Loren Data's SAM Daily™

FBO DAILY - FEDBIZOPPS ISSUE OF DECEMBER 13, 2017 FBO #5864
DOCUMENT

59 -- 605-18-1-6022-0004 - ELECTRICAL INSPECTIONS - LOMA LINDA - Attachment

Notice Date

12/11/2017
 

Notice Type

Attachment
 

NAICS

221118 — Other Electric Power Generation
 

Contracting Office

Department of Veterans Affairs;Network Contracting Office 22;4811 Airport Plaza Drive;Suite 600;Long Beach CA 90815
 

ZIP Code

90815
 

Solicitation Number

36C26218Q9087
 

Response Due

12/15/2017
 

Archive Date

12/25/2017
 

Point of Contact

GARY TAYLOR
 

Small Business Set-Aside

N/A
 

Description

REQUEST FOR INFORMATION: 36C26218Q9087 LONG BEACH. THIS REQUEST FOR INFORMATION (RFI) IS ISSUED SOLELY FOR INFORMATION AND PLANNING PURPOSES ONLY AND DOES NOT CONSTITUTE A SOLICITATION. THE SUBMISSION OF PRICING, CAPABILITIES FOR PLANNING PURPOSES, AND OTHER MARKET INFORMATION IS HIGHLY ENCOURAGED AND ALLOWED UNDER THIS RFI IN ACCORDANCE WITH (IAW) FAR 15.201(e). This is not a solicitation announcement. This is a sources sought synopsis only. The purpose of this synopsis is to gain knowledge of potential qualified Service Disabled Veteran Owned Small Businesses (SDVOSB) or Veteran Owned Small Businesses (VOSB) for relative to NACIS 221118 sources (size standard of 750 employees). Responses to this synopsis will be used by the Government to make appropriate acquisition decisions. After review of the responses to this sources sought synopsis, a solicitation announcement may be published in the FedBizOpps or GSA eBuy websites. Responses to this sources sought synopsis are not considered adequate responses to the solicitation announcement. All interested offerors will have to respond to the solicitation announcement in addition to responding to this sources sought announcement. The Department of Veterans Affairs, Network 22 Contracts Office, is seeking sources to provide the supplies listed below. If you are interested, and are capable of providing the required supplies please provide the requested information as indicated below. Responses to this notice should include: company name, address, point of contact, e-mail and phone number, size of business pursuant to the following questions: (1) Please indicate the size status and representations of your business, such as but not limited to: Service Disabled Veteran Owned Small Business (SDVOSB), Veteran Owned Small Business (VOSB), Hubzone, Woman Owned Small Business (WOSB), Large Business, etc.) ? (2) Is your company considered small under the NAICS code identified under this RFI ? (3) Are you the manufacturer or distributor of the items being referenced above (or equivalent product/solution) ? What is the manufacturing country of origin of these items ? (4) If you re a small business and you are an authorized distributor/reseller for the items identified above (or equivalent product/solution), do you alter; assemble; modify; the items requested in any way ? If you do, state how and what is altered; assembled; modified ? (5) Does your company have an FSS contract with GSA or the NAC or are you a contract holder with NASA SEWP or any other federal contract ? If so, please provide the contract type and number. (6) If you are an FSS GSA/NAC or NASA SEWP contract holder or other federal contract holder, are the referenced items/solutions available on your schedule/contract ? (7) Please provide general pricing for your products/solutions for market research purposes. (8) Please submit your capabilities in regards to the salient characteristics being provided and any information pertaining to brand name or equal to items to establish capabilities for planning purposes ? Responses to this notice shall be submitted via email to gary.taylor10@va.gov Telephone responses shall not be accepted. Responses must be received no later than Friday, 12/15/2017 at 12:00noon PST. If a solicitation is issued it shall be announced at a later date, and all interested parties must respond to that solicitation announcement separately from the responses to this request for information. Prospective bidders must be authorized re-sellers in order to participate in the solicitation process. Responses