Fyra pedagogers skilda uppfattningar om utomhuspedagogik som fenomen

Kyller, Carola, Abedini, Mehrnaz

January 2013

Syftet med vårt examensarbete har varit att undersöka hur några valda pedagoger förhåller sig till utomhuspedagogik som en pedagogisk undervisningsmetod och diskutera dessa olika perspektiv av vad pedagogerna säger utifrån frågeställningarna i vårt syfte. Med hjälp av intervjuer har vi ställt frågor till fyra utvalda pedagoger som besitter skilda kunskaper och erfarenheter av utomhuspedagogik. I litteraturstudien mötte vi begrepp som forskare och teoretiker förknippade med utomhuspedagogik. Begrepp som direktkontakterfarenhet, sinnlig erfarenhet, autentisk lärandemiljö. Resultatet åskådliggör att pedagogerna ser fler fördelar än nackdelar med utomhuspedagogik. Några fördelar gällande utomhuspedagogiken framkom som mer rörelse i lärandet, bättre hälsa och att lära om objekt i sin verkliga miljö m.fl. En nackdel som flera av pedagogerna var överens om var personalbrist, tidsbristen gällande planering och de praktiska förberedelserna. Pedagogerna visade olika intresse för utomhuspedagogik men alla var överens om att det var en bra undervisningsmetod och några av dem ville gärna använda sig mer av det i sin undervisning i framtiden.

Outdoor education

authentic learning environment

indoor education

sensuous experience

direct contact experience in learning

outdoor environment

nature-landscape

Utomhuspedagogik

autentisk lärandemiljö

inomhusundervisning

sinnliga erfarenheter

direktkontakterfarenheter i lärande

utomhusmiljö

natur-landskap

Étude et conception d'un système thermodynamique producteur du travail mécanique à partir d'une source chaude à 120°C / Study and design of a thermodynamic system generating mechanical work from a hot source at 120°C

Maalouf, Samer

27 September 2013

Les fumées à basse température (<120-150 °C) sortant des procédés industriels pourraient être récupérées pour la production d'électricité et constituent un moyen efficace de réduction de la consommation d'énergie primaire et des émissions de dioxyde de carbone. Cependant, des barrières techniques tels que la faible efficacité de conversion, la nécessité d'une grande zone de transfert de chaleur, et la présence de substances chimiques corrosives liées à une forte teneur en humidité lors du fonctionnement en environnement sévère entravent leur application plus large. Cette thèse porte particulièrement sur les secteurs industriels les plus énergivores rencontrant actuellement des difficultés à récupérer l'énergie des sources de chaleur à basse température dans des environnements hostiles. Des cycles thermodynamiques existants basés sur le Cycle de Rankine Organique (ORC) sont adaptés et optimisés pour ce niveau de température. Deux méthodes de récupération de chaleur classiques sont étudiées plus particulièrement : les déshumidifications à contact direct et indirect. Des méthodes de conception optimisées pour les échangeurs de chaleur sont élaborées et validées expérimentalement. Pour la déshumidification à contact indirect, des matériaux à revêtement anticorrosifs sont proposés et testés. Pour la déshumidification à contact direct, les effets du type et de la géométrie des garnissages sur les performances hydrauliques sont étudiés. Des cycles thermodynamiques innovants basés sur la technologie de déshydratation liquide sont proposés. Un cycle de régénération amélioré (IRC) est développé. Comparé aux technologies de récupération de chaleur classiques, l'IRC proposé améliore à la fois la puissance nette et le taux de détente de la turbine en prévenant par ailleurs les problèmes de corrosion. / Low-temperature waste-gas heat sources (< 120-150°C) exiting several industrial processes could be recovered for electricity production and constitute an effective mean to reduce primary energy consumption and carbon dioxide emissions. However, technical barriers such as low conversion efficiency, large needed heat transfer area, and the presence of chemically corrosive substances associated with high moisture content when operating in harsh environment impede their wider application. This thesis focuses on particularly energy-hungry industrial sectors characterized by presently unsolved challenges in terms of environmentally hostile low-temperature heat sources. Existing thermodynamic cycles based on Organic Rankine Cycle (ORC) are adapted and optimized for this temperature level. Two conventional heat recovery methods are studied more particularly: indirect and direct contact dehumidification. Optimized design methods for heat exchangers are elaborated and experimentally validated. For the indirect contact dehumidification, advanced anti-corrosion coated materials are proposed and laboratory tested. For the direct contact dehumidification, the effects of packing material and geometry on the corresponding hydraulic performances are underlined. Innovative thermodynamic cycles based on the liquid desiccant technology are investigated. An improved regeneration cycle (IRC) is developed. Compared to the conventional heat recovery technologies, the proposed “IRC” improves both net power and turbine expansion ratio besides preventing faced corrosions problems.

