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SAMDAILY.US - ISSUE OF MAY 26, 2022 SAM #7482
SOURCES SOUGHT

Y -- MILCON Project P-480 Energy Resilience Phase 1 & 2 and MILCON Project P-481 Energy Resilience Phases 3 & 4, Various Locations at Mountain Warfare Training Center, Bridgeport, California

Notice Date
5/24/2022 7:33:06 PM
 
Notice Type
Sources Sought
 
NAICS
237130 — Power and Communication Line and Related Structures Construction
 
Contracting Office
NAVFAC SOUTHWEST SAN DIEGO CA 92132-5000 USA
 
ZIP Code
92132-5000
 
Solicitation Number
N62473-22-R-1205
 
Response Due
6/7/2022 2:00:00 PM
 
Point of Contact
Phyllis Orman
 
E-Mail Address
phyllis.m.orman.civ@us.navy.mil
(phyllis.m.orman.civ@us.navy.mil)
 
Description
The Marine Corps Mountain Warfare Training Center Bridgeport (MWTC) is a mountain warfare training center whose mission is to conduct Marine Air Ground Task Force exercises, develop warfighting doctrine, and support research, development, testing, and evaluation (RDT&E) of equipment for use in mountain warfare operations.� Readiness is dependent on having a reliable and resilient energy infrastructure.� �Achieving energy readiness in Bridgeport is challenging for two primary reasons.� First, the installation is the last customer on the Southern California Edison (SCE) utility feed. Second, the base is located in an unforgiving, remote, and arduous area of the Sierra Mountains in California. Every year, the base experiences power outages due to extreme snowfall, sub-zero temperatures, forest fires, heat waves, power quality issues, and other planned and unplanned utility grid events.� The base regularly operates for minutes up to weeks, off a single generator with aged infrastructure and inadequate controls. This is a significant vulnerability. Bridgeport is addressing these issues with two (2) projects P-480 and P-481. The projects focus on enhancing the reliability and redundancy of the electrical distribution system and enhancing resiliency. The end state of this project is a reliable, resilient, efficient, and cybersecure microgrid that will provide the base the ability to operate critical installation services and mission essential functions off the grid for several weeks with N+1 redundancy. These projects are to be awarded together. The intent is to have a Design-Build contractor develop one design containing both projects and construct the projects with one timeline for maximum efficiency. Below are the two (2) projects. P-480 Project P-480 must provide a 750kW Battery Energy Storage System (BESS) with a minimum of 500kWh storage capacity and must provide required documentation and fees for the interconnection agreement with SCE. The project must replace the generator switchgear and generator controls in Building 2003. The project enhances resiliency at the 480/277V and 208/120V distribution levels. Eight (8) exterior switchboards must be replaced. To provide power to ten (10) switchboards, equipment including an exterior disconnect will be provided to allow transfer from utility power to a mobile generator. This project extends the Industrial Control Systems fiber network at MWTC. Fiber optic cable must be provided, in order to extend the AMI network to include Building 2003 and Building 4046. The AMI network server must be replaced and be relocated to Building 4046, and a new AMI program must be installed to current versions. This project will disconnect the existing copper DDC building controllers and re-establish communication to Building 1036 via existing dark fiber in the AMI fiber optic cabling throughout the base. For buildings which are not connected to the AMI fiber optic cabling, fiber optic cable must be provided to connect these buildings into the network. Buildings which require a fiber optic cable connection include Building 1035,Building 1999, Building 2000, and Building 2002. All DDC building controllers must be networked to Building 1036 and Building 4046. Building controllers and all associated objects must also be integrated to and defined on a new FRCS server to be provided in Building 4046. New operator workstation must be provided in Building 1036. Operator workstation shall be integrated and network to the new Facility Related Control System (FRCS) server to be provided in building 4046. Server shall be capable of supporting a site of at least 150 buildings. P-481 The project must Provide Battery Energy Storage System (BESS) to augment the BESS from P480. Provide an additional 3 MWh of energy. Expand grid-facing energy storage system, which will work in conjunction with distributed energy resources (DERs), to allow the continuous flow of clean power to the MWTC grid. The BESS must allow the MWTC to be entirely powered by renewable energy during most daylight hours, making MWTC a model of resilience in a cold weather environment. During a multi-day winter outage, the storage will balance load and generation between the PV and the new 550 kW generator. While grid connected, the storage will be used to manage peak demand and support the SCE grid by responding to frequency and voltage transients.� Furthermore, stabilizing the grid locally might reduce the likelihood of an outage. The system will disconnect if an unstable grid is detected. If both the 1 MW and 550 kW generator are down, the PV and BESS components (described below) can power the installation, although load would be reduced significantly by the EMIS system to provide power throughout the night. The project must provide a 550 kW generator to increase resilience of base-wide backup system. This generator will augment the renewable energy system, meet the complete power needs of the installation, and provide N+1 redundancy to the existing 1 MW generator. This 550 kW generator will primarily run during times of extended island mode, and in support of the DERs, to maximize renewable production and extend available fuel supply. This level of redundancy is crucial to ensure continuity of operations during sub-zero temperature events and during fires when SCE has grid outages. The project must provide 2 MW of solar photovoltaics. The PV systems