to this notice are not a request to be added to a prospective bidders list or to receive a copy of the solicitation. Please provide unofficial pricing. SERVICES SOUGHT: PERFORM REQUIRED ELECTRICAL INSPECTIONS, MAINTENANCE, TESTING AND CALIBRATION OF THE ELECTRICAL DISTRIBUTION SYSTEM. CONTRACTOR TO FURNISH ALL CERTIFIED LABOR, MATERIALS, SUPPLIES, TOOLS, EQUIPMENT NEEDED TO PERFORM THE TRIENNIAL. THE CONTRACTOR SHALL PERFORM A 100 PERCENT INVENTORY CHECK OF ALL EQUIPMENT PERTAINING TO THE SCOPE OF WORK. SEE BELOW: STATEMENT OF WORK AND CRITERIA FOR RFI 36C26218Q9087: TITLE: Perform required electrical inspections, maintenance, testing and calibration of the electrical distribution system. BACKGROUND INFORMATION: As per the NFPA99, NFPA 110 and the Join Commission, the VA is required to perform inspections, testing, maintenance and calibration of all switchgears, switchboards, distribution panels, motor control centers and all related components every 36 months. The services shall comply with all VA, local, state, and Federal policies and regulations. OBJECTIVES: The purpose of this contract is to have a Contractor to furnish all labor, materials, supplies, tools, equipment needed to perform the Triennial. The contractor shall perform a 100% inventory of all equipment pertaining to the scope. The following is a breakout of required scope: ** A complete shutdown of all equipment listed in one line drawings will be necessary. All service procedures detailed below will be performed on listed equipment. All work will be scheduled during overtime hours. A complete report detailing all services and findings will be furnished in a timely manner once work has been completed. INFRARED TEMPERATURE SURVEY - Provide an infrared detecting system for detecting and measuring infrared radiation. Provide the services of a certified electrical equipment field test engineer to perform tests and make necessary measurement. The infrared detecting system shall be capable of measuring actual temperature or relative temperatures of an object by comparison with a reference object. The detecting system shall be able to measure operating temperature from 0 degrees centigrade to 1,000 degrees centigrade and shall be capable of measuring thermal gradients as small as 1 degree centigrade. Detecting system shall have the capability of providing photographs of areas tested. The infrared survey shall be conducted at times of maximum loading, and with equipment covers removed in all cases (from 07:00 a.m. to 3:00 p.m. Monday thru Friday). Coordinate with the VA. INFRARED SCANNING - Inspect the electrical equipment for physical, electrical and mechanical condition. Visually inspect for proper bus alignment. Remove all necessary covers prior to scanning. Scan the following equipment: switches, bus duct, switch gear, transformers, terminations, cables, cable connection, circuit breakers, outdoor bus structure and switches, etc. This includes all equipment through the secondary switchboard or service. Provide a report indicating the following: Problem areas (location of the hot spots) Indicate the temperature rise between the "hot spots" and the normal or reference area Indicate the cause of heat rise Indicate phase unbalance, if present Index of areas scanned Report any problem areas to the Electrician Supervisor immediately so corrective work may be initiated in a minimum of time EQUIPMENT REPLACEMENT - In the event that equipment such as a critical feeder circuit over-current device is damaged during testing, then the contractor shall be prepared to immediately provide a replacement device of the same manufacturer and model number as the damaged unit. All damage that is attributable to the contractor's workers and not resulting from normal testing and normal wear on equipment is the responsibility of the contractor to repair at no additional expense to the VA. In the event of indetermination of cause for damage, damaged equipment shall be submitted by VA for inspection and evaluation by qualified service representatives of such equipment. Subsequent determination that damage is attributable to contractor's workers shall result in a reduction