2023 Lecture Topics

Each year the IDL presents a handful of topics to professional Architecture & Engineering firms. These topics cover a wide range of design and building applications such as energy modeling and daylighting. Topics are focused on helping a firm integrate energy efficiency practices into their projects and design process. Each presentation is about an hour with lunch provided. All in attendance will receive 1 AIA CEU as well as a certificate to verify attendance. The classes marked with (HSW) qualify for Health, Safety and Welfare credit. For a complete list of topics offered for lunch and learn visit idlboise.com If you are interested in scheduling one or two sessions for us to present at your firm you can fill out the form linked above or you may contact Dylan Agnes or Lyndsay Watkins. Thank you and we look forward to hearing from you.

Ultra Violet Germicidal Irradiation | HSW

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Description:

With the arrival of COVID, there has been a surge of interest in Ultra Violet Germicidal Irradiation. During our research, the IDL found that UV systems can actually save on operational costs by reducing fan energy. Attendees will learn about the different UV technologies available, the strength needed to kill pathogens in air streams, and how to minimize the energy used to run these systems. This lecture will draw from leading researchers such as William Bahnfleth, who chaired ASHRAE’s Epidemic Task Force. By installing UVGI systems in front of cooling coils, these can help prevent microbial growth and ensure better airflow throughout the building. With building occupants increasingly mindful of airborne contaminates, it’s important for architects and engineers to be aware of these systems and how they can be integrated into a building.

HSW Justification: We have know how to design building to minimize the spread or growth of bacteria and diseases, however, we have not figured out how to do with energy efficiency in mind. This topic addresses that long standing issue that was brought to the forefront because of the Covid-19 pandemic. Being able design mechanical and natural ventilation in an energy efficient while minimizing illness is direct benefit for the health safety and wellness of building occupants and should not be limited to hospitals or medical facilities.

Thermal Energy Storage Systems

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Description:

Thermal Energy Storage Systems (TES) are gaining popularity as a way to mitigate peak energy use. This lecture will explore the use of things like ice-storage and ponds to minimize chiller and boiler use. This technology can be paired with ground-source heat pumps, radiant systems, and natural ventilation. Idaho typically has large temperature swings between the high and low temperatures (sometimes up to 30 F), which makes our state especially suited to shifting when heating and cooling equipment should operate. By understanding more about TES, engineers and architects alike can design unique configurations that can increase efficiency and enhance resiliency in their buildings.

LEDs Technology Impact on Savings and Efficiency

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Description:

We will examine the effect LED technology has had on energy savings, control strategies, and future implications with continued efficient lighting technology. As lighting technology becomes more efficient it will adjust codes, incentives from utilities, and energy efficiency standards. More importantly, it will change the cost benefit analysis regarding lighting, control strategies, and occupant comfort. The LED revolution for lighting is not done and, in this lecture, we will discuss the current state of LEDs as well as the direction we are going and what we might find when we arrive.

LEED V4.1 Daylighting Credits | HSW

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Description:

LEED Daylighting credits are one of the most difficult to achieve and requires an early investment for validation. However, investigating daylight opportunities for a project will assist in other aspects of energy efficiency, such as, estimating heating and cooling loads or integrating a building’s control systems. As such, any time spent in the early design phase investigating if a project should invest in daylighting is applicable to facets of energy efficient design that is often required for LEED projects. In this lecture we will discuss the changes from LEED V4 to V4.1 Daylighting Credits, which options work best for project types, incorporating early energy/simulation modeling into the design process, and how to run a cost-benefit analysis to determine if you should invest in daylighting.

ASHRAE Standard 209 - Energy Simulation-Aided Design

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Description:

Learn about ASHRAE’s recommendations for energy simulation aided design. This lecture will cover methods of integrating modeling into the design process to meet aggressive energy savings targets. Learn how to implement load-reducing modeling cycles early in the design process. Quantify the energy impact of design decisions in real time. And, use post-occupancy modeling to enhance building performance. Whether trying to achieve LEED, tax credits, or efficiency incentives, energy modeling can help improve the bottom line for both designers and clients.

