THERMOSYPHON FLOODING IN REDUCED GRAVITY ENVIRONMENTS

Gibson, Marc A.

08 March 2013

No description available.

Aerospace Engineering

thermosyphon

heat pipe

titanium

reduced gravity

heat transfer

flooding

nuclear

parabolic

lunar

Mars

evaporator

condenser

Quantifying the impact of biochar on plant productivity and changes to soil physical and chemical properties on a maize soybean rotation in the U.S.

Hottle, Ryan Darrell

01 October 2013

No description available.

Environmental Science

climate change

food security

soil quality

carbon sequestration

biochar application

black carbon

methane

tropospheric ozone

reduced deforestation,

A Reduced Model of Borehole Thermal Energy Storage Thermal Response

Dudalski, Jacob

January 2023

In Canada 15% of greenhouse gas (GHG) emissions are produced by the residential sector’s energy demand. The majority of the energy demand is space heating which is primarily met with natural gas combustion. Motivation exists to reduce GHG emissions due to their contribution to climate change. Integrated Community Energy Harvesting (ICE-Harvest) systems seek to integrate thermal and electrical energy production, storage, redistribution, and consumption in a way that reduces GHG emissions. Borehole thermal energy storage (BTES) is implemented in ICE-Harvest systems as seasonal thermal energy storage. This thesis presents a novel model of BTES thermal response with reduced complexity to aid in early siting, design, optimization, and control systems development work for ICE-Harvest systems. The reduced model can be used to approximate periodic steady state BTES thermal response. The model provides information on average ground storage volume temperature, outlet fluid temperature, heat exchanger fluid to storage volume heat transfer rate, storage volume top loss heat transfer rate, storage volume side and bottom loss heat transfer rate, and annual thermal energy storage efficiency which aids system modelling efforts for BTES in solar thermal and ICE-Harvest systems. The reduced model is formed from a solution of the thermal energy balance equations for the BTES ground storage volume and heat exchanger fluid with simplified operating conditions for a yearly BTES charging and discharging cycle. Ground storage volume temperature is lumped as a single value. Heat transfer rates between the storage volume and the heat exchanger fluid and the storage volume and its surroundings are modelled with periodic steady state thermal resistance values for the charging and discharging timesteps. A TRNSYS DST simulation of BTES is validated against measurements from a BTES installation and TRNSYS DST is used to generate the periodic steady state thermal resistance values the reduced model requires. The periodic steady state thermal resistance values of BTES charging and discharging are dependent on BTES design parameters (spacing between boreholes, number of boreholes, borehole depth, and storage volume size) and ground thermal properties (thermal capacity and thermal conductivity) which is presented in a series of parameter sweeps with respect to a reference simulation. The reduced model predicts periodic steady state average storage volume temperature with a RMSD of 0.96°C for charging and 1.3°C for discharging when compared to the TRNSYS DST reference simulation. The reduced model predicts the periodic steady state heat exchanger total energy transfer within 1.8% for the charging timestep and 2.8% for the discharging timestep when compared to the TRNSYS DST reference simulation. The reduced model’s periodic steady state thermal resistance values are demonstrated to be independent of heat exchanger fluid inlet temperature except for the side and bottom loss thermal resistance during discharging. The reduced model cannot replicate the change in heat transfer direction that occurs during BTES discharging when the temperature of the storage volume decreases below the temperature of the surrounding ground, however, the magnitude of the energy transfer that would occur is negligible compared to the magnitude of the BTES heat exchanger total energy transfer. / Thesis / Master of Applied Science (MASc)

Reduced

Model

BTES

Borehole thermal energy storage

Thermal response

Storage

Efficiency

Thermal resistance

TRNSYS validation

Borehole heat exchanger

Short and Long-Term Outcomes Associated with Technical Variant Liver Grafts in Pediatric Liver Transplantation: In-Situ versus Ex-Vivo

Delman, Aaron M.

04 October 2021

No description available.