in the contract price for the cost of the inspection and evaluation. Infrared Survey Report: Data sheets for the infrared temperature survey should be submitted on conditions which are abnormal. Data sheets shall contain the following and any other information required which will be determined at the conclusion of the survey. Date of test Time of test Identification of the equipment under test including descriptions, manufacturer, and serial number. Location of equipment under test Component temperature, reference temperature, difference and ambient temperature readings in centigrade degrees. Probable cause of the increase temperature Provide an infrared photograph of the area tested along with a color photograph to indicate exact component affected. Additional data determined necessary by the contractor Comments and recommendations Reports shall contain a section covering the procedure used to make necessary tests and a description of the test equipment used. Reports shall have a section containing a summary of all test results and the contractor shall make recommendations based on a component engineering analysis of the test data. Recommendations will include areas where immediate action is required and recommended areas where additional maintenance needs to be performed. Reports shall be submitted in an original and four (total of 5) copies to the Chief Engineer, VA Medical Center, within 30 days of work completion. The VA: The VA shall be responsible for all power switching of equipment and for providing equipment in a ready-to-test condition. The user shall provide the testing organization with the following: A short-circuit analysis, a coordination study, an arc-flash hazard analysis, and a protective device setting sheet. The most current set of electrical drawings and instruction manuals applicable to the scope of work relative to the equipment under test. An itemized description of equipment to be inspected and tested. A determination of who shall provide a suitable and stable source of electrical power to each test site. Notification of when equipment becomes available for maintenance tests. Work shall be coordinated to expedite project scheduling. Site-specific hazard notification and safety training. The Testing Organization Shall provide the following: All field technical services, tooling, equipment, instrumentation, and technical supervision to perform such tests and inspections. Specific power requirements for test equipment. Notification to the owner s representative prior to commencement of any testing. A timely notification of any system, material, or workmanship which is found deficient on the basis of maintenance tests. A record of all tests and a final report. Suitability of Test Equipment: All test equipment shall meet the requirements in Section 5.3 and be in good mechanical and electrical condition. Field test metering used to check power system meter calibration must be more accurate than the instrument being tested. Accuracy of metering in test equipment shall be appropriate for the test being performed. Wave shape and frequency of test equipment output waveforms shall be appropriate for the test and the tested equipment. Test Instrument Calibration The testing organization shall have a calibration program which assures that all applicable test instruments are maintained within rated accuracy for each test instrument calibrated. The firm providing calibration service shall maintain up-to-date instrument calibration instructions and procedures for each test instrument calibrated. The accuracy shall be directly traceable to the National Institute of Standards and Technology (NIST). Instruments shall be calibrated in accordance with the following frequency schedule: Field instruments: Analog and digital, 12 months maximum. Laboratory instruments: 12 months maximum. Leased specialty equipment: 12 months maximum. Dated calibration labels shall be visible on all test equipment. Records, which show date and results of instruments calibrated or tested, must be kept up-to date. Calibrating standard shall be of higher accuracy than that of the instrument tested. Test Report Shall include