Projected Outcome Objectives – Daybreak. The following outcome objectives will be tracked upon the participant’s exit from the shelter component:
Projected Outcome Objectives – Daybreak Sample Clauses
Related to Projected Outcome Objectives – Daybreak
Learning Objectives 🛠 Understand sociotechnical systems complexities of a construction work system 🛠 Understand different sectors, delivery systems, and cultures 🛠 Understand project and industry supply chain and work system complexities
Project Objectives The Program consists of the projects described in Annex I (each a “Project” and collectively, the “Projects”). The objective of each of the Projects (each a “Project Objective” and collectively, the “Project Objectives”) is to:
Service Objectives D4.1 The Services will:
Goals and Objectives of the Agreement Agreement Goals The goals of this Agreement are to: ● Reduce wildfire risk related to the tree mortality crisis; ● Provide a financial model for funding and scaling proactive forestry management and wildfire remediation; ● Produce renewable bioenergy to spur uptake of tariffs in support of Senate Bill 1122 Bio Market Agreement Tariff (BioMat) for renewable bioenergy projects, and to meet California’s other statutory energy goals; ● Create clean energy jobs throughout the state; ● Reduce energy costs by generating cheap net-metered energy; ● Accelerate the deployment of distributed biomass gasification in California; and ● Mitigate climate change through the avoidance of conventional energy generation and the sequestration of fixed carbon from biomass waste. Ratepayer Benefits:2 This Agreement will result in the ratepayer benefits of greater electricity reliability, lower costs, and increased safety by creating a strong market demand for forestry biomass waste and generating cheap energy. This demand will increase safety by creating an economic driver to support forest thinning, thus reducing the risk of catastrophic wildfire and the associated damage to investor-owned utility (IOU) infrastructure, such as transmission lines and remote substations. Preventing this damage to or destruction of ratepayer-supported infrastructure lowers costs for ratepayers. Additionally, the ability of IOUs to use a higher- capacity Powertainer provides a much larger offset against the yearly billion-dollar vegetation management costs borne by IOUs (and hence by ratepayers). The PT+’s significant increase in waste processing capacity also significantly speeds up and improves the economics of wildfire risk reduction, magnifying the benefits listed above. The PT+ will directly increase PG&E’s grid reliability by reducing peak loading by up to 250 kilowatt (kW), and has the potential to increase grid reliability significantly when deployed at scale. The technology will provide on-demand, non- weather dependent, renewable energy. The uniquely flexible nature of this energy will offer grid managers new tools to enhance grid stability and reliability. The technology can be used to provide local capacity in hard-to-serve areas, while reducing peak demand. Technological Advancement and Breakthroughs:3 This Agreement will lead to technological advancement and breakthroughs to overcome barriers to the achievement of California’s statutory energy goals by substantially reducing the LCOE of distributed gasification, helping drive uptake of the undersubscribed BioMAT program and increasing the potential for mass commercial deployment of distributed biomass gasification technology, particularly through net energy metering. This breakthrough will help California achieve its goal of developing bioenergy markets (Bioenergy Action Plan 2012) and fulfil its ambitious renewable portfolio standard (SB X1-2, 2011-2012; SB350, 2015). The PT+ will also help overcome barriers to achieving California’s greenhouse gas (GHG) emissions reduction (AB 32, 2006) and air quality improvement goals. It reduces greenhouse gas and criteria pollutants over three primary pathways: 1) The PT+’s increased capacity and Combined Heat and Power (CHP) module expand the displacement of emissions from conventional generation; 2) the biochar offtake enables the sequestration of hundreds of tons carbon that would otherwise have been released into the atmosphere; and 3) its increased processing capacity avoids GHG and criteria emissions by reducing the risk of GHG emissions from wildfire and other forms of disposal, such as open pile burning or decomposition. The carbon sequestration potential of the biochar offtake is particularly groundbreaking because very few technologies exist that can essentially sequester atmospheric carbon, which is what the PT+ enables when paired with the natural forest ecosystem––an innovative and groundbreaking bio-energy technology, with carbon capture and storage. Additionally, as noted in the Governor’s Clean Energy Jobs Plan (2011), clean energy jobs are a critical component of 2 California Public Resources Code, Section 25711.5(a) requires projects funded by the Electric Program Investment Charge (EPIC) to result in ratepayer benefits. The California Public Utilities Commission, which established the EPIC in 2011, defines ratepayer benefits as greater reliability, lower costs, and increased safety (See CPUC “Phase 2” Decision 00-00-000 at page 19, May 24, 2012, xxxx://xxxx.xxxx.xx.xxx/PublishedDocs/WORD_PDF/FINAL_DECISION/167664.PDF). 3 California Public Resources Code, Section 25711.5(a) also requires EPIC-funded projects to lead to technological advancement and breakthroughs to overcome barriers that prevent the achievement of the state’s statutory and energy goals. California’s energy goals. When deployed at scale, the PT+ will result in the creation of thousands of jobs across multiple sectors, including manufacturing, feedstock supply chain (harvesting, processing, and transportation), equipment operation, construction, and project development. Additional Co-benefits: ● Annual electricity and thermal savings; ● Expansion of forestry waste markets; ● Expansion/development of an agricultural biochar market; ● Peak load reduction; ● Flexible generation; ● Energy cost reductions; ● Reduced wildfire risk; ● Local air quality benefits; ● Water use reductions (through energy savings); and ● Watershed benefits.
Project/Milestones Taxpayer is a multinational defense contractor specializing in the development and manufacture of intelligence, surveillance, and reconnaissance and detection systems. Taxpayer has certified in its application that absent award of the CCTC, its project may occur in another state; and, it may terminate all or a portion of its employees in California or relocate all or a portion of its employees in California to another state. In consideration for the Credit, Taxpayer agrees to hire full-time employees and invest in manufacturing and computer equipment, furniture and fixtures, and tenant improvements as part of its expansion in Anaheim, California (collectively, the “Project”). Further, Taxpayer agrees to satisfy the milestones as described in Exhibit A (“Milestones”) and must maintain Milestones for a minimum of three (3) taxable years thereafter. In the event Taxpayer employs more than the number of full-time employees, determined on an annual full-time equivalent basis, than required in Exhibit A, for purposes of satisfying the “Minimum Annual Wage of California Full-time Employees Hired” and the “Cumulative Average Annual Wage of California Full-time Employees Hired,” Taxpayer may use the wages of any of the full-time employees hired within the required time period. For purposes of calculating the “Minimum Annual Wage of California Full-time Employees Hired” and the “Cumulative Average Annual Wage of California Full-time Employees Hired,” the wage of any full-time employee that is not employed by Taxpayer for the entire taxable year shall be annualized. In addition, the wage of any full-time employee hired to fill a vacated position in which a full-time employee was employed during Taxpayer’s Base Year shall be disregarded.
