Year: 2020, 2020
Member of: Trent University Graduate Thesis Collection
Name(s): Creator (cre): Poo Palam, Kosheela, Thesis advisor (ths): NARINE, SURESH S, Degree committee member (dgc): Vreugdenhil, Andrew, Degree committee member (dgc): Hill, Stephen, Degree committee member (dgc): Metcalfe, Chris, Degree granting institution (dgg): Trent University Abstract: <p>Energy storage efficiency and sustainability require advanced technologies and novel materials. Recently, bio-based phase change materials (PCMs) have received significant attention for thermal energy storage (TES) uses. Vegetable oils are versatile renewable feedstocks that are well suited for the development of sustainable, functional PCMs. PCMs derived from vegetable oil, which… more Year: 2016, 2016
Member of: Trent University Graduate Thesis Collection
Name(s): Creator (cre): Shetranjiwalla, Shegufta, Thesis advisor (ths): NARINE, SURESH S, Thesis advisor (ths): Vreugdenhil, Andrew, Degree committee member (dgc): Metcalfe, Chris, Degree committee member (dgc): Dawson, Peter, Degree granting institution (dgg): Trent University Abstract: <p>Thermoplastic poly(ester urethane)s (TPEU)s derived from vegetable oils possess inferior physical properties compared to their entirely petroleum-based counterparts due to the structural limitations and lower reactivity of the precursor lipid-derived monomers. The present work shows that high molecular weight of TPEUs with enhanced performance can be obtained from lipid-derived monomers… more Year: 2016, 2016
Member of: Trent University Graduate Thesis Collection
Abstract: <p>The present thesis explores the cold flow properties of biodiesel and the effect of vegetable oil derived compounds on the crystallization path as well as the mechanisms at play at different stages and length scales. Model systems including triacylglycerol (TAG) oils and their derivatives, and a polymer were tested with biodiesel. The goal was to acquire the fundamental knowledge that… more Year: 2016, 2016
Member of: Trent University Graduate Thesis Collection
Abstract: <p>This thesis explores the use of 1-butene cross metathesized palm oil (PMTAG) as a feedstock for preparation of polyols which can be used to prepare rigid and flexible polyurethane foams. PMTAG is advantageous over its precursor feedstock, palm oil, for synthesizing polyols, especially for the preparation of rigid foams, because of the reduction of dangling chain effects associated with… more Year: 2016, 2016
Member of: Trent University Graduate Thesis Collection
Abstract: <p>Structure-property relationships are increasingly valued for the identification of specifically engineered materials with properties optimized for targeted application(s). In this work, linear and branched diesters for use in lubricant formulations are prepared from lipid-based oleochemicals and their structure-property relationships reported. It is shown that the branched diesters… more Year: 2015, 2015
Member of: Trent University Graduate Thesis Collection
Abstract: <p>Vegetable oils represent an ideal and renewable feedstock for the synthesis of a variety of functional materials. However, without financial incentive or unique applications motivating a switch, commercial products continue to be manufactured from petrochemical resources. Two different families of high value, functional materials synthesized from vegetable oils were studied. These… more Year: 2015, 2015
Member of: Trent University Graduate Thesis Collection
Abstract: <p>There is an increasing global need for grid scale electrical energy storage to handle the implementation of intermittent renewable energy sources. Adiabatic compressed air energy storage is an emerging technology with similar performance to pumped hydro except it has the issue of heat loss during the compression stage. Previously, it has been considered to use sensible heat storage… more Year: 2014, 2014
Member of: Trent University Graduate Thesis Collection
Name(s): Creator (cre): Morrison, Emily Marie, Thesis advisor (ths): Zohar, Asaf, Thesis advisor (ths): NARINE, SURESH S, Degree committee member (dgc): Phillips, Thomas F, Degree committee member (dgc): Mitchell, Andy, Degree granting institution (dgg): Trent University Abstract: <p>Biomaterial technology and utilizing bioproducts can contribute to Canada's economic growth while moving towards sustainable development. Canadian bioproducts are commonly developed within universities but Canada's record of transferring university technology to market has been less than optimal. In an attempt to offer new ideas for improvement, qualitative data analysis from… more