Cycle de Rankine Organique (ORC)

Déshumidification par contact indirect

Déshumidification par contact direct

Déhumidification par absorption

Low-temperature heat valorization

Organic Rankine Cycle (ORC)

Indirect contact dehumidification

Direct contact dehumidification

Desiccant dehumidification

STUDY OF THE THERMAL STRATIFICATION IN PWR REACTORS AND THE PTS (PRESSURIZED THERMAL SHOCK) PHENOMENON

Romero Hamers, Adolfo

20 March 2014

In the event of hypothetical accident scenarios in PWR, emergency strategies have to be mapped out, in order to guarantee the reliable removal of decay heat from the reactor core, also in case of component breakdown. One essential passive heat removal mechanism is the reflux condensation cooling mode. This mode can appear for instance during a small break loss-of-coolant-accident (LOCA) or because of loss of residual heat removal (RHR) system during mid loop operation at plant outage after the reactor shutdown. In the scenario of a loss-of-coolant-accident (LOCA), which is caused by the leakage at any location in the primary circuit, it is considered that the reactor will be depressurized and vaporization will take place, thereby creating steam in the PWR primary side. Should this lead to ¿reflux condensation¿, which may be a favorable event progression, the generated steam will flow to the steam generator through the hot leg. This steam will condense in the steam generator and the condensate will flow back through the hot leg to the reactor, resulting in counter-current steam/water flow. In some scenarios, the success of core cooling depends on the behaviour of this counter-current flow. Over several decades, a number of experimental and theoretical studies of counter-current gas¿liquid two-phase flow have been carried out to understand the fundamental aspect of the flooding mechanism and to prove practical knowledge for the safety design of nuclear reactors. Starting from the pioneering paper of Wallis (1961), extensive CCFL data have been accumulated from experimental studies dealing with a diverse array of conditions A one-dimensional two field model was developed in order to predict the counter-current steam and liquid flow that results under certain conditions in the cold leg of a PWR when a SBLOCA (small break loss of coolant accident) in the hot leg is produced. The counter-current model that has been developed can predict the pressure, temperature, velocity profiles for both phases, also by taking into account the HPI injection system in the cold leg under a counter-current flow scenario in the cold leg. This computer code predicts this scenario by solving the mass, momentum and energy conservation equations for the liquid and for the steam separately, and linking them by using the interfacial and at the steam wall condensation and heat transfer, and the interfacial friction as the closure relations. The convective terms which appear in the discretization of the mass and energy conservation equations, were evaluated using the ULTIMATE-SOU (second order upwinding) method. For the momentum equation convective terms the ULTIMATE-QUICKEST method was used. The steam-water counter-current developed code has been validated using some experimental data extracted from some previously published articles about the direct condensation phenomenon for stratified two-phase flow and experimental data from the LAOKOON experimental facility at the Technical University of Munich. / Romero Hamers, A. (2014). STUDY OF THE THERMAL STRATIFICATION IN PWR REACTORS AND THE PTS (PRESSURIZED THERMAL SHOCK) PHENOMENON [Tesis doctoral]. Editorial Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/36536 / Alfresco

Thermal stratification

Flooding

Counter-current flow

Co-current-flow

Counter-current flow limitation

Zero penetration point

Pressurized thermal shock

LOCA (loss of coolant accident)

High pressure injection

Direct contact condensation

Interfacial heat transfer

Interfacial condensation

Interfacial friction.

INGENIERIA NUCLEAR

Development of Sensitive In Vitro Assays to Assess the Ocular Toxicity Potential of Chemicals and Ophthalmic Products

McCanna, David

January 2009

The utilization of in vitro tests with a tiered testing strategy for detection of mild ocular irritants can reduce the use of animals for testing, provide mechanistic data on toxic effects, and reduce the uncertainty associated with dose selection for clinical trials. The first section of this thesis describes how in vitro methods can be used to improve the prediction of the toxicity of chemicals and ophthalmic products. The proper utilization of in vitro methods can accurately predict toxic threshold levels and reduce animal use in product development. Sections two, three and four describe the development of new sensitive in vitro methods for predicting ocular toxicity. Maintaining the barrier function of the cornea is critical for the prevention of the penetration of infections microorganisms and irritating chemicals into the eye. Chapter 2 describes the development of a method for assessing the effects of chemicals on tight junctions using a human corneal epithelial and canine kidney epithelial cell line. In Chapter 3 a method that uses a primary organ culture for assessing single instillation and multiple instillation toxic effects is described. The ScanTox system was shown to be an ideal system to monitor the toxic effects over time as multiple readings can be taken of treated bovine lenses using the nondestructive method of assessing for the lens optical quality. Confirmations of toxic effects were made with the utilization of the viability dye alamarBlue. Chapter 4 describes the development of sensitive in vitro assays for detecting ocular toxicity by measuring the effects of chemicals on the mitochondrial integrity of bovine cornea, bovine lens epithelium and corneal epithelial cells, using fluorescent dyes. The goal of this research was to develop an in vitro test battery that can be used to accurately predict the ocular toxicity of new chemicals and ophthalmic formulations. By comparing the toxicity seen in vivo animals and humans with the toxicity response in these new in vitro methods, it was demonstrated that these in vitro methods can be utilized in a tiered testing strategy in the development of new chemicals and ophthalmic formulations.

