AVO EED RFQ Template



I. OBJECTIVES

ABC Corporation is soliciting proposals from qualified licensed engineering firms to provide technical engineering services required to perform an arc flash hazard analysis for the facilities l in Exhibit I. ABC Corporation’s objectives for this RFP are as follows:

A. Determine the level of hazard and the proper rating of the personal protective equipment (PPE) necessary for personnel arc flash protection.

B. Ensure that ABC Corporation is in compliance with applicable industry standards for arc flash hazard identification and protection, i.e. NFPA 70E, OSHA, NEC, ANSI.

To ensure consistency across multiple facilities, ABC Corporation seeks the services of a single contractor to perform applicable arc flash analysis services at all referenced facilities.

II. QUALIFICATIONS & EXPERIENCE

The Service Provider shall be actively engaged in the performance of arc flash analysis, field data collection, field training and the supply of mitigation solutions to reduce arc flash hazard levels.

The short-circuit, protective device coordination and arc flash hazard analysis studies shall be conducted under the responsible charge and approval of a Registered Professional Electrical Engineer, registered in the State in which work is to be done and skilled in performing and interpreting the power system studies. The Registered Professional Electrical Engineer shall have recent experience in performing power system studies.

III. SCOPE OF WORK

The Service Provider should furnish an Arc Flash Hazard Analysis per NFPA 70E Standard for Electrical Safety in the Workplace, reference Article 130.3 and Annex D; based on the formulas found in IEEE 1584 or equivalent, and satisfying the requirements of OSHA 29 CFR 1910.132(d).

This study will apply to only three phase equipment rated 240 volts or greater and three phase equipment rated lower than 240 volts when served from a transformer 125 kva and larger unless an expanded scope of services is selected by ABC Corporation.

Work shall include:

A. Field Data Collection – The Service Provider will collect, record all pertinent electrical component field data and create model drawings for the plant’s electric power distribution system while accompanied by a ABC Corporation person who has familiarity in the location of equipment to be included in the assessment. Typical field data may include but is not limited to transformers, switchgears, switchboards, motor control centers, panel boards, circuit breakers, protective relays, fuses, bus ducts, bus plugs, conductors, etc.

B. Model and Perform Electric Power Systems Analysis – The Service Provider will develop a software model of the system. This model will be used to perform the following studies:

1. Short Circuit Current Study (SCCS) in accordance with ANSI Std. C37 and IEEE Std. 141-1993 (Red Book) for all applicable electrical components. This will also include an Equipment Evaluation Study to check the computed available fault current against existing equipment short circuit interrupting ratings.

2. Arc flash hazard analysis to compute incident energy levels, proper ratings of PPE, NFPA 70E shock approach boundary distances at specified equipment locations, arc flash and shock protection boundaries, and warning label requirements. Incident energy and arc flash protection boundaries will be computed using IEEE Std. 1584, “IEEE Guide for Performing Arc Flash Hazard Calculations” and the NFPA 70E Guidelines. The Service Provider will perform this study on all applicable exposure areas at the facility. The arc flash hazard analysis will also include identifying the available fault current at equipment buses as well as clearing time for applicable protective devices to determine proper PPE requirements. The PPE determination will be based upon potential arc flash incident energy exposure levels and will determine:

Proper PPE for each applicable piece of electrical equipment.

Working distance for each applicable piece of electrical equipment.‡

Incident energy level for each applicable piece of equipment.

Flash protection boundary for each applicable piece of equipment.

C. Produce Arc Flash Hazard Warning Labels – The Service Provider will furnish arc flash hazard warning label information for each applicable piece of equipment in accordance with ANSI Z535.4, NEC 110.16 and NFPA 70E 130.3, UL 969 guidelines. The label information will include:

1. Voltage rating of equipment

2. Arc flash protection boundary (in.)

3. Arc flash incident energy at the working distance (cal/cm2)

4. Working distance (in.)

5. Recommended protection including glove rating

6. Limited, restricted and prohibited approach distances (in.)

7. Bus and protective device identifier

8. Bolted fault current

9. Date of issue

10. Service Provider contact information

Arc flash labels should be provided in the following manner and all labels should be based on recommended overcurrent device settings. If the labels are based on the recommended overcurrent settings, they cannot be installed until the overcurrent device settings have been changed.

