Två rum och kök : En jämförande studie om medeltida bokultur på Gotlands landsbygd / Two rooms and a kitchem : A comparative study about medieval dwelling culture on the gotlandic countryside

Eriksson, Albin

January 2016

Medieval dwelling houses of a similar type have been documented on Gotland in archaeological investigations. They all have common planning, a rectangular house foundation divided into two rooms and a square-shaped fireplace which is located in one of the corners. In this study the aim is to find out when this type of building was first introduced on Gotland as well as why it was adopted. Another aim is to compare the gotlandic houses with similar buildings from other places in Scandinavia? The method used to answer these questions consists of a comparison between visually similar houses from Gotland and the mainland based on orientation, dimensions, construction and dating. The comparison shows that the majority of the foundations investigated frequently are oriented west east, that the average dimensions are approximately 8 × 6 m and that the houses approximately can be dated between the 12th and 13th century.

dwelling culture

house foundation

medieval

Gotland

smoke oven

hearth

fireplace

two-room solution

morphology

comparison

bokultur

husgrund

medeltid

Gotland

rökugn

härd

eldstad

tvårumslösning

morfologi

jämörelse

Furnace Wall Corrosion in a Wood-fired Boiler

Alipour, Yousef

January 2015

The use of renewable wood-based fuel has been increasing in the last few decades because it is said to be carbon neutral. However, wood-based fuel, and especially used wood (also known as recycled wood or waste wood), is more corrosive than virgin wood (forest fuel), because of higher amounts of chlorine and heavy metals. These elements increase the corrosion problems at the furnace walls where the oxygen level is low. Corrosion mechanisms are usually investigated at the superheaters where the temperature of the material and the oxygen level is higher than at the furnace walls.  Much less work has been performed on furnace wall corrosion in wood or used wood fired boilers, which is the reason for this project.    Tests are also mostly performed under simplified conditions in laboratories, making the results easier to interpret.  In power plants the interpretation is more complicated. Difficulties in the study of corrosion processes are caused by several factors such as deposit composition, flue gas composition, boiler design, and combustion characteristics and so on. Therefore, the laboratory tests should be a complement to the field test ones. This doctoral project involved in-situ testing at the furnace wall of power boilers and may thus contribute to fill the gap. The base material for furnace walls is a low alloy steel, usually 16Mo3, and the tubes may be coated or uncoated. Therefore tests were performed both on 16Mo3 and more highly alloyed materials suitable for protective coatings. Different types of samples exposed in used-wood fired boilers were analysed by different techniques such as LOM (light optical microscopy), XRD (X-ray diffraction), SEM (scanning electron microscopy), EDS (energy dispersive spectroscopy), WDS (wavelength dispersive spectroscopy), FIB (focused ion beam) and GD-OES (glow discharge optical emission spectroscopy). The corrosion rate was measured. The environment was also thermodynamically modelled by TC (Thermo-Calc ®). The results showed that 16Mo3 in the furnace wall region is attacked by HCl, leading to the formation of iron chloride and a simultaneous oxidation of the iron chloride. The iron chloride layer appeared to reach a steady state thickness.   Long term exposures showed that A 625 (nickel chromium alloy) and Kanthal APMT (iron-chromium-aluminium alloy) had the lowest corrosion rate (about 25-30% of the rate for 16Mo3), closely followed by 310S (stainless steel), making these alloys suitable for coating materials. It was found that the different alloys were attacked by different species, although they were exposed in the boiler at the same time in the same place. The dominant corrosion process in the A 625 samples seemed to be by a potassium-lead combination, while lead did not attack the APMT samples. Potassium attacked the alumina layer in the APMT samples, leading to the formation of a low-protective aluminate and chlorine was found to attack the base material.  The results showed that stainless steels are attacked by both mechanisms (Cl- induced attack and K-Pb combination). Decreasing the temperature of the furnace walls of a waste wood fired boiler could decrease the corrosion rate of 16Mo3. However, this low corrosion rate corresponds to a low final steam pressure of the power plant, which in not beneficial for the electrical efficiency. The short term testing results showed that co-firing of sewage sludge with used wood can lead to a reduction in the deposition of K and Cl on the furnace wall during short term testing. This led to corrosion reduction of furnace wall materials and coatings. The alkali chlorides could react with the aluminosilicates in the sludge and be converted to alkali silicates. The chromia layer in A 625 and alumina in APMT were maintained with the addition of sludge. / Förnybara träbaserade bränslen har ökat i användning under de senaste decennierna, eftersom det är koldioxidneutrala. Emellertid är träbaserade bränslen, och i synnerhet använt trä (även känt som återvunnet trä, returträ eller träavfall), mer korrosivt än skogsbränsle, på grund av högre halter klor och tungmetaller. Dessa ökar korrosionsproblemen på eldstadsväggarna, särskilt på platser där syrehalten är låg. Korrosionsmekanismer undersöks vanligtvis på överhettare dvs. på områden där materialets temperatur och syrenivån är högre än vid eldstadsväggarna. Färre arbeten har utförts på eldstadskorrosion i returträ pannor, vilket är motiveringen till detta projekt. Normalt sätt så görs endast i laboratorietester där resultaten är lättare att tolka. I kraftverk är tolkningen mer komplicerad. Undersökningar av korrosionsprocesser försvåras av flera faktorer såsom panndesign, förbränningsegenskaper, rökgassammansättning, beläggningskemi och så vidare. Därför bör laboratorietester kompletteras med fältförsök. Detta doktorandprojekt kan således bidra till att fylla denna brist. Eldstadsväggarna är uppbyggda av flera rör som svetsas samman och de består vanligtvis av 16Mo3 stål. Rören kan vara belagda eller obelagda. Tester har därför genomförts på 16Mo3 samt på höglegerade material vilka är lämpliga som skyddande beläggningar. Olika typer av prov som exponerats i förbränningspannor av returträ analyserades med olika tekniker såsom SEM (svepelektronmikroskopi), EDS (energidispersiv spektroskopi), WDS (våglängd dispersiv spektroskopi), FIB (fokuserad jonstråle) LOM (ljusoptisk mikroskopi), XRD (röntgendiffraktion), och GD-OES (glimurladdning med optisk emissionsspektroskopi). Miljön samt korrosionsprocesser har modellerats termodynamiskt med mjukvaran TC (Termo-Calc®). Resultaten visade att 16Mo3 i eldstadsväggen angrips av väteklorid, vilket leder till bildning av järnklorid och en samtidig oxidation av järnkloriden. Järnkloridskiktet verkade nå ett stationärt tillstånd vad avser tjocklek. Sex veckors prov visade att A 625 (nickelkromlegering) och Kanthal APMT (järnkromaluminiumlegering) hade den lägsta korrosionshastigheten (ca 25-30% av korrosionshastigheten för 16Mo3), följt av 310S (rostfritt stål). Vi har funnit att de olika legeringarna angrips genom olika mekanismer, även om de var exponerade i pannan samtidigt på samma plats. Den dominerande korrosionsmekanismen för legeringen A 625 verkar i huvudsak bero på kalium och bly, medan bly inte attackerar Kanthal APMT. Kalium angriper aluminiumoxidskiktet på Kanthal APMT, vilket leder till bildning av icke-skyddande aluminat medan klor i sin tur attackerar basmaterialet. Resultaten visar att rostfritt stål attackeras genom klor-inducerad korrosion samt kalium och bly i kombination. Reducering av temperaturen kan minska korrosionshastigheten hos 16Mo3. Men denna lägre korrosionshastighet motsvarar ett lågt slutligt ångtryck hos kraftverket, vilket inte är fördelaktigt för elverkningsgraden. De kortare exponeringarna visade att samtidig förbränning av avloppsslam med returträ kan leda till minskad avsättning av kalium och klor i form av alkaliklorider på eldstadsväggarna. Detta ledde till korrosionsminskning av alla studerade material. Dessa alkaliklorider skulle kunna reagera med aluminiumsilikaterna från slammet och omvandlas till alkalisilikater. Detta verkar minska den alkali-inducerade korrosionen på A 625, APMT och 310S. Den aluminiumoxid som bildades på APMT och det kromoxidskikt som bildades på A 625 upprätthölls med tillsats av slam. / <p>QC 20151015</p>

