Determination of the Leak Size Critical to Package Sterility Maintenance

Keller, Scott Wayne

09 April 1999

This study was divided into four sections: the literature review; the mechanism by which a package defect becomes a leak; and the imposed pressures generated within a package during distribution; comparison of the threshold leak size to the critical leak size and their effect on loss of package sterility; and the relationships between microorganism characterisitics and the threshold leak size, and their effect on the critical leak size. Section II. The mechanism by which a package defect converts to a leaker in an effort to develop a relationship between the threshold leak size and loss of package sterility was studied. The threshold leak size is the hole size at which the onset of leakage occurs. The threshold pressure is that which is required to initiate a leak. Leak initiation was studied in terms of the interaction between three components: liquid attributes of liquid food products, defect size, and pressures required to initiate liquid flow. Liquid surface tension, viscosity, and density were obtained for sixteen liquids. The imposed pressures (Po) required to initiate flow through microtubes of IDs 0, 2, 5, 7, 10, 20 or 50 m, were measured using 63 test cells filled with safranin red dye, tryptic soy broth, and distilled water with surface tensions of 18.69 mN/m, 44.09 mN/m, and 64.67 mN/m, respectively. Significant differences were found between observed threshold pressures for safranin red dye, tryptic soy broth, and distilled water (p < 0.05). Liquids with small surface tensions such as safranin red dye required significantly lower threshold imposed pressures than liquids with large surface tensions such as distilled water (p < 0.05). An equation was developed to quantify the relationship between liquid surface tension, threshold imposed pressure, and defect size. Observed threshold pressures were not significantly different (p > 0.05) than those predicted by the equation. Imposed pressures and vacuums generated within packages during random vibration and sweep resonance tests were measured for brick-style aseptic packages (250 ml), metal cans size 76.2-mm x 114.3-mm (425 ml), quart gable top packages (946 ml), one-half gallon gable top packages (1.89 L) and one-gallon milk jugs (4.25 L). Significant differences were found between packages for observed generated pressures during vibration testing (p < 0.05). An equation to calculate the threshold like size based on liquid surface tension and imposed pressure was established. Section III. The onset of liquid flow through a defect as a result of imposed positive pressures or vacuum were linked to the sterility loss of a package. Five-hundred sixty-three test cells, each with microtubes of 0, 2, 5, 7, 10, 20 or 50 m, manufactured to simulate packages with defects, were biochallenged via an aerosol concentration of 106 cells/cm3 of Pseudomonas fragi Lacy-1052, under conditions of imposed positive pressure or vacuum of 20.7, 13.8, 6.9, 0, -6.9, -13.8, -20.7 kPa, respectively and temperatures of 4 , 25 and 37 C. A statistically significant relationship between loss of sterility due to microbial ingress in test cells and the initiation of liquid flow were found (p < 0.05). Microbial ingress was not found in test cells with microtube IDs of 2 m. Leak sizes critical to the sterility maintenance were found to be different based on the liquid surface tension, and imposed package pressures. The threshold leak size where the onset of liquid flow was initiated, and the critical leak size at which loss of sterility occured were not significantly different (p > 0.05). Section IV. The effects of microorganism size and motility, and the imposed pressure required to initiate liquid flow, on the leak size critical to the sterility of a package were measured. Pseudomonas fragi Lacy-1052, Bacillus atrophaeus ATCC 49337, and Enterobacter aerogenes ATCC 29007 were employed to indicate loss of package sterility. One hundred twenty-six microtubes with interior diameters (I.D.s) of 5, 10, and 20 m and 7 mm in length were used as the manufactured defects. Forty-two solid microtubes were used as a control. An equation was used to calculate imposed pressures sufficient to initiate the flow of tryptic soy broth through all defects. No significant differences were found for loss of sterility as a result of microbial ingress into test cells with microtube ID sizes of 5, 10, and 20 m between the test organisms (p > 0.05). Interactions between the initiation of liquid flow as a result of imposed pressures, and the sterility loss of test cells were significant (p < 0.05). / Ph. D.