1. For each 600, 480 and 208 volt panel boards and disconnects, one label should be provided

2. For each motor control center, one label should be provided per section

3. For each low voltage switchboard, one label should be provided per section

4. For each switchgear, one label should be provided per section

5. For medium voltage switches, one label should be provided per section

6. For buss tie breakers, one lable should be provided based on dual feeds

D. Install Arc Flash Hazard Warning Labels – The Service Provider should provide an option to install the generated arc flash warning labels at the applicable equipment locations in accordance with NEC-2008 article 110.16., while accompanied by an ABC Corporation electrician or technician familiar with the building layout and interconnectivity of loads.

E. Optional Services

1. Protective Device Coordination Study & Arc Flash Mitigation for 240 volts and greater and less than 240 volts when served from a transformer larger than 125 kva. If this option is selected, the Service Provider will perform an Overcurrent Protective Device Coordination Study in accordance with IEEE Std. 242-2001 (Buff Book) for all applicable electrical components. Graphical plots of each applicable device time current coordination curve will be provided in color on 8.5" x 11" Log-Log scale paper. The study will analyze and optimize protective device settings and provide the lowest possible incident energy while maintaining selective coordination.

2. Load Flow Study for 240 volts and grater and less than 240 volts when served from a transformer larger than 125 kva. The Service Provider will collect the load data, model the system, and provides a table of devices and conductors that are overloaded.

3. Expanded Scope of Services to include equipment less than 240 volts when served from a 125 kva or smaller transformer.

4. Annual Arc Flash Data Modification Review Contract. The Service Provider will offer an annual service plan for Arc Flash Data Modification Review. As a part of this plan, ABC Corporation will notify the Service Provider regarding any modifications made to their power distribution system and provide the required data necessary to update the analysis on a predetermined schedule. For one year:

a. The Service Provider will maintain the data collected from ABC Corporation site(s) assessed in our initial Arc Flash Hazard Analysis Project.

b. The Service Provider will maintain the calculations conducted for ABC Corporation site(s) during the initial Arc Flash Hazard Analysis Project.

c. The Service Provider will review and recommend corrective actions for the changes submitted up to two (2) times per year. Facilities will be negotiated.

d. If the result of any modification referred to in item (c) requires a new Arc Flash Hazard Analysis report and Warning labels, the cost of report and labels will be completed for an additional charge. The hourly rate in effect at the time of the new work will be credited toward to the cost of the changes.

F. Deliver Final Report. The Service Provider shall furnish a complete report for all system studies in both electronic (in Adobe PDF format on compact disk media) and bound, hard copy document form. The report(s) will include the results of the short circuit, coordination (if selected), device evaluation, arc flash calculations, the coordination curves and all input data, recommendations for changes to settings or equipment, and conclusions. The report will contain, at a minimum, the following:

1. Executive Summary

The Service Provider will provide a synopsis of the overall findings including but not limited to equipment locations with the highest incident energy levels, total number of overcurrent protection devices with inadequate short circuit interrupting ratings.

2. Methodology

The Service Provider will provide a summary of analysis methodology, explanation of the arc flash hazard analysis and criteria used for the calculations shall be included in the report.

3. Assumptions

The Service Provider will provide a list of all valid engineering assumptions made and why they were made for the study. The Service Provider will also provide a summary of component input data used to perform the power system analysis.

4. One-line Diagram

The Service Provider will provide a full-sized one-line system diagram that shall be computer generated and will clearly identify individual equipment buses, bus numbers used in the short-circuit analysis, cable and bus connections between the equipment, calculated maximum short-circuit current at each bus location, device numbers used in the time-current coordination analysis, and other information pertinent to the computer analysis.

5. Analysis Data and Results

a. Short Circuit Data:

i. Source fault impedance and generator contributions

ii. X to R ratios

iii. Asymmetry factors

iv. Motor contributions

v. Short circuit kVA

vi. Symmetrical and asymmetrical fault currents

b. Recommended Protective Device Settings:

i. Phase and Ground Relays

1. Current transformer ratio

2. Current setting

3. Time setting

4. Instantaneous setting

5. Specialty non-overcurrent device settings

6. Recommendations on improved relaying systems, if applicable

ii. Circuit Breakers

1. Adjustable pickups and time delays (long time, short time, ground)

2. Adjustable time-current characteristic

3. Adjustable instantaneous pickup

4. Recommendations on improved trip systems, if applicable

c. Incident energy and fault protection boundary calculations:

i. Arcing fault magnitude

ii. Device clearing time

iii. Duration of arc

iv. Arc flash boundary

v. Working distance

vi. Incident energy

vii. Hazard risk category

viii. Recommendations for arc flash energy reduction

6. Recommendations

Provide general recommendations to reduce the existing incident energy levels and improve overall future safety for the facility.

