On-Demand Course: How to Design and Construct Concrete and Masonry to Comply with New Energy Codes

Notes/Preview

The contents of this course include three recorded presentations from the ACI 2017 Spring Convention:

• Introduction to ACI 122R-14- Guide to Thermal Properties of Concrete and Masonry Systems by Jeffrey F. Speck, Trinity Lightweight

• Complying with the Energy Codes by Nicholas R. Lang, National Concrete Masonry Association

• New Standards Needed for Alternative Energy Code Compliance by Stephen Szoke, American Concrete Institute

INSTRUCTIONS: Study the materials included in this module. Then, complete and pass the corresponding 10-question quiz with a score of 80% or higher to receive a certificate for 0.1 CEU (equivalent to 1.0 PDH). This online course is not approved for credit with the Florida Construction Industry Licensing Board (CILB).

Continuing Education Credit: 0.1 CEU (1.0 PDH)

Approved by AIA (LU/HSW) and ICC

Access Period: 30 days

Description

This course will address and clarify the requirements of the new energy conserving building codes and explain a clear path to compliance using the ACI 122R-14 guide as a reference. Descriptions of methods of optimizing energy performance integrating structural design and design for energy efficiency. This course will explain why energy code compliance and optimization of energy performance are key aspects of sustainable concrete and masonry building construction.

Document Details

Author: Speck, Lang, Szoke

Publication Year: 2018

ISBN:

Categories: Codes, Design, Masonry, Sustainability

Formats: Online Learning

Table of Contents

Learning Objectives

1. Describe important thermal characteristics of concrete and masonry walls using the updated ACI 122R-14 Guide to Thermal Properties of Concrete and Masonry Systems, including: equations to calculate thermal conductivity, methods to calculate thermal resistance, factors affecting thermal inertia, and methods to control condensation.

2. Explain the options in building codes, including the International Energy Conservation Code (IECC), in adopting and complying with thermal energy code compliances for concrete and masonry building wall and floor system designs.

3. Describe the thermal conductivity properties from studies of different cementitious concrete building materials including: normal weight portland cement (NWPC); ultra-high-strength portland cement concrete (UHPC); and ultra-lightweight cementitious composite (ULCC)

4. Identify, compare, and contrast thermal energy efficiencies of alternative building framing system designs – concrete frame, combined concrete and steel frame, and wood frame buildings.

ERRATA INFO

Any applicable errata are included with individual documents at the time of purchase. Errata are not included for collections or sets of documents such as the ACI Collection. For a listing of and access to all product errata, visit the Errata page.

Return/Exchange Policy

Printed / Hard Copy Products: The full and complete returned product will be accepted if returned within 60 days of receipt and in salable condition. A 20% service charge applies. Return shipping fees are the customer’s responsibility.

Electronic /Downloaded Products & Online Learning Courses: These items are not eligible for return.

Subscriptions These items are not eligible for return.

Exchanges: Contact ACI’s Customer Services Department for options (+1.248.848.3800 – ACICustomerService@concrete.org).

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