Activation of dissolving pulps prior to viscose preparation

Kvarnlöf, Niklas

January 2007

The conventional viscose manufacturing process is a mature process that needs to be improved with respect to its environmental impact and its production cost structure. Therefore a research study has been done with the aim to improve the reactivity of the dissolving pulp used, in order to reduce the chemical demand in the viscose process and thus reduce the cost and indirectly the environmental impact. The work described in this thesis has shown that it is possible to enhance the pulp reactivity and to use less carbon disulphide in the production of viscose, while maintaining a good quality viscose dope, by two entirely different pretreatment methods, one chemical and one enzymatic. The chemical method used pressurized oxygen after the mercerisation step, which increased the reactivity of the alkali cellulose. The viscose dopes produced from the pressurized oxygen treated alkali cellulose had lower filter clogging values, Kw, compared to conventionally produced viscoses. The temperature and the oxygen treatment time of the alkali cellulose were however crucial for the viscose quality. The best performing enzyme of several tested was a cellulase of the mono component endoglucanase preparation Carezyme®. This enzymatic treatment was optimized with respect to viscose dope preparation. The study showed that the enzyme treatment could be carried out under industrially interesting conditions with respect to temperature, enzyme dose and reaction time. A re-circulation study of the enzyme showed that it was possible to re-use the spent press water from the enzymatic treatment step several times, and thus lower the production cost. Some of the viscose process stages were modified to properly fit the enzymatically treated dissolving pulp and a comparison between viscose made from enzyme-treated pulp and viscose made from conventional pulp, showed that the enzyme-treated samples had a lower filter clogging value, Kw. This indirectly indicates that the enzyme pretreatment could reduce the carbon disulphide charge in the viscose manufacturing process. An initial study of how the Carezyme® influenced different cellulosic sources was also performed.

dissolving pulp

enzyme

reactivity

viscose

Chemical engineering

Kemiteknik

The Relationship Between Religiosity and Religious Coping to Stress Reactivity and Psychological Well-Being

Ward, Andrew M

19 May 2010

A significant body of research has identified the deleterious effects of stress on psychological well-being (e.g., Tataro, Luecken, & Gunn, 2004). Religiosity and religious coping have been identified as variables that may impact a person’s experience with stress (Ano & Vasconcelles, 2005). Aukst-Margetic and Margetic (2005) suggest that the connection between stress, religious variables, and well-being can be understood through the frame of psychoimmunodocrinological research, which examines the relationship between neurohormonal functioning (e.g., cortisol level) with psychological factors that may impact health. The purpose of this study was to investigate whether acute stress reactivity, as measured by changes in cortisol levels in response to a laboratory stressor, is related to religiosity, religious coping, and psychological well-being such as depression and anxiety. Another purpose of this study was to attempt to replicate and extend Tataro, Luecken, & Gunn (2005), which found evidence that higher religiosity and composite religiosity/spirituality was associated with lower cortisol level after exposure to acute stress. Results indicated that cortisol level was not significantly related to gender, self-rated religiousness, spirituality, frequency of prayer, or forgiveness. In addition, cortisol reactivity was not significantly related to measures of psychological well-being, although negative religious coping significantly predicted depression, and state and trait forms of anxiety. Limitations, practical implications, as well suggestions for future research are discussed.