the following: Summary of project. Description of equipment tested. Description of tests. Relay settings and test data. Analysis and recommendations. Test data records shall include the following minimum requirements: Identification of the testing organization. Equipment identification. Nameplate data. Humidity, temperature, and other conditions that may affect the results of the tests/calibrations. Date of inspections, tests, maintenance, and/or calibrations. Identification of the testing technician. Indication of inspections, tests, maintenance, and/or calibrations to be performed and recorded. Indication of expected results when calibrations are to be performed. Indication of as-found and as-left results. Sufficient spaces to allow all results and comments to be indicated. The testing organization shall furnish a copy or copies of the complete report as specified in the maintenance testing contract. INSPECTION AND TEST PROCEDURES Switchgear and Switchboard Assemblies - Visual and Mechanical Inspection: Inspect physical, electrical, and mechanical condition including evidence of moisture or corona. Inspect anchorage, alignment, grounding, and required area clearances. Prior to cleaning the unit, perform as-found tests, if required. Clean the unit. Verify that fuse and/or circuit breaker sizes and types correspond to drawings and coordination study as well as to the circuit breakers address for microprocessor-communication packages. Verify that current and voltage transformer ratios correspond to drawings. Inspect bolted electrical connections for high resistance using one or more of the following methods: Use of a low-resistance ohmmeter in accordance with Section 7.1.B.1. Of ANSI/NETA MTS-2015 Verify tightness of accessible bolted electrical connections by calibrated torque-wrench method in accordance with manufacturer s published data or Table 100.12 of ANSI/NETA MTS-2015. Perform a thermographic survey in accordance with Section 9 of ANSI/NETA MTS-2015. Confirm correct operation and sequencing of electrical and mechanical interlock systems. Attempt closure on locked-open devices. Attempt to open locked-closed devices. Make key exchange with all devices included in the interlock scheme as applicable. Use appropriate lubrication on moving current-carrying parts and on moving and sliding surfaces. Verify correct barrier and shutter installation and operation. Exercise all active components. Inspect mechanical indicating devices for correct operation. Verify that filters are in place and/or vents are clear. Perform visual and mechanical inspection of instrument transformers in accordance with Section 7.10 of ANSI/NETA MTS-2015. Inspect control power transformers. Inspect for physical damage, cracked insulation, broken leads, and tightness of connections, defective wiring, and overall general condition. Verify that primary and secondary fuse ratings or circuit breakers match drawings. Verify correct functioning of draw out disconnecting and grounding contacts and interlocks. Electrical Tests: Perform resistance measurements through bolted electrical connections with a low-resistance ohmmeter in accordance with Section 7.1.A.7.1 of ANSI/NETA MTS-2015. Perform insulation resistance tests for one minute on each bus section, phase-to-phase and phase-to-ground. Apply voltage in accordance with manufacturer s published data. In the absence of manufacturer s published data, use Table 100.1 of ANSI/NETA MTS-2015. Perform a dielectric withstand voltage test on each bus section, each phase-to-ground with phases not under test grounded, in accordance with manufacturer s published data. If manufacturer has no recommendation for this test, it shall be in accordance with Table 100.2 of ANSI/NETA MTS-2015. The test voltage shall be applied for one minute. Refer to Section 7.1.3 of ANSI/NETA MTS-2015 before performing test. Perform insulation-resistance tests on control wiring with respect to ground. The applied potential shall be 500 volts dc for 300-volt rated cable and 1000 volts dc for 600-volt rated cable. Test duration shall be one minute. For units with solid-state components or control devices that cannot tolerate