microbial ingress

Key words: imposed pressure

imposed vacuum

critical leak size

sterility maintenance

package defect

surface tension

package sterility

threshold leak size

Impacts of low-water activity food type on inactivation kinetics and models of foodborne pathogens treated with low-temperature, vacuum-assisted steam processing

Acuff, Jennifer Claire

29 April 2020

Low water activity foods (LWAF), specifically nuts and dried fruits, have been generally considered safe because they do not support the growth of foodborne pathogens. However, many pathogens have been noted to survive in LWAF for considerable periods of time, and a number of recent outbreaks and recalls have implicated various types of nuts and dried fruits. The Food Safety Modernization Act requires food processors to develop preventive control plans that make ready-to-eat LWAF safer for consumers. The presented research was designed to investigate several aspects of LWAF safety by evaluating a steam process as a strategy to remove pathogen contamination from LWAF, modeling the inactivation of such treatments, and studying the thermal resistances of two E. coli strains in low-water activity solutions. Low-temperature, vacuum-assisted steam (vacuum-steam) was evaluated as a potential intervention and preventive control to remove pathogens from the surface of LWAF without using high-heat treatments that could damage product quality. The presented work examined the efficacy of vacuum-steam (<85°C) as a means to decontaminate the surface of whole macadamia nuts, dried apricot halves, and raisins from Salmonella spp., Listeria monocytogenes, and Shiga toxin-producing Escherichia coli (STEC) contamination. The low-temperature steam treatments successfully reduced all pathogens by >4 log CFU/g from the surfaces of the foods. Additionally, Pediococcus acidilactici, proved to be a surrogate organism for these pathogens and could be used to challenge and validate similar treatments within processing plants. The data were fit to models, which showed that food type significantly impacted the fit, with the Weibull model best describing bacterial inactivation kinetics on raisins and macadamia nuts, and the Gompertz model best describing reductions on the apricot halves. The models were challenged for validation of their abilities to predict times required for 3-log reductions using internal and external datasets, determining the usefulness to industry members who wish to design similar thermal treatments for LWAF. Comparing predicted values from internally constructed models to observed values generated from external data, models were shown to be limited in scope and application and could only be applied to pathogen inactivation on different LWAF or thermal processes in certain circumstances. First-order and Weibull model predictions of bacterial reductions on dried apricots had varied success in predicting times for 3-log reductions on other thermally treated LWAF. However, the models of bacterial reductions on thermally treated macadamia nuts frequently overestimated the times required for 3-log bacterial reductions for other LWAF. In an effort to understand the effect that reduced water activity has specifically on STEC, two strains were investigated for induced thermal resistance due to osmotic stress. Thermal resistance of STEC strains (O121:H19 and O157:H7) were evaluated on the basis of strain variation, culture preparation, and water activity (D- and z-values). At the lowest treatment temperature (56°C), O121 displayed greater heat resistance than O157, and the broth-grown samples exhibited greater heat resistance than the lawn-grown cells, but significant differences were not observed at higher temperatures. Samples in reduced-water activity solutions displayed reduced thermal resistance at 56°C, but the z-values were 29-43% higher than those of high-water activity samples. While water activity has been shown to impact thermal resistance of pathogens, comparisons of STEC thermal resistance according to the D- and z-values revealed that other factors also play roles in pathogen thermal resistance on LWAF. Results from the collection of experiments conclude that efficacy of thermal treatments is impacted by the physiological state of the cells, stress experienced in the food matrix, and characteristics of the food, including water activity and composition. / Doctor of Philosophy / Consumers expect foods they purchase to be safe to consume by themselves and family members, particularly those that are ready-to-eat with no additional cooking requirements. Many of these foods are low-water activity foods (LWAF), like nuts and dried fruits, with very little water content that could be used by bacteria. These foods may be preferred snack foods due to their affordability, long shelf lives, and health benefits over other types of snack foods. Until recently, LWAF were generally considered safe because they do not support the growth of foodborne pathogens due to the lack of moisture or water within the food. However, a number of recent outbreaks related to various types of nuts and dried fruits have proven that many pathogens can survive in dried foods, even if not actively growing, for considerable amounts of time. Designed to address these types of food safety issues, the Food Safety Modernization Act recognizes risks associated with foods and responded with regulations requiring food processors to take steps to make ready-to-eat LWAF, like nuts and dried fruits, safer for consumers. A popular strategy is to treat foods with heat to destroy pathogens, however the quality attributes of some nuts and dried fruits could be damaged by high-heat treatments like roasting. An alternative process uses a vacuum to form steam at lower temperatures, allowing for efficient heat transfer through water droplets to the surface of the foods, thus causing less damage to the foods without introducing too much moisture. This research evaluated how this process could be used by food processors to remove harmful bacteria from the surfaces of whole macadamia nuts, dried apricot halves, and raisins. Results indicated that the low-temperature steam treatments successfully reduced Salmonella, Listeria monocytogenes, and Shiga toxin-producing Escherichia coli (STEC) by >4 log CFU/g (>99.99%) from the surfaces of the foods. Additionally, a nonpathogenic lactic acid bacterium, Pediococcus acidilactici, exhibited similar or greater heat tolerance, which would allow food processors to use it as a substitute, or surrogate, for in-plant studies without introducing harmful bacteria into the food processing environment. Mathematical models were used to describe the trends of bacterial death due to the steam treatments, and the results indicated that the type of food significantly impacted the reduction of bacteria. The models were tested using additional data collected within our own laboratory, as well as others. Results indicated that some of the models could be used as predictors of bacterial death for similar LWAF but can only be applied with caution and consideration for the type of food and process. Additionally, two different E. coli strains associated with outbreaks (O121:H19 and O157:H7) were investigated to understand impacts of strain variation, growth method, and water activity on thermal resistance. Some differences in heat resistance were observed between the strains and between the growth methods. Additionally, the reduced water activity seemed to decrease the bacteria's ability to withstand some heat treatments. Overall, thermal resistance studies indicated that several factors, in addition to water activity, impact pathogens' development of resistance to heat treatments. The experiments' results show that there are complex relationships between bacteria and the food they inhabit. Food processors must consider these relationships in order to design the best thermal processes to make LWAF safe for consumers.

