Primary Systems and Voter Turnout: Measuring the Institutional Effect of Primary Type on Voter Turnout

Lott, Leslie

15 May 2009

Using the 1990, 1994 and 1998 Congressional mid-term elections, this study looks at whether the type of primary system in a person's state has an effect on whether or not that person will vote in the general election. The five types of primary systems (closed, semi-closed, semiopen, open and blanket) are explained as well as traditional factors for likelihood of voting. It is hypothesized that the more closed the primary system, the less likely a person is to vote. Data analysis shows that when significant, living in an open primary state does significantly increase the likelihood that a person will vote. However, primary type was significant in only six of the nine models studied here.

Primary systems

Closed primary

Semi-closed primary

Semi-open primary

Open primary

Blanket primary

Voter turnout

Oxygen content in semi-closed rebreathing apparatuses for underwater use : Measurements and modeling

Frånberg, Oskar

January 2015

The present series of unmanned hyperbaric tests were conducted in order to investigate the oxygen fraction variability in semi-closed underwater rebreathing apparatuses. The tested rebreathers were RB80 (Halcyon dive systems, High springs, FL, USA), IS-Mix (Interspiro AB, Stockholm, Sweden), CRABE (Aqua Lung, Carros Cedex, France), and Viper+ (Cobham plc, Davenport, IA, USA). The tests were conducted using a catalytically based propene combusting metabolic simulator. The metabolic simulator connected to a breathing simulator, both placed inside a hyperbaric pressure chamber, was first tested to demonstrate its usefulness to simulate human respiration in a hyperbaric situation. Following this the metabolic simulator was shown to be a useful tool in accident investigations as well as to assess the impact of different engineering designs and physiological variables on the oxygen content in the gas delivered to the diver by the rebreathing apparatuses. A multi-compartment model of the oxygen fractions was developed and compared to the previously published single-compartment models. The root mean squared error (RMSE) of the multi-compartment model was smaller than the RMSE for the single-compartment model, showing its usefulness to estimate the impact of different designs and physiological variables on the inspired oxygen fraction. / <p>QC 20150903</p>

Diving

rebreather

underwater breathing apparatus

unmanned testing

hyperbaric

metabolic simulator

scuba

semi-closed

Finite Element Modelling and Parametric Studies of Semi-Closed Thin-Walled Steel Polygonal Columns - Application on Steel Lattice Towers for Wind Turbines

Ryan, Bona

January 2017

The trend of structural engineering in the recent years is toward the use of lighter and moreeconomical structural elements. In steel construction, peculiarly, thin-walled structural elements arebecoming more popular and have a growing importance. Improved techniques in a manufacturing ofthin-walled elements have led to increased competitiveness of such products in the buildingapplications. Some examples of such structural element can be found in everyday life in form ofcolumns, studs, roofing trusses, and light-weight frames. However, the use of slender profiles and acomplex cross sections shape lead to requirements to study instability phenomenon in a form of local,distortional, flexural, torsional and coupled instability. Such complex structural behavior is inevitablyaccompanied by demand to improve calculation methods and design provisions. In this thesis, aninnovative solution of structural element composed of thin-walled plates is proposed for theapplication on lattice support structure of wind turbine.Thin-walled cold-formed profiles are steel products usually made from cold rolled coils and folded inthe second step. In this way, only open profiles can be produced. The predominant problem of theopen cross-section is the excessive torsional effect caused by the non-coincidence between the shearcenter and mass center, and a poor torsional resistance. A better response is possible with closed crosssections, but such profiles could not be produced by the folding. The solution is to make semi-closedsection by assembling them into polygonal profiles with mechanical fasteners, as presented in thisthesis.Objective of this work is to study the proposed structural sections in design situation and toinvestigate possible design models. The expected structural behavior of the column is a mixturebetween the open and closed cross-section. These cases will be investigated through numerical study.In this thesis presented a comprehensive parametric study on the ultimate strength of proposed coldformedsteel columns using the Finite Element package ABAQUS. FE models were first developedfor columns by using automation that was made through MATLAB and Python script. The bucklingand non-linear FE study was done for the investigation of local (L), distortional (D) and global (G)possible buckling failures and ultimate resistance, respectively. Modelling issues such as boundaryconditions, meshing, initial imperfections, material models, and non-linear solution controls in FEAwere also addressed.The parametric study involved series of profiles of built-up polygonal cross-section types with variedthickness (t), number of corners (n), diameter (d), slenderness (slend), yield strength (fy), number ofpoints along corner radii (np), extension lip length (lext), gusset plate thickness (tg), member length (l),and density of fasteners (s/d ratio), loaded in compression and bending moment. The bending momentoccurs as the effect of forces acting on the connection. The purpose of this analysis is to study thecritical load, cross-sectional behavior, influence of the amplitude of initial imperfections on theultimate load, and influence of each parameter used in the analysis through Full Factorial Design.

