PROJECT ENGINEERING DESIGN Sample Clauses

PROJECT ENGINEERING DESIGN. The goal of this task is to design the anaerobic digester system and plan the equipment building layout. • Confirm feedstock volume and digester sizing. • Confirm digester and equipment building placement. • Perform soil testing at digester location. • Design digester vessel and heating and mixing system based on sizing and soil requirements. • Design structure to house equipment and electrical requirements. • Provide a Project Design Memo that shall include, but not be limited to: • Summary of the steps taken to reach the final design and final layout; • Identification of barriers involved and discuss steps needed to overcome those barriers; • Discussion of the final engineer design and equipment layout for each site. • Soils report • Digester plans • Project Design Memo (draft and final)
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PROJECT ENGINEERING DESIGN. The goal of this task is to design the necessary equipment and plan the equipment layout for the demonstration site. • Develop and review the microgrid design, including: o Completing a final walkthrough of the facility with the subcontractor; o Confirming the location of the XXXX; and o Confirming the locations of the solar panels. • Implement and file a construction permit application including, but not limited to: o Single-Line Diagram; o Parcel map and site access details; o Electrical safety information; and o Utility interconnection detail. • Provide a Project Design Memo that shall include, but not be limited to: • Summary of the steps taken to reach the final design and final layout; • Identification of barriers involved and discuss the steps taken to overcome those barriers; • Discussion of the final engineer design and equipment layout for each site. • Prepare a CPR Report #1 and participate in a CPR Meeting in accordance with subtask 1.3.
PROJECT ENGINEERING DESIGN. The goal of this task is to design the necessary equipment and plan the equipment layout for the demonstration site. The pieces of equipment that need to be designed, including rooftop solar photovoltaic, carport photovoltaic, XXXX, and associated structural components to each. • Execute design due diligence o Conduct Electrical Site Audit o Conduct Structural Review of Buildings o Execute a 3D Scan of Roof o Complete Geotechnical Onsite Work o Conduct Topography Survey • Complete Solar Photovoltaic and Battery Energy Storage Design o Execute 30% Scope Lock Design Burst o Conduct 30% Design Review Meeting o Execute 90% Detailed Design Burst o Conduct 90% Detailed Design Review Meeting o Prepare Issue for Permitting Drawing Set • Provide a Project Design Memo that shall include, but not be limited to: o Summary of the steps taken to reach the final design and final layout; o Identification of barriers involved and discuss the steps taken to overcome those barriers; o Discussion of the final engineer design and equipment layout for each site. • Prepare CPR Report #1 in accordance with subtask 1.3. • Participate in a CPR Meeting. • Project Design Memo (draft and final) • CPR Report #1
PROJECT ENGINEERING DESIGN. The goal of this task is to design the necessary equipment and plan the equipment layout for the demonstration site. The equipment to be designed for the microgrid are a solar PV array, XXXX, microgrid controller, metering equipment, and upgrades to the plant site, including circuits. • Identify critical loads and quantify total power required to maintain them during a power outage. Determine necessary circuit upgrades, controls, and metering to manage these loads. • Design the solar PV and XXXX microgrid, including site integration with site preparation, solar PV layout, electrical equipment, control systems, and structural components at the facility. • Design the required site upgrades, including electrical systems, ground preparation, fencing, and integration with existing load controls. • Provide a Project Design Memo that shall include, but not be limited to: o Summary of the steps taken to reach the final design and final layout; o Discussion of barriers identified and the steps taken to overcome those barriers; o Discussion of the final engineering design and equipment. • Project Design Memo (draft and final)
PROJECT ENGINEERING DESIGN. The goal of this task is to design the necessary equipment and plan the equipment layout for the demonstration site. The equipment to be designed for the microgrid include the roof mounted solar PV array, battery energy storage, innovative microgrid controller, and respective interconnection equipment. • Design a renewable energy microgrid including: • Roof-mount solar array specifications and layouts. • An estimate of the array annual electrical production. • Specifications and layouts for the energy storage system. • Collaboration with electric utility to define interconnection standards with particular emphasis on smart inverter and controls capabilities as well as physical isolation through transfer switches. • Prepare the Construction Permit Application which includes the following: • Design drawings. • Utility interconnection detail. • Provide a Project Design Memo that shall include, but not be limited to: • Summary of the steps taken to reach the final design and final layout. • Schematics and diagrams of final design and final layout. • A copy of the Construction Permit Application and utility interconnection application. • Identification of barriers involved and discuss the steps taken to overcome those barriers. • Discussion of the final engineer design and equipment layout. • Prepare CPR Report #1 in accordance with subtask 1.3. • Participate in a CPR Meeting. • Project Design Memo (draft and final) • CPR Report #1