low-water activity food safety

macadamia nuts

raisins

apricots

vacuum-steam

surrogate

inactivation kinetics

models

Shiga toxin-producing Escherichia coli

Salmonella

Listeria monocytogenes

Pediococcus

Simulation of curved-space quantum field theories with two-component Bose-Einstein condensates: from black-hole physics to cosmology

Berti, Anna

04 April 2024

In 1981, Unruh suggested the possibility of simulating the dynamics of quantum fields in curved spacetimes using sound-waves propagating in moving fluids: a supersonic flow would indeed influence the dynamics of sound similarly to what happens to light when it’s dragged by the spacetime geometry in strong gravity environments. This simple yet groundbreaking observation has lead to the beginning of a whole new field of research, nowadays known as Analog Gravity. Due to their superfluid character, intrinsic quantum nature and impressive experimental tunability, Bose-Einstein condensates represent one of the most promising platforms to realize analog spacetimes, including black-hole geometries with horizons and ergoregions, as well as of time-dependent configurations relevant to cosmology. In this Thesis we go beyond the standard single-component BEC and focus on two-component mixtures of atomic condensates, possibly in the presence of a coherent coupling between the two-components: the availability of various branches of elementary excitations with different sound speed and effective mass may in fact lead to advantages in the implementation of interesting geometries and, eventually, to the exploration of a broader spectrum of physical processes. We first consider black-hole related phenomena (Hawking radiation and rotational superradiance) that have already been analysed with single-component systems, generalising the results to mixtures; we then proceed to tackle a problem (the decay from the false vacuum) which instead requires the additional degrees of freedom that only a mixture displays.