religiosity

religious coping

cortisol

stress reactivity

Retinal Blood Flow and Vascular Reactivity in Chronic Smokers

Rose, Kalpana

January 2013

Purpose To investigate the impact of cigarrete smoking in a group of otherwise healthy young individuals on: 1) Retinal blood flow using Doppler based SD-OCT, 2) Retinal vascular reactivity using a gas sequencer to provoke hypercapnia via constant changes in PETCO2 (end-tidal partial pressure of CO2) and in PETO2 (end-tidal partial pressure of O2). Methods An automated gas flow controller was used to achieve normoxic hypercapnia in ten non-smokers (mean age 28.9 yrs, SD 4.58) and nine smokers (mean age 27.55 yrs, SD 4.77). Retinal blood flow measurements were obtained using Doppler OCT and cannon laser blood flowmeter (CLBF) during baseline, normoxic hypercapnia (15% increase in PETCO2 relative to homeostatic baseline) and post-hypercapnia in both the groups. Exhaled carbon monoxide level was measured in all subjects. Results In non-smokers, retinal arteriolar diameter, blood velocity and flow increased by +4.1% (SD 2.8, p<0.0001), +16.7% (SD 14.6, p=0.0004) and +29.6% (SD 12.5, p<0.0001) respectively, during normoxic hypercapnia; Similarly, the venous area, venous velocity and total retinal blood flow increased by 7% (SD 8.6, p=0.0418), 18.1% (SD 20.8, p=0.0068) and 26% (SD 22.9, p<0.0001) respectively. In smokers, normoxic hypercapnia resulted in a significant increase in velocity by 12.0% (SD 6.2, p=0.0019) and flow by 14.6% (SD 9.5, p=0.0029); though arteriolar diameter increased by 1.7% (SD 1.7, p=0.2616), the result was not statistically significant. Total retinal blood flow increased significantly by 19.3% (SD 18.4, p=0.002) in response to normoxic hypercapnia. However, there was no significant difference in venous area (p=0.3322) and venous velocity measurements (p=0.1185) during hypercapnia compared to baseline and recovery. Comparing smokers and non-smokers, only the percentage change in arteriolar diameter (p=0.0379) and flow (p=0.0101) was significantly different among the groups. Group mean PETCO2 was increased by 15.9% in the non-smoking group and by 15.7% in the smoking group, with a concomitant increase in PETO2 by approximately 1.5 to 2% in both groups. There was no significant difference in baseline PETCO2 level between smokers and non-smokers. Conclusions Retinal vascular reactivity in response to normoxic hypercapnia is significantly reduced in young healthy individuals who smoke compared to non-smokers. Further studies are needed to elucidate the exact reason behind the impaired retinal autoregulation to provocative stimuli in smokers.

Vision Science

Enzyme associations in deoxyribonucleotide biosynthesis : anti-idiotypic antibodies as probes for direct protein-protein interactions

Young, James Patrick

11 May 1992

The ability to faithfully replicate DNA is dependent upon the maintenance and regulation of its precursors, the deoxyribonucleoside triphosphates. Enzymes encoded by the bacteriophage T4 have been widely used as models of biochemical processes. A body of evidence supports the concept that the bacteriophage T4 enzymes involved in deoxyribonucleotide biosynthesis are associated as a complex within the infected Escherichia coli. This dissertation describes the continued examination of the protein-protein interactions involved in deoxynucleotide biosynthesis of bacteriophage T4. My studies on the protein-protein interactions involved in deoxyribonucleotide biosynthesis focused on two unique phage proteins, the dCMP hydroxymethylase enzyme and the translational regulator RegA. An initial study was undertaken to determine if the generation of anti-idiotypic antibodies would prove useful in the identification of direct interactions between dCMP hydroxymethylase and other proteins of the deoxyribonucleotide synthetase complex. For the initial generation of anti-idiotypic antibodies, polyclonal rabbit antibodies were generated to affinity purified anti-dCMP hydroxymethylase polyclonal rabbit IgG. The anti-anti-dCMP hydroxymethylase antibody was found to be specific in binding to the bacteriophage T4 dTMP synthase. A second method to generate anti-idiotypic antibodies was attempted with the translational regulator RegA. The generation of anti-idiotypic antibodies to the RegA protein involved the purification of anti-RegA rabbit Fab fragments and the generation of anti-anti-RegA polyclonal antibodies within mice. This alternative method was determined to be inferior to the initial method for generating anti-idiotypic antibodies. Additional studies involved the examination of RegA protein-protein interactions using affinity chromatography. A number of bacteriophage T4 early proteins were determined to associate with an immobilized RegA column. / Graduation date: 1992

DNA -- Synthesis

Anti-idiotypic antibodies

Bacteriophage T4

Enzymes

Proteins -- Reactivity

The Effect of Mainstream Media on Body Image and Stress Reactivity in Latina Females

Noble, Madison L

27 March 2012

The role of mainstream media in women’s views of female beauty and body image has been well documented. However, few published studies have observed ethnic differences in physiological stress reactivity that may occur from pressures to comply with a particular image of beauty. This study examined whether the exposure to the mainstream ideal body image would negatively affect Latina women’s physiological and psychological functioning, and how their responses differed in comparison to their White counterparts. Participants included college-aged female students from Pitzer College who self-identified as Latina or Caucasian. Participants completed questionnaires assessing, body esteem (MSBRQ-AS; SATAQ; CDFRS), ethnic identity (SEE), state anxiety (STAI-State) and affect (PANAS) prior to and following exposure to Victoria’s Secret or Chrysler automobile commercials. Physiological stress reactivity was assessed through changes in systolic and diastolic blood pressure, as well as salivary cortisol. 3-way ANOVA tests indicated a significant 2-way interaction between condition and time on participants’ levels of diastolic blood pressure, F(1, 27) = 4.266, MSe = 29.803, p =.049, η2 =.136, as well as ratings of appearance evaluation, F(1,36) = 5.733, MSe = 3.692, p =.022, η2 =.137, and body satisfaction F(1,36) = 4.27, MSe = 4.747, p = .046, η2 =.106. Women who viewed the Victoria’s Secret commercials demonstrated increased levels of diastolic blood pressure and reported lower ratings of body esteem in comparison to women who viewed the Chevy Sonic commercials. Potential trends in anxiety reactivity and the internalization of mainstream female beauty in Latina women following exposure to the stimuli are further discussed.