PROJECT ENGINEERING DESIGN. The goal of this task is to design the necessary equipment and plan the equipment layout for the demonstration site. • Complete a feasibility study, including: • Baseline electrical usage modeling; • An analysis of time-specific emission data; and • Identification of the facility’s load profile, including peak demand. • Develop and review the microgrid design plan, complete with: • Roof load analysis calculations; • Roof-mount solar array racking, and panel, details; • An estimate of the array annual electrical production; • A detailed description of the electrical homerun, and intertie, components; • Rating, size and specifications, and location of the BSS; and • BSS operating algorithm, with a focus on GHG reductions. • Implement and file a construction permit application including, but not limited to: • Single-Line Diagram; • Parcel map and site access details; • Electrical safety information; and • Utility interconnection detail. • Provide a Project Design Memo that shall include, but not be limited to: • Summary of the steps taken to reach the final design and final layout; • Identification of barriers involved and discuss the steps taken to overcome those barriers; • Discussion of the final engineer design and equipment layout for each site; • Summary of findings from the feasibility study, microgrid design plan, and construction permit application. • Prepare a CPR Report #1 in accordance with subtask 1.3. • Participate in a CPR Meeting. • Project Design Memo (draft and final) • CPR Report #1
PROJECT ENGINEERING DESIGN. The City will or has entered into a contract for engineering design of the Project. The City agrees that the engineering design will include reasonable and adequate fencing around all ground- mounted equipment to preserve the aesthetics of the surrounding development. The City will send to the Owner each approved engineering invoice, together with any reasonable backup documentation, submitted by the Engineer to the City. Invoices are due to the Owner on the 25th day of each month, and payment is due and payable thirty (30) calendar days thereafter. The Owner agrees to deposit with the City an amount equal to fifty-percent (50%) of each approved invoice presented by the City in accord with such schedule.
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PROJECT ENGINEERING DESIGN. The goal of this task is to design the solar thermal system and plan the equipment layout. • Identify the thermal load to be offset by the solar thermal system. • Design a solar thermal system that will partially offset the identified thermal load. • Provide a Project Design Memo that shall include, but not be limited to: o Summary of the steps taken to reach the final design and final layout; o Identification of barriers involved and discuss the steps taken to overcome those barriers; o Discussion of the final engineer design and equipment layout for the site. • Prepare a CPR Report #1 in accordance with subtask 1.3. • Participate in a CPR Meeting. • Project Design Memo (draft and final) • CPR Report #1
PROJECT ENGINEERING DESIGN. The goal of this task is to design the necessary equipment and plan the equipment layout for the demonstration site. The equipment to be designed is a state-of-the-art, fully electric raisin dryer. • Design a state-of-the-art, fully electric raisin dryer including: o Material selection and physical dimensions; o Mechanical components such as doors and conveyor belts; o Electrical components such as motors and heating elements; and o Sensors and controls for monitoring and automation. • Provide a Project Design Memo that shall include, but not be limited to: • Summary of the steps taken to reach the final design and final layout; • Schematics and diagrams of final design and final layout; • Identification of barriers involved and discuss the steps taken to overcome those barriers; and • Discussion of the final engineer design and equipment layout for each site. • Submit CPR Report #1 and participate in a CPR Meeting in accordance with subtask 1.3. • Project Design Memo (draft and final) • CPR Meeting #1
PROJECT ENGINEERING DESIGN. The goal of this task is to design the solar thermal system and plan the equipment layout for the demonstration site. • Identify the thermal load in the food processing facility to be offset by the solar thermal system. • Obtain geotechnical and survey services to provide data for the soil conditions and topography. • Perform front-end engineering design of the Solar Boiler subsystems, including the solar field and balance of plant (BOP) system. • Finalize engineering of Solar Boiler • Provide a Project Design Memo that shall include, but not be limited to: o Summary of the steps taken to reach the final design and final layout; o Identification of barriers involved and discuss the steps taken to overcome those barriers; o Discussion of the final engineering design and equipment layout for the site. • Prepare CPR Report #1 and participate in a CPR Meeting per subtask 1.3. • Project Design Memo (draft and final) • CPR Report #1
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