<div dir="ltr"><h2 style="margin:0px;font-size:25px"><a href="https://www.ibpsa.us/chapter/denver/student-presentations-2021" style="margin:0px;text-decoration-line:none;color:rgb(36,114,102)">Student Presentations 2021</a></h2><div class="gmail-field gmail-field-name-field-image gmail-field-type-image gmail-field-label-hidden" style="margin:0px;color:rgb(0,0,0);font-family:proxima-nova;font-size:14px"><div class="gmail-field-items" style="margin:0px"><div class="gmail-field-item even" style="margin:0px"><img src="https://www.ibpsa.us/sites/default/files/xmines-boulder-logos.png.pagespeed.ic.QBL9kyPQtk.webp" width="870" height="312" alt="" style="margin: 0px; border: 0px;"></div></div></div><div class="gmail-field gmail-field-name-body gmail-field-type-text-with-summary gmail-field-label-hidden" style="margin:0px;color:rgb(0,0,0);font-family:proxima-nova;font-size:14px"><div class="gmail-field-items" style="margin:0px"><div class="gmail-field-item even" style="margin:0px"><p style="margin:10px 2px;line-height:21px">Research into the next generation of simulation tools and techniques is being carried out at universities, but much of this information is not transferred to the practitioners. For this SimClub event, graduate students from the University of Colorado-Boulder and the Colorado School of Mines will give short summaries of their current research projects.</p><p style="margin:10px 2px;line-height:21px">Our seven presenters will each give a 10-minute talk on their work with about 2-minutes of Q&A for each presenter. The presenters and their topics are as follows:</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px"><u style="margin:0px">University of Colorado -- Boulder</u></strong></p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Presenter:</strong> Cary Faulkner</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Degree pursuing: </strong>Ph.D. in Mechanical Engineering from University of Colorado Boulder</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Presentation title: </strong>Investigation of Building Operational Strategies During COVID-19 Pandemic</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Description of presentation:</strong> To operate safely and remain open during the COVID-19 pandemic, buildings must provide the best indoor air quality possible to limit the risk of infection through airborne transmission. This work investigates and compares the strategies of dilution through supplying 100% outdoor air to the building, and filtration using two different HVAC filters. The results are compared in terms of indoor air quality as well as energy consumption.</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">URL: </strong><a href="https://www.colorado.edu/lab/sbs/cary-faulkner" target="_blank" rel="noopener noreferrer" style="margin:0px;text-decoration-line:none;color:rgb(36,114,102)">https://www.colorado.edu/lab/sbs/cary-faulkner</a></p><p style="margin:10px 2px;line-height:21px"> </p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Presenter: </strong>Chengliang (Leo) Fan</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Degree pursuing: </strong>Ph.D. in Heating, Ventilation and Air-conditioning from Guangzhou University</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Presentation title: </strong>Evaluation of Advanced Control Sequences for Chiller Plants with Water-side Economizer</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Description of presentation: </strong>The advanced control sequences are key to achieve the efficient operation of chiller plants with integrated water-side economizers (WSE). This presentation is to implement the three WSE control sequences with Modelica models and evaluate their control performance in terms of temperature dynamic transient and energy consumption.</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">URL: </strong><a href="https://www.colorado.edu/lab/sbs/chengliang-fan" target="_blank" rel="noopener noreferrer" style="margin:0px;text-decoration-line:none;color:rgb(36,114,102)">https://www.colorado.edu/lab/sbs/chengliang-fan</a></p><p style="margin:10px 2px;line-height:21px"> </p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Presenter: </strong>Jing Wang</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Degree pursuing: </strong>Ph.D. in Architectural Engineering from University of Colorado Boulder</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Presentation title: </strong>Optimal Renewable Resource Allocation and Load Scheduling of Resilient Communities</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Description of presentation: </strong>A methodology for enhancing community resilience through optimal renewable resource allocation and load scheduling is proposed. The proposed hierarchical control architecture distributes the computational effort and is easier to be scaled up than traditional centralized control. Each layer of the control is formulated as model predictive control problems.</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">URL: </strong><a href="https://www.colorado.edu/lab/sbs/jing-wang" target="_blank" rel="noopener noreferrer" style="margin:0px;text-decoration-line:none;color:rgb(36,114,102)">https://www.colorado.edu/lab/sbs/jing-wang</a></p><p style="margin:10px 2px;line-height:21px"> </p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Presenter: </strong>Katy Hinkelman</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Degree pursuing: </strong>Ph.D. in Architectural Engineering from University of Colorado Boulder</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Presentation title: </strong>Modeling and Simulation of District Cooling Systems with Modelica</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Description of presentation: </strong>The popular, open-source Modelica Buildings library is expanding its capabilities from building-scale analyses to include district-scale capabilities. We will present our newly developed district cooling models that will be publicly released in the Buildings library. CU Boulder’s district cooling system was modeled and simulated as a case study.