analog gravity

Hawking radiation

Rotational superradiance

Ergoregion instabilities

False vacuum decay

Two-component Bose-Einstein condensates

metastability

Sustainable resins for large rotating machines / Hållbara hartser för stora roterande maskiner

Bharj, Gurpreet Kaur

January 2024

Det elektriska isolationssystemet för stora roterande maskiner består av ett kompositmaterial av glimmertejp och ett värmehärdande harts. Hartset hjälper till att mekaniskt stabilisera lindningsstrukturen i statorn samt ersätter luftinneslutningar i isolationssystemet för att undertrycka bildandet av elektriska urladdningar. Vakuumtryckimpregneringsprocessen (VPI) är den föredragna tekniken för att impregnera glimmerisolationen med det värmehärdande hartset. Hartset som används i VPI-processen är sammansatt av flera nyckelkomponenter, inklusive den härdbara polymeren, härdare som deltar i tvärbindning, reaktiva utspädningsmedel för förbättrade processegenskaper och ytterligare tillsatser som katalysatorer och stabilisatorer. Olika hartskemier har använts under åren för VPI-processen. Det finns dock betydande farhågor när det gäller påverkan på miljö- och arbetshälsa för några av dessa komponenter. Den ökade medvetenheten om de skadliga effekterna av olika kemikalier har drivit på arbetet med att utveckla hartser med reducerade flyktiga organiska föreningar som kan vara skadliga för såväl miljön som de som hanterar hartset i stora mängder. Dessutom har stränga EU-regler klassificerat vissa härdare och reaktiva utspädningsmedel som ’substances of very high concern’, vilket har lett till ett stort behov av att hitta alternativ för dessa föreningar. Detta examensarbete består av en litteraturstudie som har genomförts med hänsyn till de önskade egenskaperna för VPI-hartser för att utvärdera potentiella kandidater som alternativ till härdare och reaktiva utspädningsmedel. Fyra olika impregneringshartser har tagits i beaktande som alternativ. Olika härdningskinetikparametrar har uppmätts med olika karakteriseringstekniker såsom infraröd spektroskopi av Fouriertransform i realtid, reologi och differentiell scanningkalorimetri. Eftersom de termiska, elektriska och mekaniska egenskaperna är nödvändiga för att säkerställa långvarig livslängd för industriellt nyttjade roterande maskiner, har olika egenskaper studerats genom att utföra dynamisk mekanisk analys, drag- och böjningstestning samt dielektrisk spektroskopi, genom att härda hartserna under lämpliga tids- och temperaturförhållanden. Alla de fyra hartserna visade varierande härdningskinetikparametrar och egenskaper som har korrelerats till hartskemin samt att hartsernas egenskaper har utvärderats i jämförelse med varandra. / The electrical insulation system for large rotating machines consists of a composite material of mica tape and a thermosetting resin. The resin helps in mechanically stabilizing the winding structure in the stator as well as replaces air inclusions in the insulation system to suppress the formation of discharges. Vacuum pressure impregnation (VPI) is the preferred technique to impregnate this mica tape with the thermosetting resin. The resin used in VPI process is composed of several key components, including the thermoset polymer, a hardener that participates in crosslinking, reactive diluents for improved processability and and additional additives like catalysts and stabilizers. Different chemistries have been used over the years for the VPI process. However, there are significant concerns regarding the environmental and occupational health and safety of some of these components.  The increasing awareness of the harmful effects of various chemicals has driven efforts to develop resins with reduced volatile organic compounds which can be detrimental to both the environment as well as those who are handling the resin in large quantities. Furthermore, stringent EU regulations have classified some hardeners and reactive diluents as substances of very high concern which has resulted in pressing need to find alternatives for these compounds.  This thesis, thus, consists of a literature study which has been performed taking the desired properties for VPI resins into consideration to evaluate potential candidates as alternatives for hardeners, and reactive diluents. Four different chemistries of impregnation have been taken into consideration as alternatives. Different curing kinetics parameters have been measured by different characterization techniques such as real time Fourier transform infrared spectroscopy, rheology, and differential scanning calorimetry. As the thermal, electric, and mechanical factors are necessary to ensure long term lifespan of industrial machines, different properties have been studied by performing dynamic mechanical analysis, tensile and flexural testing as well as dielectric spectroscopy by curing the resins under appropriate time and temperature conditions. All the four resins showed varied curing kinetics parameters and properties which have been correlated to the chemistry involved in the resin as well as evaluated in comparison to each other.