the applied voltage, follow manufacturer s recommendation. Perform electrical tests on instrument transformers in accordance with Section 7.10 of ANSI/NETA MTS-2015 Perform ground resistance tests in accordance with Section 7.13 of ANSI/NETA MTS-2015. Determine accuracy of all meters and calibrate watthour meters in accordance with Section 7.11 of ANSI/NETA MTS-2015. Control Power Transformers Perform insulation-resistance tests. Perform measurements from winding-to-winding and each winding-to-ground. Test voltages shall be in accordance with manufacturer s published data. In the absence of manufacturer s published data, use Table 100.1 of ANSI/NETA MTS-2015. Verify correct function of control transfer relays located in switchgear with multiple power sources. Verify operation of switchgear/switchboard heaters and their controller. Perform system function tests in accordance with Section8 of ANSI/NETA MTS-2015. Transformer, Dry Type: NOTE: This category consists of power transformers with windings rated higher than 600 volts and low-voltage transformers larger than 167 kVA single-phase or 500 kVA three-phase. Visual and Mechanical Inspection Inspect physical and mechanical condition including evidence of moisture and corona. Inspect anchorage, alignment, and grounding. Prior to cleaning the unit, perform as-found tests, if required. Clean the unit. Verify that control and alarm settings on temperature indicators are as specified. Verify that cooling fans operate correctly. Inspect bolted electrical connections for high resistance using one or more of the following methods: Use of a low-resistance ohmmeter in accordance with Section 7.2.1.2.B.1 of ANSI/NETA MTS-2015. Verify tightness of accessible bolted electrical connections by calibrated torque-wrench method in accordance with manufacturer s published data or Table 100.12 of ANSI/NETA MTS-2015. Perform a thermographic survey in accordance with Section 9. Perform specific inspections and mechanical tests as recommended by the manufacturer. Perform as-left tests. Verify that as-left tap connections are as specified. Verify the presence of surge arresters. Electrical Tests: Perform resistance measurements through bolted connections with a low-resistance ohmmeter in accordance with Section 7.2.1.2.A.7.1 of ANSI/NETA MTS-2015. Perform insulation-resistance tests winding-to-winding and each winding-to-ground. Apply voltage in accordance with manufacturer s published data. In the absence of manufacturer s published data, use Table 100.5 of ANSI/NETA MTS-2015. Calculate polarization index. Perform insulation power-factor or dissipation-factor tests on all windings in accordance with the test equipment manufacturer s published data. Perform a power-factor or dissipation-factor tip-up test on windings rated greater than 2.5 kV. Perform turns-ratio tests at the designated tap position. Perform an excitation-current test on each phase. Measure the resistance of each winding at the designated tap position. Measure core insulation resistance at 500 volts dc if the core is insulated and if the core ground strap is removable. Perform an applied voltage test on all high- and low-voltage windings-to-ground. See ANSI/IEEE C57.12.91, Sections 10.2 and 10.9. Verify correct secondary voltage phase-to-phase and phase-to-neutral after energization and prior to loading. Test surge arresters in accordance with Section 7.19 of ANSI/NETA MTS-2015. Transformer, Liquid-Filled Visual and Mechanical Inspection: Inspect physical and mechanical condition. Inspect anchorage, alignment, and grounding. Verify the presence of PCB labeling. Prior to cleaning the unit, perform as-found tests, if required. Clean bushings and control cabinets. Verify operation of alarm, control, and trip circuits from temperature and level indicators, pressure relief device, and fault pressure relay Verify that cooling fans and/or pumps operate correctly. Inspect bolted electrical connections for high resistance using one or more of the following methods: Use of a low-resistance ohmmeter in accordance with Section 7.2.2B.1. Verify tightness of accessible bolted electrical connections by calibrated torque-wrench