body image

stress

cardiovascular reactivity

body esteem

cortisol

Health Psychology

Evaluation of Geochemical and Reactivity Changes of Different Iron Materials

O, Jin suk

January 2006

Previous studies have suggested that iron PRBs, receiving high concentrations of inorganic constituents in groundwater, may experience passivation because of the accumulation of inorganic precipitates. In an iron PRB containing more highly reactive material, even though the initial contaminant removal rate is faster than for less reactive material, a faster migration of the contaminant removal front may occur due to the greater reactivity loss, caused by faster accumulation of secondary precipitates. In contrast, an iron PRB containing less reactive material may show a slower accumulation of precipitates, and thus will show a slower migration of the contaminant removal front over time. Thus, it is hypothesized that an iron material having moderate initial reactivity may be more advantageous than material having a higher reactivity in terms of long-term performance. The objective of this study was to test this hypothesis by evaluating the changes of the reactivities of different iron materials in the presence of dissolved CaCO₃. <br /><br /> Four different iron materials (Connelly, G-M, Ispat and Peerless) were selected for the column experiments. The changes in reactivities of the iron and formation of secondary precipitates over time were assessed, primarily by the iron corrosion rates, calculated from the hydrogen gas generation rates, by the cis-DCE removal rates and by the alkalinity profiles. The accumulation of precipitates in the four columns caused passivation of the iron. The passivation of the iron in turn resulted in migration of the mineral precipitation fronts as well as profiles of cis-DCE, TCE, VC, alkalinity, Eh, pH, and chloride. Connelly and G-M had longer periods of operation than Ispat and Peerless and thus their performance was the primary test of the hypothesis. G-M iron, which had the higher initial corrosion rate, compared to Connelly, showed a faster accumulation of precipitates near the influent end. The difference in accumulated precipitates resulted in a difference in the leading edge of the organic profiles and a significant difference in the pattern of passivation, indicating a faster passivation in the region near the influent end for G-M. <br /><br /> Model simulations were performed using the same fitting parameters but with different initial corrosion rate constants to further test the hypothesis. The model provided a reasonable representation of changing reactivities of the columns, being consistent with the observed data. In the simulation for long-term prediction, the cases of higher corrosion rates showed earlier breakthroughs and steeper curves than those of lower corrosion rates. Also, the predictions showed greater porosity loss for the case of higher corrosion rate. Thus, long-term predictions support the hypothesis. Accurate determination of model parameters such as cis-DCE degradation rate constants and iron corrosion rates are required for better predictions of long-term performance.

Earth Sciences

Iron

Initial Reactivity

cis-DCE

long-term performance

Retinal Vascular Reactivity to Incremental Hyperoxia During Isocapnia

Tong, Adrienne W.