Large rotating machines

vacuum pressure impregnation

alternative impregnation resins

curing kinetics

Stora roterande maskiner

vakuumtryckimpregneringsprocess

alternativa impregneringshartser

härdningskinetik

miljö- och arbetsmiljö

Polymer Technologies

Polymerteknologi

LOW ENERGY SURFACE FLASHOVER IGNITOR FOR ELECTRIC PROPULSION SYSTEMS

Yunping Zhang (13834921)

17 May 2024

<p>  </p> <p>  </p> <p>An approach to modify surface flashover of insulators in vacuum by limiting duration of its high-current stage responsible for the damaging effects of a classic flashover was developed. The flashover assembly was made by TorrSeal-gluing copper electrodes (10 x 10 x 0.5 mm) to both side of an alumina ceramic sheet (0.635 mm thick). The modified flashover, referred to as low energy surface flashover (LESF), was achieved by utilization of a high voltage (HV) nanosecond pulser or addition of a resistor in series with the LESF assembly when HV DC was utilized. The duration of LESF was visualized by ICCD fast photography to be 100 – 200 ns accompanying electrical characteristics measurements, which gave insight of a way to control the flashover duration by inserting additional capacitor in parallel with the LESF assembly to increase the stored energy prior to breakdown. The LESF assembly was tested for > 1.5 million consecutive pulses and remained operational, while operation in high energy regime with parallel capacitor (4nF) lead to significant damage after 200 pulses.</p> <p>The igniting capabilities of LESF assembly was demonstrated via successful triggering of vacuum arc and a prototype pulsed plasma accelerator. The plasma plume propagation speed and angular distribution was measured via Langmuir probes. Efforts were made for temporally resolved spectroscopy measurements. </p> <p>The LESF assembly was improved by replacing TorrSeal-gluing with direct bonding of copper to alumina ceramic and changing the configuration from parallel plate to coaxial. The improved assembly was demonstrated to be operational throughout and after an extended test of 10 million pulses. A higher resolution ICCD photography revealed finer LESF discharge features including initial bright line across the insulator developing into a double-jet plasma plume propagating at around 10⁵m/s and later-on point-like attachment of the discharge column to the electrodes. The composition of the plasma and erosion pattern on the LESF assembly was studied via SEM/EDX analysis, which supported the predominant ceramic erosion over copper electrodes erosion.</p>

Space instrumentation

Cubesats

micropropulsion systems

pulsed plasma thruster

ignition characteristics

flashover process

vacuum arc

cathode spots

plasma physics

Ethical hacking of a premium robot vacuum : Penetration testing of the Roborock S7 robot vacuum cleaner / Etiskt hackande av en högkvalitativ robotdammsugare : Penetrationstestande av robotdammsugaren Roborock S7

