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The Total Building Commissioning Process - Complete Webinar

The Total Building Commissioning Process - Complete Webinar

Course comes with 4 Hours | 4 PDHs | 4 AIA/CES LU/HSW. Course Overview: Commissioning (Cx) and Re- or retro-commissioning (RCx), or the process of ensuring that a new or existing building’s performance continues to meet or exceed its design over time, is increasingly the target of government policy and the beneficiary of market forces. New Federal, State and Local mandates, in conjunction with voluntary, market-based standards, are poised to transform the Cx/RCx marketplace. What began as a tool to ensure that commercial building owners get their money’s worth from design and construction professionals, commissioning is now known to be the most cost-effective measure available for reducing energy use, lowering operating costs and mitigating greenhouse gas emissions in buildings. A recent meta-analysis by Lawrence Berkeley National Laboratory found that Re/Retro-commissioning yields a median 16% energy savings with a payback time of 1.1 years for a cash-on-cash return of 91%. The public sector, in an effort to both promote and secure the environmental, social and economic benefits of energy efficiency, are incorporating Cx/RCx into new policies. Increasingly, Cx/RCx is the direct focus of government policy aimed at boosting energy efficiency in the built environment. Over the past decade, a series of Federal laws, executive orders and other regulations have resulted in requirements for commissioning and retro-commissioning in all Federal buildings. The results of these policies have been to improve Federal energy management, while providing an instance of leadership-by-example that has increased the profile of Cx/RCx elsewhere. As a result, Cx/RCx is now the beneficiary of government or utility financial incentives or even the force of law. Ultimately, Cx/RCx has the potential to save building owners and operators more than $30 billion a year in energy costs by 2030.Continuing to underutilize this cost-effective quality assurance tool could not only be unlawful, but bad business. This course shall describe the Total Building Commissioning Process. Case studies that followed LEED Fundamental and Enhanced Commissioning guidelines for newly built and renovated facilities for the Departments of Defense and Homeland Security shall be presented and analyzed. Perceptions and expectations of the Cx process from the perspective of all stake-holders; owners, designers, contractors, and commissioning specialists shall be presented and discussed. The purpose is to illustrate that there are varying levels of agreement on “What Commissioning Is and Is Not.” Through the use of audience interaction, the instructor will illustrate that LEED Commissioning does not establish the final boundaries and benefits for the overall Total Building Commissioning process. The overall potential energy conservation and utility cost-saving benefits that could be captured go beyond LEED and enhance our country’s ability to achieve the goal of energy independence. Through lecture, written material, class discussion and interactive activities, students will learn the following material: Definitions of Commissioning (Cx) and Retro-Commissioning (RCx) The Cx & RCx Process – Similarities and Differences Objectives & Benefits Requirements & Attributes of a Certified Cx Provider Cx Standards, Regulations & References LEED and Cx Myths, Reality & Managing Expectations (Case Studies) Learning Objectives: Learning Objective 1: At the end of this course, participants will be familiar with the Commissioning and Retro-Commissioning process, applicable codes and standards, and be able to differentiate between the two in terms of similarity and differences. Learning Objective 2: At the end of this course, participants will understand the overall objectives, benefits, and potential results of the Commissioning process and how this relates to improved building operational efficiencies. Learning Objective 3: At the end of this course, participants will be able to distinguish through case study examination the myths from the reality of this process to include examining stakeholder expectations, contract language and issue resolution techniques. Learning Objective 4: At the end of this course, participants will become familiar with sustainability and energy conservation requirements as it relates to commissioning by examination of applicable legislative directives, Unified Facilities Criteria (UFC), Standards and Guidelines, and Building Rating Systems (Such as LEED, Green Globes).

Visited 715 times
NREL - Integrating Measurable Energy Efficiency Performance Specifications Into Design-Build Acquisition and Delivery

NREL - Integrating Measurable Energy Efficiency Performance Specifications Into Design-Build Acquisition and Delivery

Course Title: Integrating Measurable Energy Efficiency Performance Specifications Into Design-Build Acquisition and Delivery Course Presenters: Paul Torcellini & Shanti Pless Course Length: 3 Modules / 2.5 hours Course Credit Hours: 2.5 Hours Course Overview: Through a series of new construction projects at the U.S. Department of Energy’s (DOE) National Renewable Energy Laboratory (NREL) and ongoing collaborations between NREL and industry, it has been shown that highly energy-efficient buildings can be procured within typical construction budgets. Success stories include NREL’s Research Support Facility (RSF), Energy Systems Integration Facility (ESIF), and Parking Structure. An energy efficiency goal was the foundation for each project. A goal, though, is not sufficient for success. An acquisition strategy that incentivizes an innovative design and construction team to meet the energy goal in design and operations is also critical. Using a well-planned process, owners can be confident that their projects will have system-integrated, cost-effective efficiency strategies and renewable technologies that perform as predicted. Specifically, this course investigates why aggressive energy efficiency is a necessary and achievable goal for commercial buildings. It considers goal setting and how the form of an energy goal can influence the result. The course looks at the NREL new construction examples, which used maximum energy use targets and subsystem energy criteria; lessons learned and best practices from these case studies are shared. Lastly, general steps are given to assist owners in designing and facilitating an energy-focused process for their construction projects. Learning Objectives: Define the most important attributes of an acquisition process that will ensure aggressive energy performance Understand how to define whole building and subsystem energy goals Write draft contract language that will help balance cost and energy performance Integrate measurable energy use requirements into the design-build delivery process Attachments: Module 1 Handouts Module 2 Handouts Module 3 Handouts Presenter Bio: Paul Torcellini Presenter Bio: Shanti Pless

Visited 2,212 times
Project Delivery Methodology for Water & Wastewater Infrastructure:  Design-Build and CMAR

Project Delivery Methodology for Water & Wastewater Infrastructure: Design-Build and CMAR

Understanding Design-Build and CMAR Project Delivery Methods provides the fundamental framework associated with alternative project delivery methods for the water and wastewater infrastructure. It is intended to provide knowledge and information about: The potential benefits and advantages, as well as the challenges and disadvantages of each delivery method, Owner planning issues and criteria for use in selecting and implementing alternative project delivery methods, and Critical factors for success in using Design-Build and Construction Management-at-Risk

Visited 2,445 times
Design-Build and Sustainability

Design-Build and Sustainability

Design Build and Sustainability Written by: Suzanne Sowinski, President and Director of Sustainable Design Sowinski Sullivan Architects, PC (SSA) Course Length: 3 Modules / 2 Hours Course Credit Hours: 2 Hours Course Overview: This course assumes that the student has a basic knowledge of the various project delivery methods and preferably has taken the Fundamentals of Project Delivery course offered by DBIA. At the end of this course the attendee will: Know the history of sustainability and affects on the environment See the relationship between sustainable design and design build Review current standards, codes, mandates and incentives for green design See how important BIM is as a tool to integrate design Have reviewed a few design techniques to help reduce carbon emission Beable to see how a whole building mindset is important when using life cycle costing analysis and value engineering early in the design process Know how to put the right team together to avoid contractual risk See how a completed design build project was successful in collaboration and achieving sustainable goals to receive a LEED certification Attachments: Sustainability Module 1 Notes Handout (Slides) Sustainability Module 2 Notes Handout (Slides) Sustainability Module 3 Notes Handout (Slides) Suzanne Sowinksi - Presenter Bio DBIA Position Statements: Use of Stipends Organization of DB Entity Role of Qualification in Selection of a Design-Builder Integrated Project Delivery Best Value Selection Contract Incentives and Design-Build Rethinking Acquisition Strategies Design Excellence

Visited 2,742 times