High Performance Classrooms | HSW

Description:

Student enrollment in Ada County is projected to grow by 1,000 students per year for the next ten years and at least six capital projects are planned in the West Ada District alone to meet this demand. This session will cover a variety of issues facing the design of an efficient, healthy, and productive classroom environment. A quick look at the state of the last 50 years of school design will give an introduction to the problems faced by designers. This session will highlight several case studies of high performance schools in the Northwest to address daylighting, natural ventilation, and integration of mechanical systems. Each passive strategy will be addressed in detail with regional examples and performance research.

HSW Justification: Participants will learn what makes a classroom "good" through exploring four qualities of the indoor environment (Temperature, Air Quality, Light, and Noise) and how they affect a student performance.

Daylighting Multipliers - Increasing Daylight Harvesting Efficiency | HSW

Description:

This session will explore the role that daylighting multipliers are used when trying to increase the efficiency of daylighting or daylight harvesting in a building, such as, light shelves, manufactured glazing, and material specification. Furthermore, we will explore the rate of return, the ranges of efficiency, and appropriate uses between daylighting strategies and multipliers.

HSW Justification: Daylighting is an important renewable resource that buildings can utilize to reduce a lighting systems kWh as well as improving building occupants mental health. For this lecture we divide the benefits of daylight into two categories; Energy benefits and Non-Energy Benefits. We emphasize that non energy benefits can be coupled with energy benefits to help convince clients to utilize daylighting as resource for their buildings. Such as, improving mental well being through connecting to nature by having a view and daylight window while simultaneously reducing energy use through the year.

OpenStudio - Parametric Analysis Tool

Description:

This session will cover the parametric analysis tool (PAT) within OpenStudio. PAT removes the need to hand edit each model to try out different architectural design, energy efficiency measures, or mechanical systems. Participants will learn the fundamental concepts of measure writing for OpenStudio, simulation parameters, running a simulation with PAT, and how firms can utilize this feature to inform early design decisions in regards to building performance.

Luminaire Level Lighting Controls | HSW

Description:

LLLCs have sensors and controls within individual fixtures that enable them to be controlled remotely or on a case-by-case basis. Remote control allows users to adjust the programming criteria or illumination levels without replacing the fixtures. In conventional lighting systems, lighting zones are defined as a collective unit and thus are centrally controlled. LLLCs however, incorporate sensors into each fixture, such as occupancy, daylight, temperature or receive/broadcast signals. Each fixture has the potential to become a semi-autonomous zone that is capable of responding to small changes in the area under each fixture. Furthermore, individual fixtures can communicate with other fixtures, using wireless or infrared signals, to share data for an even greater potential to increase energy savings and user satisfaction. Some LLLCs can be connected by gateway to transfer information collected. This data is analyzed, usually through the manufacturer’s software, to provide a user interface different from a typical text editor. From there users are able to identify trends in occupancy and lighting energy consumption that can then be used to refine the building schedules for occupancy and lighting and, if applicable, for the buildings’ HVAC schedule programming.

Future of Lighting Controls | HSW

Description:

Although LEDs have shown, they are a big game changer in the commercial lighting realm; lower lighting power density is not the only area of value when considering lighting. We can further increase savings from these highly efficient lighting systems by introducing control systems that collect data and user input to create an evolving feedback loop that seeks peak system operation. While LLLC’s (Luminaire Level Lighting Control) use this feature, they still use the same infrastructure as the lighting and control system that have come before it, which can be a limitation for expanding the systems efficiency and integration to other building systems. We believe the internet of things (IoT) will change the lighting and controls industry, providing an excellent medium for an integrated, multi-service IoT platform. Why? Where there are people, there are lights; where there are people, there will also be the need for connectivity. New and connected lighting controls provide a means to deliver valuable IoT services and increased energy savings.

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