Surgery

Pediatric Liver Transplantation

Technical Variant Grafts

End Stage Liver Disease

Waitlist mortality

In-Situ Split

Ex-Vivo Reduced

Mitigation of Pressure Pulsations in Francis Turbine Draft Tube with a GuideVane System : A Numerical Investigation

Joy, Jesline

January 2021

The use of renewable energy such as water and wind to produce electricity has been proven extremely effective in Sweden. The ability of these renewable resources to produce clean output energy counters the adversities caused by non-renewable resources. The use of hydraulic turbines is a good example of favoured technique for energy and power production using renewable resources. The hydro-turbines are designed to operate at best efficiency point (BEP). Varying energy demands in recent years implies on the need of flexible operation of hydraulic turbines. The issue of pressure pulsations in the draft tube of hydro-turbines, observed at lower operating conditions has been unresolved for many years. These pressure pulsations are related to the ‘rotating vortex rope’ (RVR) observed at part load operation and, affects the lifespan and performance of the hydro-turbine adversely. Several techniques have been investigated in the past to reduce the pressure pulsations in the draft tube at part load operation and enhance the flexibility of the turbine. During the present research study, a passive flow control technique was investigated numerically by implementing a guide vane system in the draft tube of the Francis-99model turbine. Guide vanes are mechanical devices that can direct the flow in a desired direction. The current study presents the possibility of reducing the pressure pulsations in the draft tube by mitigating the RVR using a guide vane system in the draft tube. At the initial stages of the research study, a reduced numerical model of the Francis model turbine was developed by only considering the draft tube domain. The motive was to develop a reduced model to perform the parametric analysis for the guide vane system in the draft tube with reduced computational time, power, and storage. The results obtained from the numerical study were found to be in good agreement with theFrancis-99 semi-model with passage domains. A parametric study was performed to achieve a guide vane system design that could mitigate RVR with minimum losses. During this study, the number of guide vanes, the chord and the span of the guide vanes were investigated. It was found that a set of three guide vane system with chord of 86% of runner radius and leading-edge span of 30% of runner radius is an ideal design that mitigates RVR above 95%.

Computational fluid dynamics

Francis turbine

Part load

Reduced modelling

Rotating vortex rope

Fluid Mechanics and Acoustics

Strömningsmekanik och akustik

Continuous Processing of Agricultural and Plastic Wastes via Chemical Looping and the Integration of Advanced System Design for the Production of Direct Reduced Iron

Falascino, Eric Joseph

January 2022

No description available.

Chemical Engineering

Energy

Engineering

Chemical Looping

Biomass

Waste Processing

Syngas

Direct Reduced Iron

Hydrogen

Energy Conversion

Modularization

A Whegs Robot Featuring a Passively Compliant, Actively Controlled Body Joint

Boxerbaum, Alexander Steele

17 May 2010

No description available.

Mechanical Engineering

Robots

biorobotics

search and rescue robots

reduced actuation

whegs

body joint

worm gear

passive compliance

series elastic actuator

A Study on the Effect of Whey Protein Isolate as an Ingredient-Based Oil ReductionStrategy in Fried Food

Pettit, Katherine L.

11 June 2014

No description available.

Nutrition

Food Science

chicken

fried food, whey protein isolate

whey protein

reduced oil absorption

battered and breaded fried food

oil inhibition

The Effect of Variable Gravity on the Cooling Performance of a 16-Nozzle Spray Array

Elston, Levi J.

26 September 2008

No description available.

Engineering

Experiments

Mechanical Engineering

spray cooling

variable gravity

microgravity

reduced gravity

heat transfer

two-phase

liquid-vapor separator

array

Examining the effects of plant diversity and community composition on reducing conditions in the soil of experimental wetlands

Rice, Constance Elizabeth

03 September 2009

No description available.

Biology

Chemistry

Ecology

Environmental Science

Freshwater Ecology

wetlands

biodiversity

ecosystem function

functional classification

oxidation-reduction

redox electrodes

reduced iron