Dahlberg Sundström, Tobias, Nilsson, Johan

January 2022

With the advancements made in the field of data science, smart IoT devices are be-coming increasingly common. Consequently, this creates an increased number of targets for hackers to potentially exploit. This is a study about ethically hacking a robot vacuum, the Roborock S7, and evaluating the security of the target system. The DREAD and Stride threat models are used in order to find potential exploits. These exploits are then tested on the vacuum. Four tests were done on the system: scan-ning, denial-of-service attack, man-in-the-middle sniffing and man-in-the-middle tampering. The study found that the vacuum is relatively secure against web threats with weaknesses found surrounding its handling of its own network and lack of re-sistance to denial-of-service attacks on the DHCP protocol. / Med de framsteg som sker inom datavetenskap och teknologi blir IoT-enheter allt vanligare i hemmen. Detta medför en ökad mängd enheter med potentiella sårbar-heter som hackare kan utnyttja. Denna rapport handlar om att etiskt hacka en ro-botdammsugare av modell Roborock S7 och utvärdera dess säkerhet mot internet-hot. DREAD och STRIDE används som hotmodeller för att hitta sårbarheter. Sår-barheterna testas sedan på dammsugaren. Fyra tester utfördes på system: scanning, denial-of-service-attack, man-in-the-middle-avlyssning och man-in-the-middle-av-lyssning med manipulering. Rapporten hittade att dammsugaren är resonabelt säker mot internethot men med svagheter i hur enheten hanterar sitt egna nätverk samt ett bristande motstånd mot en denial-of-service-attack genom DHCP-protokollet.

Ethical hacking

IoT

DREAD

STRIDE

Grey-box testing

Robot vacuum

Etiskt hackande

IoT

DREAD

STRIDE

Grey-box testande

Robotdammsugare

Communication Systems

Kommunikationssystem

Computer Engineering

Datorteknik

Structural Composite Material with Novel Cellulose Fibre Reinforcement / Strukturellt sammansatt material med nyskapande förstärkning av cellulosafibrer

Murrone, Mauro Antonio

January 2024

In recent decades, the necessity to find a completely environmentally friendly substitute for synthetic fibres in composite applications has intensified, driven by the objective of reducing emissions in both the production and disposal of composite components. Natural fibres present a potential solution, yet they have some issues such as the inhomogeneous quality of their cross-section and mechanical properties, depending on different aspects, for example, growing conditions and the amount of intake water. Another potential solution is organic man-made fibres, such as fibre made from Cellulose NanoFibrils, which do not present the previously cited drawbacks.This thesis investigates and compares the potentials of organic fibres, either man-made or natural, in composite reinforcement applications. To accomplish this, organic fibres are integrated into composite plates using two distinct thermoset matrices, epoxy and vinyl ester, respectively via methods of hot pressing and vacuum infusion. Subsequently, the produced composite plates undergo tensile testing, with the results being compared with the theoretical values. Furthermore, microscopy is employed to examine the adhesion at the interface between reinforcement and matrix.The findings indicate that man-made fibres from Cellulose NanoFibrils bind more efficiently with thermoset matrices compared to flax fibres, making them more adept as reinforcement materials for thermoset composites. / Under de senaste decennierna har behovet av att hitta en helt miljövänlig ersättning för syntetiska fibrer i kompositapplikationer intensifierats, drivet av målet att minska utsläppen både vid produktion och avfallshantering av kompositkomponenter. Naturliga fibrer presenterar en potentiell lösning, men de har vissa problem som den ojämna kvaliteten på deras tvärsnitt och mekaniska egenskaper, beroende på olika aspekter, till exempel växtförhållanden och mängden intaget vatten. En annan potentiell lösning är organiska konstgjorda fibrer, som fibrer tillverkade av cellulosa nanofibriller, som inte har de tidigare nämnda nackdelarna.Denna avhandling undersöker och jämför potentialen hos organiska fibrer, antingen konstgjorda eller naturliga, i kompositförstärkningsapplikationer. För att uppnå detta integreras organiska fibrer i kompositplattor med hjälp av två olika termohärdande matriser, epoxi och vinyl-ester, via metoder för varmpressning och vakuuminfusion. Därefter genomgår de producerade kompositplattorna dragprovning, med resultaten jämförda med de teoretiska värdena. Dessutom används mikroskopi för att undersöka vidhäftningen vid gränssnittet mellan förstärkning och matris.Resultaten indikerar att konstgjorda fibrer från cellulosa nanofibriller binder effektivare med termohärdande matriser jämfört med linfibrer, vilket gör dem mer lämpliga som förstärkningsmaterial för termohärdande kompositer.