</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">URL: </strong><a href="https://www.colorado.edu/lab/sbs/katy-hinkelman" target="_blank" rel="noopener noreferrer" style="margin:0px;text-decoration-line:none;color:rgb(36,114,102)">https://www.colorado.edu/lab/sbs/katy-hinkelman</a></p><p style="margin:10px 2px;line-height:21px"> </p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Presenter: </strong>Yingli Lou</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Degree pursuing: </strong>Ph.D. in Architectural Engineering from University of Colorado Boulder</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Presentation title: </strong>Building Energy Models for Commercial Buildings Based on CBECS Data</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Description of presentation: </strong>I will introduce the method to create building energy models based on CBECS Data. The Medium Office building will be used as an example to illustrate the method.</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">URL: </strong><a href="https://www.colorado.edu/lab/sbs/yingli-lou" target="_blank" rel="noopener noreferrer" style="margin:0px;text-decoration-line:none;color:rgb(36,114,102)">https://www.colorado.edu/lab/sbs/yingli-lou</a></p><p style="margin:10px 2px;line-height:21px"> </p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px"><u style="margin:0px">Colorado School of Mines</u></strong></p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Presenter</strong>: Karl Heine</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Degree pursuing</strong>: Ph.D. in Mechanical Engineering from Colorado School of Mines</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Presentation title</strong>: Optimizing Cool Thermal Energy Storage as a Distributed Energy Resource</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Description of presentation</strong>: A simulation-optimization workflow that integrates open-source building energy simulation tools and mixed-integer linear programming is presented to optimize ice thermal energy storage in the connected community context. Results for packaged ice storage optimization in a seven-building case study are presented. Ongoing work simulating and optimizing multiple chilled water loops at the Mines campus will also be shown.</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">URL</strong>: <a href="http://amber.mines.edu/team/heine-karl">amber.mines.edu/team/heine-karl</a></p><p style="margin:10px 2px;line-height:21px"> </p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Presenter:</strong> Mohammadhasan Fathollahzadeh</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Degree pursuing:</strong> Ph.D. in Mechanical Engineering from Colorado School of Mines</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Presentation title</strong>: <span style="margin:0px;color:rgb(34,34,34);font-family:arial,helvetica,sans-serif;font-size:small">Holistic optimization approach for electric central chiller plants in connected communities</span></p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Description of presentation: </strong>A holistic, model-based approach for electric power demand minimization of central chiller plants in connected communities considering explicit performance models of all deployed components -- including chillers, cooling towers, and pumps will be discussed in this presentation. As a proof-of-concept demonstration, this study uses a specific branch of connected communities, academic and/or research campuses. Specifically, the Colorado School of Mines’ main chilled water plant validates the proposed models and methodologies.</p><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">URL:</strong> <a href="http://amber.mines.edu/project/fathollahzadeh-mohammad-hassan/">amber.mines.edu/project/fathollahzadeh-mohammad-hassan/</a></p><hr style="margin:0px;border-style:solid;border-color:gray;height:1px"><p style="margin:10px 2px;line-height:21px"><strong style="margin:0px">Thursday, May 20, 6 – 8 PM</strong></p><p style="margin:10px 2px;line-height:21px">(6-6:30 network, 6:30-8:00 presentations)</p><p style="margin:10px 2px;line-height:21px">No charge for remote attendance of IBPSA-USA members. $5 charge for remote attendance of others.</p><p style="margin:10px 2px;line-height:21px">Please register using <a href="https://www.eventbrite.com/e/ibpsa-usa-denver-chapter-student-presentations-2021-tickets-152899886677" rel="noopener noreferrer" target="_blank" style="margin:0px;text-decoration-line:none;color:rgb(36,114,102)">Eventbrite</a> to receive webinar details.</p></div></div></div><div><br></div>-- <br><div dir="ltr" class="gmail_signature" data-smartmail="gmail_signature"><div dir="ltr"><div><div dir="ltr"><div><div dir="ltr"><div><div dir="ltr"><div><div dir="ltr"><div style="color:rgb(136,136,136)"><font size="4">Aaron Boranian</font></div><div style="color:rgb(136,136,136)"><a value="+18284822088" style="color:rgb(17,85,204)">808 895-1741</a></div><div style="color:rgb(136,136,136)"><div><img src="http://bigladdersoftware.com/images/logo_med.png" width="96" height="37"><br></div><div style="text-align:center"></div><div>Big Ladder Software LLC</div><div>1624 Market Street, Suite 304</div><div>Denver, CO 80202</div><div><a href="http://www.bigladdersoftware.com/" style="color:rgb(17,85,204)" target="_blank">http://bigladdersoftware.com</a></div><div><a href="https://www.youracclaim.com/badges/98aef5bd-84c7-474a-a314-04303695b956/public_url" target="_blank"><img src="https://docs.google.com/uc?export=download&id=12sFXNOSJS0jiSoTiEkyPBx6zAIO4bptR&revid=0B_SyIwm6jC9MamJMVVlENXJUaHFoV09LWThhNUpGMDhIV0pVPQ" alt="https://www.youracclaim.com/badges/98aef5bd-84c7-474a-a314-04303695b956/public_url" width="96" height="96"></a><br></div></div></div></div></div></div></div></div></div></div></div></div></div>