in vitro

Alternative Methods

alamarBlue

rhodamine

tight junctions

bovine lens

viability

toxicity

mitochondria

mitochondria integrity

benzalkonium chloride

sodium dodecyl sulphate

sodium lauryl sulfate

scanning electron microscopy

Draize

Draize maximal average scores

zonula occludens

cosmetic directive

PETA

humane society

animal league

ICCVAM

ECVAM

JaCVAM

BCOP

bovine cornea

ocular irritants

ocular irritation

ocular toxicity

human corneal epithelial cells

vitro

confocal

confocal microscopy

metabolic activity

optical quality

reactive oxygen species

contact lens

contact lens care solutions

barrier function

microbial keratitis

mulitipurpose solutions

tight junction

cell damage

claudin

ZO-1

occludin

MDCK

Madin

Madin-Darby

canine kidney cells

cornea

human cornea

human corneal epithelium

epithelial cell line

human corneal epithelial cell line

sodium fluorescein

sodium fluorescein permeability

fluorescein permeability

ocular surface

cell monolayer

Araki-Sasaki

cell physiology

risk assessment

safety assessment

ScanTox

scanning laser

lens epithelium

corneal cells

in vitro model

ophthalmic formulations

multiple instillation

back vertex

animal testing

rabbit testing

alternatives to animal testing

cultured bovine lens

toxicity of chemicals

irritation

irritants

laser scanner

organ culture

delayed toxicity

toxins

hydrogen peroxide

cornea toxicity

cornea toxicity models

prediction of human toxicity

no observable adverse effect level

lowest observable adverse effect level

NOAEL

LOAEL

toxicity thresholds

safety factors

cornea

uncertainty factors

preservatives

disinfectants

ophthalmic products

preclinical

preclinical testing

epithelial barrier

drug penetration

clinical confocal microscopy

animal rights

rabbit cornea

human cornea

human clinical effects

toxic

animal rights activist

sensitive measures

toxic effect

toxicity threshold

agar overlay

agar diffusion

agar overlay method

agar diffusion method

cytochrome

cytochrome c

apoptosis

necrotic

apoptotic

necrosis

caspase

rhodamine 123

resazuran

resorufin

cell death

cell viability

metabolic dye

microsomal

microsomal enzymes

cytotoxicity

cytotoxic

cytotoxic effect

MTT

XTT

WST-1

plasma membrane

mitochondrial

mitochondrial morphology

ocular toxicity potential

ocular toxicity

human corneal epithelial

cell line

confocal analysis

corneal epithelium

cell fluorescence

alamarBlue assay

rhodamine dye

animal welfare

toxic injury

degraded mitochondria

epithelial monolayer

disinfectants

membrane integrity

eye toxicity

eye

viability dye

toxicity in humans

human toxicity

effects on the mitochondria

mitochondrial toxicity

in vitro battery

in vitro test battery

ophthalmic eye drop

direct contact

product safety

cytotoxicity potential

molecular

molecular biology

refine reduce replace

sensitivity and relevance

sensitivity

relevance

rabbit ocular irritation test

product development

cytotoxicity models

cytotoxicity alternative methods

replacements for animal testing

three r's

beagle

tiered testing

tiered testing strategy

replacements animal testing

mechanistic toxicity

cornea mitochondria

dose response

threshold

Vision Science and Biology

Development of Sensitive In Vitro Assays to Assess the Ocular Toxicity Potential of Chemicals and Ophthalmic Products

