Control Protocol (TCP) is considered one of the most important protocols in the Internet. An important mechanism in TCP is the congestion control mechanism which controls TCP sending rate and makes TCP react to congestion signals. Nowadays in heterogeneous networks, TCP may work in networks with some links that have lossy nature (wireless networks for example). TCP treats all packet loss as if they were due to congestion. Consequently, when used in networks that have lossy links, TCP reduces sending rate aggressively when there are transmission (non-congestion) errors in an uncongested network. One solution to the problem is to discriminate between errors; to deal with congestion errors by reducing TCP sending rate and use other actions for transmission errors. In this work we investigate the problem and propose a solution using an end-to-end error discriminator. The error discriminator will improve the current congestion window mechanism in TCP and decide when to cut and how much to cut the congestion window. We have identified three areas where TCP interacts with drops: congestion window update mechanism, retransmission mechanism and timeout mechanism. All of these mechanisms are part of the TCP congestion control mechanism. We propose changes to each of these mechanisms in order to allow TCP to cope with transmission errors. We propose a new TCP congestion window action (CWA) for transmission errors by delaying the window cut decision until TCP receives all duplicate acknowledgments for a given window of data (packets in flight). This will give TCP a clear image about the number of drops from this window. The congestion window size is then reduced only by number of dropped packets. Also, we propose a safety mechanism to prevent this algorithm from causing congestion to the network by using an extra congestion window threshold (tthresh) in order to save the safe area where there are no drops of any kind. The second algorithm is a new retransmission action to deal with multiple drops from the same window. This multiple drops action (MDA) will prevent TCP from falling into consecutive timeout events by resending all dropped packets from the same window. A third algorithm is used to calculate a new back-off policy for TCP retransmission timeout based on the network¿s available bandwidth. This new retransmission timeout action (RTA) helps relating the length of the timeout event with current network conditions, especially with heavy transmission error rates. The three algorithms have been combined and incorporated into a delay based error discriminator. The improvement of the new algorithm is measured along with the impact on the network in terms of congestion drop rate, end-to-end delay, average queue size and fairness of sharing the bottleneck bandwidth. The results show that the proposed error discriminator along with the new actions toward transmission errors has increased the performance of TCP. At the same time it has reduced the load on the network compared to existing error discriminators. Also, the proposed error discriminator has managed to deliver excellent fairness values for sharing the bottleneck bandwidth. Finally improvements to the basic error discriminator have been proposed by using the multiple drops action (MDA) for both transmission and congestion errors. The results showed improvements in the performance as well as decreases in the congestion loss rates when compared to a similar error discriminator. / Ministry of Higher Education and King Saud University in Saudi Arabia.

Transmission Control Protocol (TCP)

Congestion control

Transmission errors

Multi-Dimensional Excitation in Magnetic Resonance Imaging for Homogeneity Correction in the Presence of Dielectric Media

Heilman, Jeremiah A.

30 March 2009

No description available.

Physics

Magnetic resonance imaging

MRI

multi-channel transmission

parallel transmission

Ethical considerations for movement mapping to identify disease transmission hotspots

de Jong, B.C., Gaye, B.M., Luyten, J., van Buitenen, B., André, E., Meehan, Conor J., O'Siochain, C., Tomsu, K., Urbain, J., Grietens, K.P., Njue, M., Pinxten, W., Gehre, F., Nyan, O., Buvé, A., Roca, A., Ravinetto, R., Antonio, M.

09 September 2019

Yes / Traditional public health methods for detecting infectious disease transmission, such as contact tracing and molecular epidemiology, are time-consuming and costly. Information and communication technologies, such as global positioning systems, smartphones, and mobile phones, offer opportunities for novel approaches to identifying transmission hotspots. However, mapping the movements of potentially infected persons comes with ethical challenges. During an interdisciplinary meeting of researchers, ethicists, data security specialists, information and communication technology experts, epidemiologists, microbiologists, and others, we arrived at suggestions to mitigate the ethical concerns of movement mapping. These suggestions include a template Data Protection Impact Assessment that follows European Union General Data Protection Regulations. / European Research Council Proof of Concept “Enhanced Place Finding” (grant no. 727695).

Infectious disease transmission

Transmission hotspots

Movement mapping

Heat transport and parametric simulation of a porous ceramic combustor in a gas turbine environment

Lu, Wei D.

01 April 2002

No description available.

