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1	A thermodynamic evaluation of 1,4,7,10- tetraazacyclododecane - 1,4,7,10- tetra (methane-phosphonic acid) (DOTP) as a component of the bone- seeking radiopharmaceutical [177 Lu] Lu (III) -DOTP, towards establishing blood plasma model for Lu (III) / L. C Sepini Sepini, L C January 2012 (has links) Thesis (M.Sc.(Agric, Science and Technology) North-West University, Mafikeng Campus, 2012 Radioisotope Radionuclide
2	Modelling bioremediation of uranium contaminated aquifers Rotter, Ben E. G. January 2008 (has links) Radionuclide extraction, processing and storage have resulted in a legacy of radionuclide-contaminated groundwater aquifers worldwide. An emerging remediation technology for such sites is the in situ immobilisation of radionuclides via biostimulation of dissimilatory metal reducing bacteria. While this approach has been successfully demonstrated in experimental studies, advances in understanding and optimization of the technique are needed. Mass transfer processes in heterogeneous and structured porous media may significantly affect the geochemical and microbial processes taking place in contaminated sites, impacting remediation efficiency significantly. The objective of this work was to understand better how heterogeneous porous media may affect immobilisation efficiency through interactions with the dominant geochemical, microbial and transport processes. A biogeochemical reactive transport model was developed for uranium immobilisation by DMRB. Physical heterogeneity is conceptually represented by a two-region model. Simulations investigate the parameter sensitivities of the system over wide ranging geochemical, microbial and groundwater transport conditions. The simulations highlight the conditions under which optimal remediation occurs. The relative significance of regional microbial residence patterns, U(VI)-surface complexation, geochemical conditions such as mineralogy, and porous media characteristics such as porosity and regional mass transfer are identified. Additionally, low level radioactive waste disposal sites typically contain significant quantities of cellulose, whose hydrolysis can have a significant impact on the geochemical conditions in these sites. Those geochemical conditions, in turn, can affect radionuclide mobility and bioimmobilisation. To investigate the potentially critical role of cellulose, process-based predictive model was developed, which includes a novel approach to biomass transfer between a cellulose-bound biofilm and biomass in the bulk liquid. A sensitivity analysis of the system parameters revealed the significance of bacterial colonisation of cellulose particles by attachment through contact in solution. The thesis concludes that the processes involved in uranium bioimmobilisation are sensitive to regional residence characteristics, media porosity, surface complexation, microbial efficiency, and mass transfer under varying conditions. Careful characterisation of potential sites and use of a model that includes these processes in sufficient detail is therefore deemed necessary before the remediation effectiveness can be reliably predicted. 628 Engineering ; radionuclide ; remediation
3	A study of colloidal mobility in glacial sand formation Harrison, Ian January 1996 (has links) No description available. 628.5 Groundwater; Radionuclide transport
4	The improvement of SPECT images using scatter correction techniques Staff, Roger T. January 1994 (has links) The removal of scattered radiation is recognised as one of the major goals to be achieved in SPECT. In this work three scatter removal techniques were investigated. These were dual window scatter subtraction, deconvolution using a Wiener filter and energy weighted acquisition (EWA) using a weighted acquisition module (WAM). In addition to this, the effects of simple background subtraction on SPECT images was also investigated. The techniques were investigated in both a semi-quantitative manner, in terms of the effects of each technique on the cold lesion contrast and image mottle, and qualitatively, in terms of the ability of observers to perform a detection task. This was done using Relative Operating Characteristic (ROC) experiments. Each technique is investigated individually to discover the parameters needed to optimise performance. The results showed that the optimum parameters for each scatter reduction technique was dependent on the measure of image quality used for optimisation and showed that all of the techniques investigated produced better results than those produced using the standard 20&'37 photopeak acquisition approach, however, in general no significant difference could be found between the techniques. The image noise produced by each technique was also evaluated by calculating the noise power spectra (NPS) produced by each technique. The calculated NPS showed the spatial content of the noise produced by each technique was different for each scatter reduction technique. The results in this work showed that empirically defined measures of image quality are poor predictors of observer performance. 610.28 Radionuclide computed tomography