High Temperature Corrosion

Used-wood Fired Boilers

Furnace Wall Corrosion

Cl-induced Corrosion

16Mo3

Nickel-based Alloys

FeCrAl Alloys

Fuel Additive

Sewage Sludge

>Thermodynamics Modelling

Högtemperaturkorrosion

Returträ Förbränningspannor

Eldstad Korrosion

klor-inducerad korrosion

16Mo3

Nickelbaslegeringar

FeCrAl-legeringar

Bränsletillsatser

Avloppsslam

Termodynamik Modellering

GIANT voice : An alternative destiny for city glitches

Tang, Yuqing

January 2024

My degree project aims to find an alternative destiny to the city glitches- the forgotten industrial buildings which are constantly being torn down. All the memories, the urban creatures that nest inside them, are considered disposable in city planning. The aim of this project is not to stop urban development but to create spaces where this endless force magically stops, a bubble of “utopia”, where the urban beings take their own time to flourish, undisturbed. I focus my project on the abandoned factory house Nitrolackfabriken in the southern part of Stockholm, a building threatened with demolition. I went through three stages in the design process: first background research, second a design proposal about turning the building into a functional culture house, and lastly landed on a design intervention where I gave up the previous culture house proposal, refused it on behave of the building itself, and gave the house back to what is already inside. I created three design interventions in this new part of the project: the garden, the pond, and the fire room. I see the building and all the small beings nesting inside as part of an intertwining relationship, a living being, a “GIANT.” I abstracted her into a human-like shape, wishing to create an emotional resonance between the GIANT and us. To remind us that we are all part of this complexity.

Queering architecture

Queering interior architecture

Factory

Urban planning

Ruin

Garden

Alternative

Pigeon

Lövholmen

Nitrolackfabriken

Wild

Grass

Bridge

Bonfire

Pond

Graffiti

Demolition

Space as being

Queera arkitektur

Queera inredningsarkitektur

Fabrik

Stadsplanering

Ruin

Trädgård

Alternativ

Duva

Lövholmen

Nitrolackfabriken

Vild

Gräs

Bro

Eldstad

Damm

Graffiti

Rivning

Rum som varelse

Design

Design

Architecture

Arkitektur