This document provides an example request for proposal (RFP) for the Stanford Linear Accelerator Center (SLAC) National Accelerator Laboratory Science and User Support Building. The RFP has been annotated by the National Renewable Energy Lab (NREL) to demonstrate the project’s steps that follow NREL and DOE’s Energy-Performance-Based Acquisition process.
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This document provides an example request for proposal (RFP) created by the U.S. Army Corps of Engineers, Omaha District in June 2012 for Fort Carson Net Zero Army Barracks. The RFP has been annotated by the National Renewable Energy Lab (NREL) to demonstrate the project’s steps that follow NREL and DOE’s Energy-Performance-Based Acquisition process.
Input basic project information to determine which external financing mechanisms might be well-suited as well as calculate common finance metrics. This calculator is a Microsoft Excel workbook. Find more detail on each external financing mechanism in the External Financing Guide from the Retail Industry Leader's Association (RILA) at: https://www.rila.org/sustainability/RetailEnergyManagementProgram/Pages/...
This guide is intended to help energy managers and finance professionals at retail companies understand how to use external financing for energy projects. An external financing mechanism exists for nearly any company’s project and risk preferences. There is external financing for big and small projects, individual or portfolio-wide. There are financing mechanisms that are very safe but limit reward, and there are some that require more risk but offer greater potential value. Facilities, operations, or sustainability managers who haven’t ever utilized external financing should explore the viability of the mechanisms described in this guide to fund future energy projects.
Other related resources available on the Retail Industry Leaders Association (RILA) website at: https://www.rila.org/sustainability/RetailEnergyManagementProgram/Pages/...
This guide is intended to help energy managers and finance professionals at retail companies understand internal financing approaches that can be used for energy projects. The guide details strategies for embedding environmentally conscious thinking into investment decision-making, establishing funds specifically for energy projects, and collaborating across departments to execute projects of all sizes. The guide was informed by existing research, case studies, and interviews with retail energy managers.
Other related financing resources from the Retail Industry Leaders Association (RILA) available at: https://www.rila.org/sustainability/RetailEnergyManagementProgram/Pages/...
The purpose of this handbook is to furnish guidance for planning and conducting a highperformance building charrette, sometimes called a "greening charrette." The handbook answers typical questions such as, "What is a charrette?", "Why conduct a charrette?", "What topics should we cover?", "Whom should we invite?" and "What happens after the charrette?". Owners, design team leaders, site planners, state energy office staff, and others who believe a charrette will benefit their projects will find the handbook helpful.
This paper illustrates the challenges of integrating rigorous daylight and electric lighting simulation data with whole-building energy models, and defends the need for such integration in order to achieve aggressive energy savings in building designs. Through a case study example, we examine the ways daylighting – and daylighting simulation – drove the design of a large net-zero energy project.
It is still early in the collection and analysis of energy performance data, but it is already clear that high-performance commercial buildings—some "almost net-zero buildings"—can be constructed cost effectively, providing productive environments for occupants, reducing operating costs, and enhancing the competitiveness of commercial properties.
This paper describes how net-zero energy buildings will produce, during a typical year, enough renewable energy to offset the energy they consume from the grid.
This conference paper discusses four well-documented definitions of net-zero energy: net-zero site energy, net-zero source energy, net-zero energy costs, and net-zero energy emissions, along with pluses and minuses of each.