must connect to the microgrid. The PV must work in conjunction with the BESS to maximize the use of renewable power. In addition, the configuration will allow the base to continue producing, consuming, and charging the BESS with PV-generated electricity, even when MWTC is disconnected from the SCE grid. The project must supply additional electrical infrastructure to accommodate the additional distributed sources throughout the installation. This includes providing conductors, coordinating with SCE, installing disconnects and other requirements to successfully interconnect the additional sources to the grid. These upgrades are required for the installation of the additional PV assets described above to connect to the grid and offset utility costs or extend duration while islanded. The project must provide microgrid control functions and equipment required to perform these functions. Advanced controls on all DERs must be provided to expand the microgrid and increase system telemetry throughout buildings to increase efficiency and control loads during grid-tied and islanded operations. The controls will provide capabilities including, but not limited to, the following: (a) �Smart� controls capable of taking input from the upstream sensors and automatically engaging the necessary DERs to detect, signal and automatically engage the necessary controls and equipment to ensure a continuous flow of �clean� electric power to the installation, preventing outages and power fluctuations that can be damaging to electrical and electronic equipment, thereby reducing maintenance and repair costs. (b) providing grid-interactive economic opportunities to produce savings by taking advantage of varying utility rates throughout the day and year. (c) Implement programmed operation modes to optimize base operations based on conditions such as maximum duration, mission-support or normal day-to-day operations. (d) Communications capabilities to promptly and automatically notify personnel if the control system changes system operations, such as when responding to an incoming power fluctuation and engaging installation DERs. The project is to provide and Energy Management Information System (EMIS). The energy management information system (EMIS) must integrate the DDC, AMI, and, microgrid monitoring and control in a single historian, with access to a single software suite for visualization, analytics, and fault detection. This will allow operators to view data in a customized way and be alerted to maintenance needs, energy savings opportunities, and understand interactions between systems that would be otherwise unknown. The project must provide a building to house all of the associated microgrid, building, AMI and any other related utility controls, control/monitoring stations, databases/servers and support personnel. This building is to provide central monitoring/control area for all facility related control systems and equipment including servers, communication nodes and operator interfaces. This project includes engineering calculations and studies as required by FC1-300-09N. However, the coordination, load flow and arc flash studies must determine the best scheme and protection of the entire microgrid for both grid-tied and islanded operations during the design. These studies inform the required electrical upgrades, generate required arc-flash labels, and provide documentation for SCE. This project must provide training, simulation, and documentation. This includes a complete package of standard operating procedures (SOPs) and emergency operating procedures (EOPs) and in-depth training on the system capabilities, operations, functions, etc. Electronic operation, maintenance, and sustainment instruction (eOMSI) manuals for the EMIS and microgrid system, detailing the operation, commissioning, and maintenance of the system must be proviced. The contractor will also provide a simulated environment for the system for training operators, testing upgrades and performing what-if scenarios. The contractors will prepare maintenance schemes, providing maintenance cost, energy cost, manpower and expected equipment reliability data for all developed maintenance schemes. MWTC facilities leadership will determine which scheme to implement, but all developed schemes will be detailed and delivered to MWTC facilities leadership. The manuals will detail system modes from fully automatic to manual, describe how to perform outage drills, and provide detailed information on efficiency when operating in a prescribed mode. A complete mirrored system, ""sandbox"" environment will be provided to assist with training and to ensure that system changes (such as patching) will not affect system operation.� These documents will help ensure the installation maintains the best possible technologically-advanced maintenance plan at the lowest possible cost while maintaining equipment and system reliability and energy conservation. Cybersecurity is critical to implementing this project. Certification and Accreditation is required for all FRCSs included in this project.� The control systems (including systems separate from an energy management control system) will be designed, acquired and executed in accordance with DoDI 8500.01, DoDI 8510.01, Department of Defense Risk Management Framework (RMF) per UFC 4-010-06, Cybersecurity of Facility-Related Control systems, and UFC 1-200-01, General Building Requirements Section 3-6.5, and other relevant FRCS cybersecurity requirements. All equipment installed (hardware and software) will be open protocol, have the ability to connect to existing and future systems, and will include the proper firewalls. Upon project completion, the MWTC will have an authority to operate (ATO), and a functional and cybersecure FRCSs.
 
Web Link
SAM.gov Permalink
(https://sam.gov/opp/0231dc3d5c004bfeb640d419fa6c61d6/view)
 
Place of Performance
Address: Bridgeport, CA 93517, USA
Zip Code: 93517
Country: USA
 
Record
SN06337445-F 20220526/220524230127 (samdaily.us)
 
Source
SAM.gov Link to This Notice
(may not be valid after Archive Date)
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