Lattice tower

Thin-walled element

Semi-closed polygonal section

Finite element analysis

Parametric study

Buckling

Python script

Matlab script

Eurocode 3

Factorial design

Engineering and Technology

Teknik och teknologier

Cooling Capacity Assessment of Semi-closed Greenhouses

Lee, Wee Fong

22 June 2010

No description available.

Agricultural Engineering

Engineering

Decision support tool

CO2 enrichment

Dehumidification

No-vent

Heat storage

Solar radiation heat recovery

Recycle heat

Growing Season Extension

Cooling

Semi-closed, Greenhouse

Aquaculture in Sweden: challenges and opportunities : Perspectives on sustainable aquaculture development

Skyllberg, Josefine

January 2022

The global population is expected to increase and the greatest challenge for the world’s food-producing sector is to secure food and nutrition through sustainable production methods and reduced waste. Aquaculture is the cultivation of aquatic organisms including fish, molluscs, crustaceans and algae, and has a significant role in providing food and employment as the demand for food is increasing. In this study, conventional open-net pen farming was compared to semi-closed aquaculture systems (S-CCS), as well as the possibility of implementing integrated multi-trophic aquaculture (IMTA) in Sweden. Open-net pens are cost-effective and well-proven methods, but due to environmental impacts, the opportunities are limited. Cultivation in S-CCS reduces the environmental impact by strengthening the barrier between the cultivated organism and the surroundings. Implementing IMTA offers the potential for diversification of aquaculture production and economic yield. Sweden has major potential to develop competitive aquaculture through sustainable technological solutions and by diversifying productivity. / Den globala befolkningen förväntas öka och den största utmaningen för världens livsmedelsproducerande sektor är att säkra tillgången på mat och näring genom hållbara produktionsmetoder och minskat avfall. Vattenbruk är odling av vattenlevande organismer inklusive fisk, blötdjur, kräftdjur och alger, och har en betydande roll för att tillhandahålla mat och sysselsättning när efterfrågan på mat ökar. I denna studie jämfördes konventionell kassodling med semi-slutna vattenbrukssystem (S-CCS), samt möjligheten att implementera integrerat multitrofisk vattenbruk (IMTA) i Sverige. Kassodling är kostnadseffektivt och en välbeprövad metod, men på grund av miljöpåverkan är möjligheterna begränsade. Odling i S-CCS minskar miljöpåverkan genom att stärka barriären mellan den odlade organismen och omgivningen. Implementering av IMTA erbjuder potential för diversifiering av vattenbruksproduktionen och ekonomisk avkastning. Sverige har stor potential att utveckla konkurrenskraftigt vattenbruk genom hållbara tekniska lösningar och genom att diversifiera produktiviteten.

Aquaculture

open-net pen farming

semi-closed aquaculture systems

integrated multi-trophic aquaculture

diversification

sustainability

Vattenbruk

kassodling

semi-slutet vattenbrukssystem

integrerat multitrofisk vattenbruk

diversifiering

hållbarhet

Geosciences, Multidisciplinary

Multidisciplinär geovetenskap

Fish and Aquacultural Science

Fisk- och akvakulturforskning