5	The stability of cement superplasticiser and its effect on radionuclide behaviour Young, Amy J. January 2012 (has links) Superplasticisers are used to improve the flow properties of fresh cement and offer undoubted benefits to the construction sector. There is concern in the nuclear industry, however, that organic additives may increase the solubility of radionuclides when in contact with cementitious grouts or backfill. The research presented in this thesis describes the effect of a commercial polycarboxylated poly ether comb type superplasticiser on the behaviour of U (VI), Th (IV), Eu (III) and Ni (II) in blended cements. Both Blast Furnace Slag (BFS) and Pulverised Fly Ash (PFA) blends with Ordinary Portland Cement (OPC) were investigated. Solubility experiments approached from oversaturation were conducted in a range of high pH aqueous solutions that are representative of the respective cement pore waters. Results show that the as received superplasticiser is responsible for an increase in solubility of all the metals investigated, however, the extent of solubility enhancement is dependent on the metal investigated and the nature of the high pH solution. U (VI) and Eu (III) display solubility enhancement over several orders of magnitude while Ni (II) and Th (IV) solubility is enhanced to a lesser extent. Batch experiments of Ni (II) and Eu (III) uptake onto BFS:OPC and PFA:OPC cement were investigated from two view points i. By regarding the superplasticiser as a ligand where batch experiments of metal uptake on crushed cement are carried out with increasing concentrations of free superplasticiser in solution. ii. By investigating metal uptake in cements prepared with superplasticiser already present. Results of the batch experiments show that the presence of free superplasticiser in solution reduces uptake of Ni (II) and Eu (III) by both BFS:OPC and PFA:OPC. Further, metal bound in the presence of free superplasticiser is readily remobilised on exposure to fresh cement solution. Conversely, metal uptake is quantitative and irreversible when exposed to crushed cement prepared with superplasticiser in the original mix. Leaching of U (VI), Th (IV) and Ni (II) from hardened cement with and without the addition of superplasticiser was investigated by the preparation of monolithic BFS:OPC and PFA:OPC cement samples. BFS:OPC samples prepared with superplasticiser suffered from bleed and a significant proportion of the original metal inventory was found in the BFS:OPC bleed water after 48 hours, varying from 19% in the case of nickel to 32% for uranium. Autoradiography of the monoliths showed accumulation of uranium and thorium in the region adjacent to, and in contact with, the bleed water. Therefore, the bulk of the metal inventory had not been incorporated into the cement. The stability of the superplasticiser under conditions likely to be present in a Geological Disposal Facility (GDF) was investigated by exposing the superplasticiser to chemical, thermal and radiolytic attack. Several analytical techniques were assessed for their ability to characterise the products of these experiments. Whereas Infra-Red (IR) spectrometry provided comparative information regarding the functionality of the superplasticiser before and after exposure, Gel Permeation Chromatography with Refractive Index Detection (GPC-RID) was found to be the best technique available to observe changes to the superplasticiser. Under chemical (alkali) attack by exposure to 0.1 mol dm-3 NaOH and 95% saturated Ca(OH)2 , the superplasticiser samples were found to decrease in molecular weight, a result consistent with alkaline hydrolysis of the polymer chains. Little change to the superplasticiser were observed on heating to 80ºC, however, on exposure to gamma radiation (60Co), further polymerisation and cross-linking of the polymer chains was initiated, with a significant increase of the polymer s molecular weight. Solubility experiments on U (VI), Th (IV), Eu (III) and Ni (II) were repeated to investigate the effect of irradiated superplasticiser. As with the as received material, the results show that the presence of irradiated superplasticiser causes an increase in solubility of all the metals investigated. In this case however, Th (IV) and U (VI) display a much greater enhancement in solubility, whereas Eu (III) and Ni (II) show solubility enhancement similar to that observed in the non-irradiated samples. The results presented in this thesis give a representation of the behaviour of metals in the presence of polycarboxylated poly ether comb superplasticiser and highlight the importance of considering the consequences of the use of cement additives in the concept of the GDF. The metals studied encompass a range of oxidation states from Ni (II), through Eu (III) and Th (IV) to U (VI). The behaviour of these metals here is of potentially great significance as it may indicate similar behaviour by other actinide species, most notably the behaviour and apparent mobility of Th (IV) may suggest analogous behaviour of tetravalent Pu (IV) and Np (IV). 620.1 Cement ; Superplasticiser ; Radionuclide
6	Mathematical modeling of '1'3'7Cs and '2'1'0Pb transport in lakes, their sediments, and surrounding catchment Smith, James Thompson January 1993 (has links) No description available. 628.5 Radionuclide transport in lakes
7	Development of positron emission tomography radioligands for the dopaminergic and serotonergic neurotransmission systems / Lundkvist, Camilla, January 1900 (has links) Diss. (sammanfattning) Stockholm : Karol. inst. / Härtill 10 uppsatser. Brain: radionuclide imaging.
8	Catecholaminergic neurotransmission in heart and brain, development of tracers for positron emission tomography / Langer, Claus Oliver, January 1900 (has links) Diss. (sammanfattning) Stockholm : Karol. inst. / Härtill 7 uppsatser. Brain: radionuclide imaging.
9	Advances in brain spect : methodological and human investigations / Pagani, Marco, January 1900 (has links) Diss. (sammanfattning) Stockholm : Karol. inst. / Härtill 6 uppsatser. Brain: radionuclide imaging.
10	Nuclear medicine imaging of breast cancer and regional lymph nodes / Danielsson, Rimma, January 1900 (has links) Diss. (sammanfattning) Stockholm : Karol. inst. / Härtill 5 uppsatser. Breast neoplasms: radionuclide imaging.

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