Composite material

organic man-made fibres

natural fibres

thermosets matrices

vacuum infusion

hot pressing.

Kompositmaterial

organiska konstgjorda fibrer

naturlig fiber

termohärdande matriser

vakuuminfusion

varmpressning.

Vehicle Engineering

Farkostteknik

Advances in Gas Chromatography and Vacuum UV Spectroscopy: Applications to Fire Debris Analysis & Drugs of Abuse

Zackery Ray Roberson (9708611)

07 January 2021

In forensic chemistry, a quicker and more accurate analysis of a sample is always being pursued. Speedy analyses allow the analyst to provide quick turn-around times and potentially decrease back-logs that are known to be a problem in the field. Accurate analyses are paramount with the futures and lives of the accused potentially on the line. One of the most common methods of analysis in forensic chemistry laboratories is gas chromatography, chosen for the relative speed and efficiency afforded by this method. Two major routes were attempted to further improve on gas chromatography applications in forensic chemistry.<br> The first route was to decrease separation times for analysis of ignitable liquid residues by using micro-bore wall coated open-tubular columns. Micro-bore columns are much shorter and have higher separation efficiencies than the standard columns used in forensic chemistry, allowing for faster analysis times while maintaining the expected peak separation. Typical separation times for fire debris samples are between thirty minutes and one hour, the micro-bore columns were able to achieve equivalent performance in three minutes. The reduction in analysis time was demonstrated by analysis of ignitable liquid residues from simulated fire debris exemplars.<br> The second route looked at a relatively new detector for gas chromatography known as a vacuum ultraviolet (VUV) spectrophotometer. The VUV detector uses traditional UV and far-ultraviolet light to probe the pi and sigma bonds of the gas phase analytes as well as Rydberg traditions to produce spectra that are nearly unique to a compound. Thus far, the only spectra that were not discernable were from enantiomers, otherwise even diastereomers have been differentiated. The specificity attained with the VUV detector has achieved differentiation of compounds that mass spectrometry, the most common detection method for chromatography in forensic chemistry labs, has difficulty distinguishing. This specificity has been demonstrated herein by analyzing various classes of drugs of abuse and applicability to “real world” samples has been demonstrated by analysis of de-identified seized samples.<br>

Separation Science

Forensic Chemistry

vacuum UV absorption

Vacuum ultraviolet spectroscopy

VUV

gas chromatography

Far UV analysis

FUV absorption spectra

micro-bore column gas chromatography

Drugs of abuse

Forensic Drug Analysis

Seized Street Samples

Amphetamines

Opiates

Fentanyl analogues

chemometric data analysis

Response surface methodology (RSM)

derivatization

Vyhodnocení vlivu tlaku v komoře vzorku a velikosti clonek na výsledný tlak u scintilátoru detektoru pomocí systému Cosmos FloWorks / Using Cosmos FloWorks for analyse the detector.

Bordovský, Petr

January 2010

This work deal with the analysis of influence of pressure‘s sizes in vacuum chamber of specimen Evironmental Scanning Electron Microscope and the influence of sizes of aperture diaphragm by scintillation detector. The analysis proceeds in detector of secondary electrons. The detector is modelled by system 3D CAD SolidWorks with the help of system CAE Cosmos FloWorks.