Gas turbines -- Ceramic materials

Heat -- Transmission

Heat -- Transmission -- Measurement

Engineering

Presence and Stability of SARS-CoV-2 on Indoor Surfaces and Masks

Pan, Jin

01 June 2022

The emergence of coronavirus disease 2019 (COVID-19) has resulted in more than 300 million cases and 5 million deaths worldwide and innumerable economic losses. COVID-19 is acknowledged to transmit via air, but whether it is capable of transmitting via contaminated surfaces, also known as fomites, remains controversial. The overarching goal of this study was to investigate the presence and stability of SARS-CoV-2, the virus that causes COVID-19, on indoor surfaces and masks, and to provide insight into the possibility of fomite transmission. Since most transmission occurs indoors where humans spent 90% of their time, we first focused on quantifying the contamination level of SARS-CoV-2, including both viral RNA and viable virus, on commonly touched surfaces and in the heating, ventilation, and air cleaning (HVAC) systems in two university dormitories. Although we found up to 104 gene copies per ~10×10 cm2 on surfaces, we did not detect any viable virus, suggesting that the possibility of transmission via indoor surfaces is low. As universal masking has been recommended as an effective practice to prevent transmission of SARS-CoV-2, we shifted our focus to masks, both their effectiveness at filtering the virus from the air and their potential to serve as fomites. We evaluated the effectiveness of 11 face coverings for material filtration efficiency, inward protection efficiency on a manikin, and outward protection efficiency on a manikin. Masks made of filter materials, such as vacuum cleaner bag and HVAC filters, achieved a high material filtration efficiency whereas common textiles like cotton and acrylic usually showed the worst performance. The material filtration efficiency was generally positively correlated with either inward or outward protection effectiveness, but stiffer materials were an exception to this relationship as they did not fit as closely to the manikin's face and thus leaked substantially. Subsequently, we analyzed the survival of aerosolized SARS-CoV-2 in saliva on masks. Results suggested that the virus lost infectivity within one hour on an N95 respirator, surgical mask, polyester mask, and two types of cotton masks but not on a nylon/spandex mask. This study also highlighted the importance of applying virus in aerosols of realistic sizes when analyzing the stability of SARS-CoV-2 on surfaces. / Doctor of Philosophy / The emergence of coronavirus disease 2019 (COVID-19) has resulted in more than 300 million cases and 5 million deaths worldwide and innumerable economic losses. Researchers are debating if COVID-19 can transmit via surfaces contaminated with SARS-CoV-2, the virus that causes the disease. The goal of this study was to investigate whether SARS-CoV-2 is present and remains viable on indoor surfaces and masks, and to provide insight into the possibility of transmission via contaminated surfaces. Since most transmission occurs indoors where humans spent 90% of their time, we first focused on quantifying number of SARS-CoV-2 on commonly touched surfaces and in the heating, ventilation, and air cleaning (HVAC) systems in two university dormitories. Although we found a high concentration of SARS-CoV-2 genes on surfaces, we did not detect any viable virus, suggesting that the possibility of transmission via indoor surfaces is low. As universal masking has been recommended as an effective practice to prevent transmission of SARS-CoV-2, we shifted our focus to masks. We evaluated the effectiveness of 11 face coverings regarding their ability to trap viruses, protect wearers from inhaling viruses, and prevent infected individuals from expelling viruses into the surrounding air. Masks made of filter materials, such as a vacuum cleaner bag and HVAC filter, trapped the most viruses whereas common textiles like cotton and acrylic usually performed worst. It is also crucial that masks fit closely to the wearer's face to achieve better protection. Subsequently, we analyzed the ability of SARS-CoV-2 in aerosols, microscopic particles such as those exhaled by an infected person, to survive on different types of masks. Results suggested that the virus died within one hour on a majority of the masks. This study also highlighted the importance of applying aerosols of realistic sizes instead of large droplets when analyzing the survival of SARS-CoV-2 on surfaces.

SARS-CoV-2

mask

airborne transmission

fomite transmission

Analyse organisationnelle du lien entre les programmes de lutte contre le VIH/SIDA et la tuberculose en République Démocratique Populaire Lao

Aubut, Catherine

20 April 2018

Le VIH et la tuberculose s’affectent mutuellement. Il est essentiel d’avoir des programmes conjoints visant à diminuer la transmission de la tuberculose et l’incidence du VIH. Ce travail explore la thématique de la coalition entre les deux programmes de lutte pour une meilleure prise en charge des patients co-infectés, dans un pays en voie de développement, soit la République démocratique populaire Lao. La présente étude de cas, de type qualitatif et exploratoire, vise donc à identifier les facteurs organisationnels sur lesquels il est possible d’agir pour accroître cette collaboration. Les résultats révèlent qu’il y a plusieurs facteurs lacunaires sur lesquels il serait possible d’agir, mais que la coalition VIH-tuberculose est en pleine évolution et semblent vouloir continuer à se réaliser. Pour que cette réalisation se poursuive, il faut considérer la réalité lao et les liens qui sous-tendent les relations entre les acteurs des programmes de lutte.

An experimental study of flow patterns and heat transfer by natural convection inside cubical enclosures

Lin, Yue-Shyang

January 2011

Typescript (photocopy). / Digitized by Kansas Correctional Industries

Nusselt number

Heat--Transmission

Thermodynamics

Augmentation of single phase heating and subcooled boiling by internally finned tubes

Mani, Mortaza

January 2011

Typescript (photocopy). / Digitized by Kansas Correctional Industries

Heat--Transmission

Heat-transfer media

The design of an 885-megacycle television transmitter

Burk, Marvin Clyde.

January 1951

Call number: LD2668 .T4 1951 B83 / Master of Science

Masters theses