16 June 2008

PURPOSE: Systemic hyperoxia has been induced using inspired gases in many studies to investigate vascular reactivity in the retinal vasculature. Technical limitations in the past resulted in inadequate control of systemic partial pressures of O2 and CO2, the latter of which tended to decrease secondary to induced hyperoxia. Recent development of a computerized gas delivery instrument has enabled the specific control of end-tidal CO2 (ETCO2) and fractional expired O2 (FeO2), independent of each other and of minute ventilation. The specific aims of each chapter are as follows: Chapter 3: To compare the magnitude and variability of the retinal vascular reactivity response to an isocapnic hyperoxic stimulus delivered using a manually-operated method to the newly developed computer-controlled gas sequencer. Chapter 4: To investigate the retinal hemodynamic response to incremental changes in hyperoxic stimuli during isocapnia. METHODS: Chapter 3: Ten young, healthy adults inhaled gases in a sequence of normoxic baseline, isocapnic hyperoxia, and normoxic recovery, using both gas delivery systems in random order. Chapter 4: Twelve healthy, young adults participated in a gas protocol consisting of 4 phases at varying fractional expired oxygen levels (FeO2): baseline (15%), hyperoxia I (40%), hyperoxia II (65%), and recovery (15%). End-tidal carbon dioxide (ETCO2) was maintained at an isocapnic level (~ 5%) throughout the experiment. In both Chapters 3 and 4, blood flow was derived from retinal arteriolar diameter and simultaneous blood velocity measurements of the superior temporal arteriole, acquired at 1-minute intervals during each of the phases of the gas protocol. RESULTS: Chapter 3: There was no interaction effect between the phases and gas delivery methods (p = 0.7718), but ETCO2 was significantly reduced during hyperoxia (p = 0.0002) for both methods. However, the magnitude of change in ETCO2 was physiologically insignificant i.e. <1%. The two systems differed in terms of FeO2 during hyperoxia, at a level of 85.27 ± 0.29% for the manual method, and 69.02 ± 2.84% for the computer method (p < 0.05). Despite this difference in oxygen concentrations, there was no difference in the vascular reactivity response for diameter (p = 0.7756), velocity (p = 0.1176), and flow (p = 0.1885) for equivalent gas phases between the two gas delivery systems. The inter-subject variability of retinal hemodynamic parameters was consistently lower using the computer-controlled gas sequencer. Chapter 4: Repeated measures ANOVA showed that there were significant influences of incremental changes in FeO2 on arteriolar diameter (p < 0.0001), blood velocity (p < 0.0001), and blood flow (p < 0.0001) in the retina. Paired t-tests of these retinal hemodynamic parameters during each phase in the gas sequence showed they were significantly different (p < 0.05) from each other, with the exception of baseline and recovery values. Incremental increases in FeO2 caused a linear decrease in group mean arteriolar diameter (R2 = 1, p = 0.002), group mean blood velocity (R2 = 0.9968, p = 0.04), and group mean blood flow (R2 = 0.9982, p= 0.03). CONCLUSIONS: Chapter 3: Inter-subject variability for virtually all retinal hemodynamic parameters was reduced using the computer-controlled method, presumably due to a higher degree of gas control. However, care needs to be exercised in the interprtetation of these results due to the relatively small sample size. A similar retinal hemodynamic response to isocapnic hyperoxia was induced using the two gas delivery systems, despite different levels of maximal FeO2. Chapter 4: Isocapnic hyperoxia elicits vasoconstriction and the reduction of retinal arteriolar blood flow in a dose-dependent manner over the range of FeO2 explored in this study.

retina

blood flow

isocapnic hyperoxia

vascular reactivity

Vision Science

Evaluation of Geochemical and Reactivity Changes of Different Iron Materials

O, Jin suk

January 2006

Previous studies have suggested that iron PRBs, receiving high concentrations of inorganic constituents in groundwater, may experience passivation because of the accumulation of inorganic precipitates. In an iron PRB containing more highly reactive material, even though the initial contaminant removal rate is faster than for less reactive material, a faster migration of the contaminant removal front may occur due to the greater reactivity loss, caused by faster accumulation of secondary precipitates. In contrast, an iron PRB containing less reactive material may show a slower accumulation of precipitates, and thus will show a slower migration of the contaminant removal front over time. Thus, it is hypothesized that an iron material having moderate initial reactivity may be more advantageous than material having a higher reactivity in terms of long-term performance. The objective of this study was to test this hypothesis by evaluating the changes of the reactivities of different iron materials in the presence of dissolved CaCO₃. <br /><br /> Four different iron materials (Connelly, G-M, Ispat and Peerless) were selected for the column experiments. The changes in reactivities of the iron and formation of secondary precipitates over time were assessed, primarily by the iron corrosion rates, calculated from the hydrogen gas generation rates, by the cis-DCE removal rates and by the alkalinity profiles. The accumulation of precipitates in the four columns caused passivation of the iron. The passivation of the iron in turn resulted in migration of the mineral precipitation fronts as well as profiles of cis-DCE, TCE, VC, alkalinity, Eh, pH, and chloride. Connelly and G-M had longer periods of operation than Ispat and Peerless and thus their performance was the primary test of the hypothesis. G-M iron, which had the higher initial corrosion rate, compared to Connelly, showed a faster accumulation of precipitates near the influent end. The difference in accumulated precipitates resulted in a difference in the leading edge of the organic profiles and a significant difference in the pattern of passivation, indicating a faster passivation in the region near the influent end for G-M. <br /><br /> Model simulations were performed using the same fitting parameters but with different initial corrosion rate constants to further test the hypothesis. The model provided a reasonable representation of changing reactivities of the columns, being consistent with the observed data. In the simulation for long-term prediction, the cases of higher corrosion rates showed earlier breakthroughs and steeper curves than those of lower corrosion rates. Also, the predictions showed greater porosity loss for the case of higher corrosion rate. Thus, long-term predictions support the hypothesis. Accurate determination of model parameters such as cis-DCE degradation rate constants and iron corrosion rates are required for better predictions of long-term performance.