method in accordance with manufacturer s published data or Table 100.12. Perform a thermographic survey in accordance with Section 9. Verify correct liquid level in tanks and bushings. Verify that positive pressure is maintained on gas-blanketed transformers. Perform inspections and mechanical tests as recommended by the manufacturer. Test load tap-changer in accordance with Section 7.12. Verify the presence of transformer surge arresters. Perform as-left tests. Verify de-energized tap-changer position is left as specified. Electrical Tests: Perform resistance measurements through bolted connections with a low-resistance ohmmeter in accordance with Section 7.2.2.A.8.1. Perform insulation-resistance tests, winding-to-winding and each winding-to-ground. Apply voltage in accordance with manufacturer s published data. In the absence of manufacturer s published data, use Table 100.5. Calculate polarization index. Perform turns-ratio tests at the designated tap position. Perform insulation power-factor or dissipation-factor tests on all windings in accordance with test equipment manufacturer s published data. Perform power-factor or dissipation-factor tests on each bushing equipped with a power-factor/ capacitance tap. In the absence of a power-factor/ capacitance tap, perform hot-collar tests. These tests shall be in accordance with the test equipment manufacturer s published data. Perform excitation-current tests in accordance with the test equipment manufacturer s published data. Measure the resistance of each winding at the designated tap position. If the core ground strap is accessible, remove and measure the core insulation resistance at 500volts dc. Measure the percentage of oxygen in the gas blanket. Remove a sample of insulating liquid in accordance with ASTM D 923. The sample shall be tested for the following. Dielectric breakdown voltage: ASTM D 877 and/or ASTM D 1816 Acid neutralization number: ANSI/ASTM D 974 Specific gravity: ANSI/ASTM D 1298 Interfacial tension: ANSI/ASTM D 971 or ANSI/ASTM D 2285 Color: ANSI/ASTM D 1500 Visual Condition: ASTM D 1524 Water in insulating liquids: ASTM D 1533. (Required on 25 kV or higher voltages and on all silicone-filled units.) Measure power factor or dissipation factor in accordance with ASTM D 924. Remove a sample of insulating liquid in accordance with ASTM D 3613 and perform dissolved-gas analysis (DGA) in accordance with ANSI/IEEE C57.104 or ASTM D3612. Test the instrument transformers in accordance with Section 7.10. Test the surge arresters in accordance with Section 7.19. Test the transformer neutral grounding impedance devices Protective Relays, Electromechanical and Solid-State: All relays shall be inspected for physical damage. Inspect cover gaskets and cover glass for presence of foreign material and moisture and then clean. Inspect spiral spring, disc, and contacts for condition and rust. Check disc for clearance. Check mechanically for freedom of movement, proper travel and alignment, and tightness of mounting hardware and tap screws. Apply prescribed settings. Perform insulation resistance test on each circuit branch to frame. Do not perform this test on solid state relays. Test and adjust the parameters on each operating element. Timing tests shall be made at two points on each time dial curve. Test the target trip current and seal-in units. Perform instantaneous tests corresponding to the timing test values. Test the tripping circuit by itself and with the circuit breaker. Perform special tests as required to check operation of directional restraint and other elements per manufacturer's instruction manuals. Perform phase angle and magnitude contribution tests on all different and directional type relays after energization to sectorial prove proper polarity and connections. Verify that all settings are in accordance with coordination study or setting sheet supplied by VA. Directional Power Relay - 1. Determine minimum pickup at maximum torque angle. 2. Determine closing zone. 3. Determine maximum torque angle. 4. Determine time delay. 5. Verify the time delay at a second point on the timing curve for inverse time relays. Instantaneous Overcurrent Relay - 1. Determine pickup. 