7. Bibliography

Provide all applicable industry references used to complete the power systems analysis and arc flash hazard assessment.

G. Report Presentation

The Service Provider should organize a final report presentation, either by telephone or onsite at ABC Corporation’s discretion.

H. NFPA 70E Electrical Safety Training

The Service Provider should provide an option to train ABC Corporation’s qualified electrical personnel on the potential arc flash hazards associated with working on energized equipment (minimum of 4 hours). The training should be certified for continuing education units (CEUs) and meet the mandated training requirements of OSHA 1910.332.

IV. PROJECT SCHEDULE

The Service Provider should provide a method of scheduling and tracking project tasks and the estimated project duration.

V. Attachments

A. Exhibit I Subject Facilities – This project is intended to be performed at these facilities.

B. Exhibit II Electrical One-Line Diagrams – The most current version of each of the Subject Facilities electrical one-line diagrams.

OR Electrical Equipment Data - Power system information necessary to understand the magnitude of the project, by location. (This is necessary only if one-line diagrams are unavailable.)

VI. Pricing

The arc flash hazard analysis studies should be priced on a per location basis. Pricing should be provided on a per line item basis, referencing line items within the scope of work. Required and optional Scope of Work items should be separated.

VII. Evaluation Criteria

A. Demonstrated qualifications and experience of the submitting firm and its’ staff

B. Workplan and methodology in accordance with the RFP requirements

C. Ability to complete the project within the proposed schedule of work

D. Financial proposal

VIII. Submittals

A. Submit corporate background description.

B. Provide a one (1) page Project Organization Chart that identifies all significant project personnel by name and their role. The chart must identify quality control/quality assurance or technical review personnel.

C. Any work performed by a sub-contractor must be indicated and identified, including the name of the sub-contractor.

D. Provide one (1) page resumes and qualifications of the persons who will serve as the Principal-in-Charge, Project Manager and Project Engineers. The Project Manager must be a licensed professional electrical engineer and shall have a minimum of 15 years of relevant experience. The Project Engineer must have a minimum of five (5) years of electrical hazard assessment experience.

E. Identify the “Qualified” technician(s) per NFPA 70E that shall perform the data gathering.

F. If any team member has been cited for violations of OSHA Standards and Requirements within the past five (5) years then an explanation and status of the violations shall be provided.

G. Provide and list a total of six (6) electrical hazard assessment studies/arc flash hazard analyses that the Service Provider has prepared within the last three (3) years. Each project description must include a brief summary of work performed, client name, address, including a current phone number and contact name.

H. The Service Provider shall provide evidence of insurance coverage as specified by ABC Corporation prior to award of contract.

I. The Service Provider should provide an optional annual service contract to maintain updated one-line diagrams and analysis reports. Any modifications to the power distribution system, including modifications based on recommendations from the original analysis, should be integrated into collected equipment data and analysis calculations. The cost of updating the analysis and printing new labels should be addressed in the annual service contract.

IX. contact information

All inquiries should be directed to:

Mike Smith

Position Title

ABC Corporation

123 Main Street

Dallas, TX 75237

877-594-3156

mike@



X. company information

ABC Corporation is a global widgets provider. Insert brief company description here.

EXHIBIT I SUBJECT FACILITIES

Facility 1

|Location Name | |

|Street Address | |

|City, ST, Zip | |

|Type of Facility | |

|Plant Manager | |

Facility 2

|Location Name | |

|Street Address | |

|City, ST, Zip | |

|Type of Facility | |

|Plant Manager | |

Facility 3

|Location Name | |

|Street Address | |

|City, ST, Zip | |

|Type of Facility | |

|Plant Manager | |

Facility 4

|Location Name | |

|Street Address | |

|City, ST, Zip | |

|Type of Facility | |

|Plant Manager | |

EXHIBIT II Electrical Equipment Data

|Facility 1: |Contact: |

|1. How many three phase transformers do you have with a 480 volt secondary rating? What is the kva size of each transformer? |

| |

|2. How many three phase transformers do you have with a 208 volt secondary rating? What is the kva size of each transformer? |