Verifiering av speciell tvättutrustning med avseende på renhetsgrad / Verification of special washing equipment with regard to level of cleanliness

Langmo, Jotham

January 2021

Inom medicin och kärnkraft ställs höga krav på olika komponenters renhetsgrad. Vid tillverkning av precisionskomponenter inom medicin och kärnkraftsteknik så används skärvätska för att kyla och smörja godset. Skärvätskan behöver tvättas bort innan komponenterna skickas till kunderna. För att kunna tvätta bort skärvätskan används en speciell tvättutrustning. Idag saknas en metod för att kunna påvisa att den speciella tvättutrustningen på ett tillförlitligt sätt uppnår gällande krav och standarder på renhet som ställs av branscherna, på komponenterna. Genom att verifiera tvättutrustningen mot en specifik kravbild, godkänns tvättutrustningens duglighet och således frisläpps utrustningen för produktion. Målet med studien är att ta fram ett underlag för att kunna verifiera en speciell tvättutrustning. Målet uppnås genom att undersöka vilka faktorer som påverkar renhetsgraden i tvättprocessen och utveckla metoder för att säkerställa att dessa faktorer beaktas. Några av metoderna som används i arbetet är Plan-Do-Study-Act (PDSA), Acceptanskontroll enligt attributsmetoden, intervju och observation. Resultatet av provgruppsmätningarna från laboratoriet, visar att komponenternas renhetsgrad ligger inom Willos kravställning på restkontamination av olja≤10 μg/cm^2 då komponenterna tvättats med tvättprogram två. Efter att provgupperna genomgått acceptanskontrollen står det klart att provgrupperna accepteras med en sannolikhet på 95,6% och att tvättprocessen är stabil. I studien har gamla och antagna mätvärdena använts eftersom det tar lång tid att ta laboratorieprover och tiden som examensarbetet pågår är begränsad. Med de gamla och antagna mätvärdena skulle den speciella tvättutrustningen kunna verifieras mot Willos kravställning, för att möta branschernas krav på renhetsgrad. Genom verifieringen kan man på så vis påvisa att tvättutrustningen levererar stabilt tvättresultat över tid. / In medical and nuclear power applications, high demands are placed on the level of cleanliness of various components. When precision components in medicine and nuclear power technology are manufactured, cutting fluid is used to cool and lubricate the raw stock. The cutting fluid needs to be washed away before the components are sent to customers. To be able to wash away the cutting fluid, special washing equipment is used. Today, there is no method to demonstrate that the special washing equipment reliably meets current requirements and standards for cleanliness set by the industries on the components. By verifying the washing equipment against specific requirements, the capability of the washing equipment is approved, and thus, the equipment is released for production. The study aims to produce a basis for verifying special washing equipment. The goal is achieved by examining which factors affect the level of cleanliness in the washing process and developing methods to ensure that these factors are taken into account. Some of the methods used in work are Plan-Do-Study-Act (PDSA), Acceptance sampling according to the attribute method, interview and observation. The results of the test group measurements from the laboratory show that the level of cleanliness on the components is within Willo's requirements for residual contamination of oil≤10 μg/cm^2 when the components have been washed with washing program two. After the sample groups have undergone the acceptance sampling, it is clear that the sample groups are accepted with a probability of 95.6% and that the washing process is stable. In the study, old and assumed measurement values have been used because of the time it takes to perform laboratory samples, and the time that the degree project progresses is limited. With the old and assumed measurement values, the special washing equipment could be verified to Willo's requirements in order to meet the industries' requirements for the level of cleanliness. Through the verification, it can be demonstrated that the washing equipment delivers stable washing results over time.

Special Washing Equipment

Washing Equipment

Washing

Hydrocarbon

Hydrocarbon Solvent Cleaning

Dürr

Eco Clean

Dürr Eco Compact 80c

Verification

Validation

Cleanliness

Surface Cleanliness

Surface

Clean

Solvent

Ultrasonic Washing

Ultrasonic

Vacuum Clean

Vacuum.

Speciell Tvättutrustning

Tvättutrustning

Tvättning

Hydrocarbon

Hydrocarbon Solvent Cleaning

Dürr

Eco Clean

Dürr Eco Compact 80c

Verifiering

Validiering

Verification

Washing Equipment

Renhetsgrad

Ytrenhet

Surface

Clean

Lösningsmedel

Ultraljudstvätt

Ultraljud

Vakuum Renjörning

Vakuum.

Mechanical Engineering

Maskinteknik