2. Determine dropout. Time Overcurrent - 1. Determine minimum pickup. 2. Determine time delay at two points on the time current curve. METERING AND INSTRUMENTATION: Examine all devices for broken parts, damage and wire connection tightness. Verify meter connections in accordance with single-line meter and relay diagrams. Calibrate all meters at 5 points using full scale test instruments. Calibrate watt-hour meters to one-half percent (0.5%). Verify and/or correct all instrument multipliers. After the meters are calibrated, a calibration curve should be generated which shows the accuracy of the meter throughout the full range (0 to full scale reading). Electrical cables - above 600 volts: In accordance with ICEA, IEC, IEEE and other power cable consensus standards, testing can be performed by means of direct current, power frequency alternating current, or very low frequency alternating current. These sources may be used to perform insulation withstand tests, and diagnostic tests such as partial discharge analysis, and power factor or dissipation factor. The selection can only be made after an evaluation of the available test methods and a review of the installed cable system. Dielectric Withstand - 1. Direct current (DC) dielectric withstand voltage 2. Very low frequency (VLF) dielectric withstand voltage 3. Power frequency (50/60 Hz) dielectric withstand voltage Diagnostic Tests - 1. Power factor/dissipation factor (tan delta) 1. Power frequency (50/60 Hz) 2. Very low frequency (VLF) 2. DC insulation resistance 3. Partial discharge 1. On line (50/60 Hz) 2. Off line 1. Power frequency (50/60 Hz) 2. Very low frequency (VLF) Electrical tests: 1. Compare bolted connection resistance values to values of similar connections. Investigate values which deviate from those of similar bolted connections by more than 50 percent of the lowest value. (7.3.3.A.3.1) 2. Bolt-torque levels should be in accordance with manufacturer s published data. In the absence of manufacturer s published data, use Table 100.12. (7.3.3.A.3.2) 3. Results of the thermographic survey shall be in accordance with Section 9. (7.3.3.A.3.3) 4. The minimum bend radius to which insulated cables may be bent for permanent training shall be in accordance with Table 100.22. (7.3.3.A.6) D. Test Values Electrical 1. Compare bolted connection resistance values to values of similar connections. Investigate values which deviate from those of similar bolted connections by more than 50 percent of the lowest value. 2. Insulation-resistance values should be in accordance with manufacturer s published data. In the absence of manufacturer s published data; use Table 100.1. Values of insulation resistance less than this table or manufacturer s recommendations should be investigated. 3. Shielding shall exhibit continuity. Investigate resistance values in excess of ten ohms per 1000 feet of cable. 4.1 If no evidence of distress or insulation failure is observed by the end of the total time of voltage application during the test, the test specimen is considered to have passed the test. 4.2 Based on the test methodology chosen, refer to applicable standards or manufacturer s literature for acceptable values. Copyrighted material licensed to VHA Center for Engineering and Occupational Safety and Health (CEOSH) by Thomson Scientific, Inc. (www.techstreet.com). This copy downloaded on 2015-05-12 09:27:42 EQUIPMENT IDENTIFICATION - Item no. Substation Quantity Component Main Hospital 1 Main 12KV 1 Main Switchgear 2 Main 12KV 8 MV Circuit Breakers 3 Main 12KV 32 Overcurrent Relays 4 Main 12KV 1 Device 32 5 Main 12KV 1 Device 62 6 Unit Sub US-1A 2 Load Interrupter Switches 7 Unit Sub US-1A 1 Main Switchgear 8 Unit Sub US-1A 1 1500KVA Transformer 9 Unit Sub US-1A 1 DS Circuit Breaker 10 Unit Sub US-1A 10 >300Amp SPB100 Breakers 11 Unit Sub US-1B 2 Load Interrupter Switches 12 Unit Sub US-1B 1 Main Switchboard 13 Unit Sub US-1B 1 1500KVA Transformer 14 Unit Sub US-1B 1 2500A DS Breaker 15 Unit Sub US-1B 1 2000A Tie Breaker 16 Unit Sub US-1B 9 >300Amp SPB Breakers 17 Unit Sub US-2A 2 Load Interrupter Switches 18 Unit Sub US-2A 1 1500KVA Transformer 19 