| |

|3. How many three phase 480 volt panelboards, switchboards, etc. do you have? On average, how many three phase breakers are in |

|them? Do not include spares |

| |

|4. How many three phase 208 volt panelboards, switchboards, etc. do you have? On average, how many three phase breakers are in |

|them? Do not include spares. |

| |

|5. How many motor control centers do you have? |

| |

|6. How many buckets do you have in the motor control centers? Do not include spares. |

| |

|7. How many three phase bus ducts do you have? |

| |

|8. How many bus plugs do you have in the bus ducts? |

| |

|9. How many capacitors do you have? |

| |

|Facility 2: |Contact: |

|1. How many three phase transformers do you have with a 480 volt secondary rating? What is the kva size of each transformer? |

| |

|2. How many three phase transformers do you have with a 208 volt secondary rating? What is the kva size of each transformer? |

| |

|3. How many three phase 480 volt panelboards, switchboards, etc. do you have? On average, how many three phase breakers are in |

|them? Do not include spares |

| |

|4. How many three phase 208 volt panelboards, switchboards, etc. do you have? On average, how many three phase breakers are in |

|them? Do not include spares. |

| |

|5. How many motor control centers do you have? |

| |

|6. How many buckets do you have in the motor control centers? Do not include spares. |

| |

|7. How many three phase bus ducts do you have? |

| |

|8. How many bus plugs do you have in the bus ducts? |

| |

|9. How many capacitors do you have? |

| |

|Facility 3: |Contact: |

|1. How many three phase transformers do you have with a 480 volt secondary rating? What is the kva size of each transformer? |

| |

|2. How many three phase transformers do you have with a 208 volt secondary rating? What is the kva size of each transformer? |

| |

|3. How many three phase 480 volt panelboards, switchboards, etc. do you have? On average, how many three phase breakers are in |

|them? Do not include spares |

| |

|4. How many three phase 208 volt panelboards, switchboards, etc. do you have? On average, how many three phase breakers are in |

|them? Do not include spares. |

| |

|5. How many motor control centers do you have? |

| |

|6. How many buckets do you have in the motor control centers? Do not include spares. |

| |

|7. How many three phase bus ducts do you have? |

| |

|8. How many bus plugs do you have in the bus ducts? |

| |

|9. How many capacitors do you have? |

| |

|Facility 4: |Contact: |

|1. How many three phase transformers do you have with a 480 volt secondary rating? What is the kva size of each transformer? |

| |

|2. How many three phase transformers do you have with a 208 volt secondary rating? What is the kva size of each transformer? |

| |

|3. How many three phase 480 volt panelboards, switchboards, etc. do you have? On average, how many three phase breakers are in |

|them? Do not include spares |

| |

|4. How many three phase 208 volt panelboards, switchboards, etc. do you have? On average, how many three phase breakers are in |

|them? Do not include spares. |

| |

|5. How many motor control centers do you have? |

| |

|6. How many buckets do you have in the motor control centers? Do not include spares. |

| |

|7. How many three phase bus ducts do you have? |

| |

|8. How many bus plugs do you have in the bus ducts? |

| |

|9. How many capacitors do you have? |

| |

‡ Working distances are defined by IEEE 1584, Table 3 based upon the operating voltage of the equipment up to 15 kV.

Page 14 of 14

Courtesy of the Electrical Engineering Division of AVO Training Institute, Inc.

EED Ï% 214.331.7318 Ï% 4271 Bronze Way Dal15 kV.

-----------------------

Request for proposals

for an

Arc flash hazard analysis

RFP No. 1234

ABC Corporation

123 Main Street

Dallas, TX 75237

Proposࠀࠁࠤࠥ࠰࠱ࡄࡎ࡙ࡨࡼࢆࣁࣄࣇࣈ࣎ࣕ࣡࣢ࣱࣲࣦࣶࣿंटढऽ쿡냁낟낎肎澎潡潡潡憰憰躰龰齐ᔠ瑨䨳ᘀɨ쐩䌀ᙊ伀͊儀͊帀͊愀ᙊᘚ⵨元䌀ᙊ伀͊儀͊帀͊愀ᙊᔠ⵨元ᘀ⵨元䌀ᙊ伀al Due

Date: Month Day, Year, 1600 CST

Location: 456 Main Street, Dallas, TX 75237

Attention: Mike Smith

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