Earth Sciences

Iron

Initial Reactivity

cis-DCE

long-term performance

Retinal Vascular Reactivity to Incremental Hyperoxia During Isocapnia

Tong, Adrienne W.

16 June 2008

PURPOSE: Systemic hyperoxia has been induced using inspired gases in many studies to investigate vascular reactivity in the retinal vasculature. Technical limitations in the past resulted in inadequate control of systemic partial pressures of O2 and CO2, the latter of which tended to decrease secondary to induced hyperoxia. Recent development of a computerized gas delivery instrument has enabled the specific control of end-tidal CO2 (ETCO2) and fractional expired O2 (FeO2), independent of each other and of minute ventilation. The specific aims of each chapter are as follows: Chapter 3: To compare the magnitude and variability of the retinal vascular reactivity response to an isocapnic hyperoxic stimulus delivered using a manually-operated method to the newly developed computer-controlled gas sequencer. Chapter 4: To investigate the retinal hemodynamic response to incremental changes in hyperoxic stimuli during isocapnia. METHODS: Chapter 3: Ten young, healthy adults inhaled gases in a sequence of normoxic baseline, isocapnic hyperoxia, and normoxic recovery, using both gas delivery systems in random order. Chapter 4: Twelve healthy, young adults participated in a gas protocol consisting of 4 phases at varying fractional expired oxygen levels (FeO2): baseline (15%), hyperoxia I (40%), hyperoxia II (65%), and recovery (15%). End-tidal carbon dioxide (ETCO2) was maintained at an isocapnic level (~ 5%) throughout the experiment. In both Chapters 3 and 4, blood flow was derived from retinal arteriolar diameter and simultaneous blood velocity measurements of the superior temporal arteriole, acquired at 1-minute intervals during each of the phases of the gas protocol. RESULTS: Chapter 3: There was no interaction effect between the phases and gas delivery methods (p = 0.7718), but ETCO2 was significantly reduced during hyperoxia (p = 0.0002) for both methods. However, the magnitude of change in ETCO2 was physiologically insignificant i.e. <1%. The two systems differed in terms of FeO2 during hyperoxia, at a level of 85.27 ± 0.29% for the manual method, and 69.02 ± 2.84% for the computer method (p < 0.05). Despite this difference in oxygen concentrations, there was no difference in the vascular reactivity response for diameter (p = 0.7756), velocity (p = 0.1176), and flow (p = 0.1885) for equivalent gas phases between the two gas delivery systems. The inter-subject variability of retinal hemodynamic parameters was consistently lower using the computer-controlled gas sequencer. Chapter 4: Repeated measures ANOVA showed that there were significant influences of incremental changes in FeO2 on arteriolar diameter (p < 0.0001), blood velocity (p < 0.0001), and blood flow (p < 0.0001) in the retina. Paired t-tests of these retinal hemodynamic parameters during each phase in the gas sequence showed they were significantly different (p < 0.05) from each other, with the exception of baseline and recovery values. Incremental increases in FeO2 caused a linear decrease in group mean arteriolar diameter (R2 = 1, p = 0.002), group mean blood velocity (R2 = 0.9968, p = 0.04), and group mean blood flow (R2 = 0.9982, p= 0.03). CONCLUSIONS: Chapter 3: Inter-subject variability for virtually all retinal hemodynamic parameters was reduced using the computer-controlled method, presumably due to a higher degree of gas control. However, care needs to be exercised in the interprtetation of these results due to the relatively small sample size. A similar retinal hemodynamic response to isocapnic hyperoxia was induced using the two gas delivery systems, despite different levels of maximal FeO2. Chapter 4: Isocapnic hyperoxia elicits vasoconstriction and the reduction of retinal arteriolar blood flow in a dose-dependent manner over the range of FeO2 explored in this study.

retina

blood flow

isocapnic hyperoxia

vascular reactivity

Vision Science

An investigation of photochemically induced reactions in a chlorine-ozone system

Davidson, Richard W.

01 January 1972

No description available.

Physical chemistry

Thermochemistry

Photochemistry

Chlorine

Reactivity

Ozone

Reaction mechanisms