Unit Sub US-2A 1 2500A DS Breaker 20 Unit Sub US-2A 1 2000A Tie Breaker 21 Unit Sub US-2A 7 >300A SPB100 Breakers 22 Unit Sub US-2B 2 Load Interrupter Switches 23 Unit Sub US-2B 1 1500KVA Transformer 24 Unit Sub US-2B 1 2500A DS Breaker 25 Unit Sub US-2B 1 2000A Tie Breaker 26 Unit Sub US-2B 1 3200A DS Breaker 27 Unit Sub US-2B 10 >300A SPB100 Breakers 28 Unit Sub US-3A 2 Load Interrupter Switches 29 Unit Sub US-3A 1 1500KVA Transformer 30 Unit Sub US-3A 1 2500A DS Breaker 31 Unit Sub US-3A 10 >300A SPB100 Breakers 32 Unit Sub US-3B 2 Load Interrupter Switches 33 Unit Sub US-3B 1 1500KVA Transformer 34 Unit Sub US-3B 1 2500A DS Breaker 35 Unit Sub US-3B 1 2000A Tie Breaker 36 Unit Sub US-3B 8 >300A SPB100 Breakers 37 Unit Sub US-4A 2 Load Interrupter Switches 38 Unit Sub US-4A 1 1500KVA Transformer 39 Unit Sub US-4A 1 2500A DS Breaker 40 Unit Sub US-4A 10 >300A SPB100 Breakers 41 Unit Sub US-4B 2 Load Interrupter Switches 42 Unit Sub US-4B 1 1500KVA Transformer 43 Unit Sub US-4B 1 2500A DS Breaker 44 Unit Sub US-4B 9 >300A SPB100 Breakers 45 Unit Sub US-5A 2 Load Interrupter Switches 46 Unit Sub US-5A 1 1500KVA Transformer 47 Unit Sub US-5B 2 Load Interrupter Switches 48 Unit Sub US-5B 1 1500KVA Transformer 49 MDBCP 21 SPB100 Breakers 50 Mezzanine Chiller 1 4160V Main Breaker 51 Mezzanine Chiller 4 Overcurrent Relays 52 Mezzanine Chiller 1 Device 27 53 Mezzanine Chiller 1 2500KVA Transformer 54 Mezzanine Chiller 1 LI 55 Mezzanine Chiller 3 4160V Motor Starters Behavior Health Services Building 56 Unit Sub US-6A 4 Load Interrupter Switches 57 Unit Sub US-6A 1 MV Circuit Breaker 58 Unit Sub US-6A 1 Feeder Protection Relay 59 Unit Sub US-6A 1 1500KVA Transformer 60 Unit Sub US-6A 1 2500Amp Main CB 61 Switchboard MDS 1 1600Amp Main CB A/E OP Pharmacy 62 MSB 1 800Amp Main 63 MSB 1 Main Switchgear Cancer Center Building 64 MDS 1 Main Switchgear 65 MDS 1 2000Amp GFI Main Infrared Thermography 66 Unit Sub US-1A 67 Unit Sub US-1B 68 Unit Sub US-2A 69 Unit Sub US-2B 70 Unit Sub US-3A 71 Unit Sub US-3B 72 Unit Sub US-4A 73 Unit Sub US-4B 74 Unit Sub US-5A 75 Unit Sub US-5B 76 Unit Sub US-6A 77 Main Hospital 247 Non Essential Panels 78 Main Hospital 68 Distribution Boards 79 Main Hospital 159 Emergency Panels 80 Main Hospital 37 Emergency Distribution Boards 81 A/e Pharmacy 16 Panels 82 A/E Pharmacy 3 Distribution Boards 83 Cancer Center 16 Panels 84 Cancer Center 3 Distribution Boards 85 Behavioral Health 16 Panels 86 Behavioral Health 3 Distribution Boards Services performed shall conform to industry standards and this statement of work (SOW). PERIOD OF PERFORMANCE: 90 days PLACE OF PERFORMANCE: VA Loma Linda 11201 Benton St Loma Linda, CA 92357 LICENSING REQUIREMENTS: Offeror must possess a 30-hour Occupational Safety and Health Administration (OSHA) safety card. Licensed journeyman electricians. Arc Flash Certifications. SPECIFIC REQUIREMENTS: Schedule with Contracting Officer Representative (COR) or Designee five (5) business days in advance prior to start of work. Prior to start of job, all personnel shall have a valid Loma Linda PIV badge Prior to working, ALL energy sources (electrical, water, etc.) shall be locked and tagged out, and upon completion of work, will be re-energized and verified. Prior to work each day, workers or a designated lead or supervisor are/is to check in with the Graphics Control in the plant. Contractor shall conform to the following standards, policies, regulations, governing agency, and any other local, state, or Federal guidelines that are not listed here OSHA Regulations, www.osha.gov NFPA, www.nfpa.org
 

Web Link

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Document(s)

Attachment
 

File Name: 36C26218Q9087 36C26218Q9087.docx (https://www.vendorportal.ecms.va.gov/FBODocumentServer/DocumentServer.aspx?DocumentId=3957384&FileName=36C26218Q9087-000.docx)

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Place of Performance

Address: DEPARTMENT OF VETERANS AFFAIRS;11201 BENTON ROAD;LOMA LINDA, CA

Zip Code: 92357
 

Record

SN04762922-W 20171213/171211231338-89799db1ecd63b581e24175a0b417b4f (fbodaily.com)
 

Source

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