McCanna, David

January 2009

The utilization of in vitro tests with a tiered testing strategy for detection of mild ocular irritants can reduce the use of animals for testing, provide mechanistic data on toxic effects, and reduce the uncertainty associated with dose selection for clinical trials. The first section of this thesis describes how in vitro methods can be used to improve the prediction of the toxicity of chemicals and ophthalmic products. The proper utilization of in vitro methods can accurately predict toxic threshold levels and reduce animal use in product development. Sections two, three and four describe the development of new sensitive in vitro methods for predicting ocular toxicity. Maintaining the barrier function of the cornea is critical for the prevention of the penetration of infections microorganisms and irritating chemicals into the eye. Chapter 2 describes the development of a method for assessing the effects of chemicals on tight junctions using a human corneal epithelial and canine kidney epithelial cell line. In Chapter 3 a method that uses a primary organ culture for assessing single instillation and multiple instillation toxic effects is described. The ScanTox system was shown to be an ideal system to monitor the toxic effects over time as multiple readings can be taken of treated bovine lenses using the nondestructive method of assessing for the lens optical quality. Confirmations of toxic effects were made with the utilization of the viability dye alamarBlue. Chapter 4 describes the development of sensitive in vitro assays for detecting ocular toxicity by measuring the effects of chemicals on the mitochondrial integrity of bovine cornea, bovine lens epithelium and corneal epithelial cells, using fluorescent dyes. The goal of this research was to develop an in vitro test battery that can be used to accurately predict the ocular toxicity of new chemicals and ophthalmic formulations. By comparing the toxicity seen in vivo animals and humans with the toxicity response in these new in vitro methods, it was demonstrated that these in vitro methods can be utilized in a tiered testing strategy in the development of new chemicals and ophthalmic formulations.

in vitro

Alternative Methods

alamarBlue

rhodamine

tight junctions

bovine lens

viability

toxicity

mitochondria

mitochondria integrity

benzalkonium chloride

sodium dodecyl sulphate

sodium lauryl sulfate

scanning electron microscopy

Draize

Draize maximal average scores

zonula occludens

cosmetic directive

PETA

humane society

animal league

ICCVAM

ECVAM

JaCVAM

BCOP

bovine cornea

ocular irritants

ocular irritation

ocular toxicity

human corneal epithelial cells

vitro

confocal

confocal microscopy

metabolic activity

optical quality

reactive oxygen species

contact lens

contact lens care solutions

barrier function

microbial keratitis

mulitipurpose solutions

tight junction

cell damage

claudin

ZO-1

occludin

MDCK

Madin

Madin-Darby

canine kidney cells

cornea

human cornea

human corneal epithelium

epithelial cell line

human corneal epithelial cell line

sodium fluorescein

sodium fluorescein permeability

fluorescein permeability

ocular surface

cell monolayer

Araki-Sasaki

cell physiology

risk assessment

safety assessment

ScanTox

scanning laser

lens epithelium

corneal cells

in vitro model

ophthalmic formulations

multiple instillation

back vertex

animal testing

rabbit testing

alternatives to animal testing

cultured bovine lens

toxicity of chemicals

irritation

irritants

laser scanner

organ culture

delayed toxicity

toxins

hydrogen peroxide

cornea toxicity

cornea toxicity models

prediction of human toxicity

no observable adverse effect level

lowest observable adverse effect level

NOAEL

LOAEL

toxicity thresholds

safety factors

cornea

uncertainty factors

preservatives

disinfectants

ophthalmic products

preclinical

preclinical testing

epithelial barrier

drug penetration

clinical confocal microscopy

animal rights

rabbit cornea

human cornea

human clinical effects

toxic

animal rights activist

sensitive measures

toxic effect

toxicity threshold

agar overlay

agar diffusion

agar overlay method

agar diffusion method

cytochrome

cytochrome c

apoptosis

necrotic

apoptotic

necrosis

caspase

rhodamine 123

resazuran

resorufin

cell death

cell viability

metabolic dye

microsomal

microsomal enzymes

cytotoxicity

cytotoxic

cytotoxic effect

MTT

XTT

WST-1

plasma membrane

mitochondrial

mitochondrial morphology

ocular toxicity potential

ocular toxicity

human corneal epithelial

cell line

confocal analysis

corneal epithelium

cell fluorescence

alamarBlue assay

rhodamine dye

animal welfare

toxic injury

degraded mitochondria

epithelial monolayer

disinfectants

membrane integrity

eye toxicity

eye

viability dye

toxicity in humans

human toxicity

effects on the mitochondria

mitochondrial toxicity

in vitro battery

in vitro test battery

ophthalmic eye drop

direct contact

product safety

cytotoxicity potential

molecular

molecular biology

refine reduce replace

sensitivity and relevance

sensitivity

relevance

rabbit ocular irritation test

product development

cytotoxicity models

cytotoxicity alternative methods

replacements for animal testing

three r's

beagle

tiered testing

tiered testing strategy

replacements animal testing

mechanistic toxicity

cornea mitochondria

dose response

threshold

Vision Science and Biology