To create and lead courses and workshops in pretotyping. In addition to working directly with many Fortune 500Ĭompanies and fast-growing startups, he is also collaborating with Stanford University’s Graduate School of Business and continues to work with Google Theory and practice of pretotype-driven innovation which he developed while he was at Google. Google’s multi-billion-dollar AdWords product.Ĭurrently, Savoia is the co-founder of PretotypeLabs which he started in 2012 to help disseminate the His prior responsibilities at Google included leading the development and launch of He was the most requested speaker on the topic of Innovation. Most recently he was Innovation Agitator at Google where His area of focus andĮxpertise is in helping already successful and established companies innovate like startups. That informs and coaches to change end user behaviors.Īlberto Savoia is a leading expert, coach, author and speaker on the topic of high-yield innovation through experimentation. Rath’s passions is combining and interconnecting building control technologies to deliver on the promise of truly smart buildings promoting efficiency persistence through innovative fault diagnostics Web based Toolkit/ resource development, evaluation of energy ROI projects and business cases, vetting energy technologies, development of central plant diagnostic tools, creation of real time BAS fault
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Our all standard are Electronic version in pdf,After you paid,you can download the standard in pdf.The standard no limit,can print,can share,can open in any computer! Featured Products: ASME B31.Douglas Rath is an in house energy consultant at Marriott International supporting conservation and all means of demand side reduction technologies, programs and practice for the 800+ Marriott managed hotels in Americas Continent.Īfter 29 years in the lodging facilities discipline, Rath is now focused on Marriott’s progress against its “20 x 20” use reduction goal by targeting scalable energy reduction strategies, property staffĬonservation behavior guidelines, hotel energy and operational audits, specialized HVAC training, building automation standardization and expansion, orchestration of national scale Demand Response programs, This paper details the models used in the design process and how they informed important program and design decisions on the path from preliminary design to the completed building.Ĭitation: ASHRAE Transactions, Volume 117, Part 1, Las Vegas, NV Results from these specialized models were either fed back into the main whole building simulation tool or used to post-process model output to provide the most accurate possible annual simulations. Other models were used as needed to provide more detail or to complement the whole building simulation tool as required by the delivery schedule, including tools to calculate: thermal bridging, daylighting, natural ventilation, data center energy consumption, transpired solar collectors, thermal storage in the building's crawlspace, and electricity generation by photovoltaic panels. The main tool was a whole building energy simulation program. Computer modeling played a key role in diagnosing the energy impact of building program and design decisions throughout the design process and in verifying that the contractual energy goals would be met within the specified budget.
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The energy model was required to be repeatedly updated during the delivery process to match design documents as well as the final building as it was built to the greatest degree practical. These energy goals and their substantiation through simulation were explicitly included in the project's fixed firm price design-build contract. The Research Support Facilities (RSF) building at the National Renewable Energy Laboratory is a 220,000 square foot office building designed to hold 822 occupants, to use 35.1 kBTU/sf/yr, to use half the energy of an equivalent minimally codecompliant building, and to produce as much renewable energy as it consumes on an annual basis.