J. Keith Chandler

Mechanical Engineer/ Project Engineer

**** **** **** *****, ***** 77586

P: 713-***-**** / E: admu8q@r.postjobfree.com

SUMMARY

Dedicated, professional with over 30 years of experience in piping design to mechanical engineering spanning across many sectors of the engineering industry with tested and proven capabilities in managing successful million dollar projects across oil and gas refinery to petrochemical industries; Upstream, Midstream and Downstream. Demonstrates a strong aptitude toward process engineering, estimating, scheduling, and on-site inspections as well as establishing and maintaining productive working relationships among team members and clients to provide innovative solutions.

Primary Experience: These are requirements for some or all project listed below in Project Experience:

Understand and provide oversight construction management for large vessel installations.

Experience in running and implementing refinery technology across planning, scheduling, turnaround, maintenance, reliability and engineering with other team members spanning technical and functional resources.

Hands on configuration experience in key refining and chemical manufacturing applications.

Deep understanding of refinery business process and ability to translate to required technical solutions as needed.

Evaluate and make recommendations/decisions on technical options as appropriate.

Develop and maintain project and resource plans for business solution implementations, enhancements, and upgrades.

Engage stakeholders to ensure that expectations are managed and continue to be aligned with business needs.

Prepare and maintain project quality and risk plans and tracking progress aligned with approved construction documents.

Provide regular progress reports to the Customer and steering groups as appropriate.

Meet milestones and related effort/time commitments for assigned deliverables.

Owns responsibility for project's actions and communications to Project Sponsors and IT governance committee(s) for accomplishment of project's objectives.

Completes project and its deliverables within the defined constraints of time, cost and quality.

Provide mechanical engineering support to the assigned packages in terms of calculations, document reviews, technical query management.

Actively work with other technical functions.

Work with subcontractors/vendor activities, including: inspections, review of design changes, monitoring progress, and reviewing as-built data.

Ensure adequate shipping / packaging / load-out for transportation to final destination. Interface with logistics team for the collection, transport and receipt of all product to final destination, including the report of all delays / technical issues / discrepancies to project and advise/recommend remedial solutions.

Ensure active adherence to and promotion of company HSES & quality policies and procedures including but not limited to design and operations review meetings (i.e. Constructability, HIRA (Hazard Identification and Risk Analysis, and Lessons Learned).

responsible for planning, leading, organizing and coordinating all aspects of project work from bid process through completion of project.

Ensure project is completed in a safe manner according to the job procedure plan as well as the safety execution plan.

Ensure appropriate/reliable equipment and fully trained personnel are on site.

Supports customers during the implementation of contracts and throughout the relationship; seeking customer feedback; taking responsibility for customer satisfaction and/or loyalty.

Upstream, Mid-Stream, Downstream

Piping Design, Field Walkdowns, Piping stress Analysis, Construction Management, Scheduling, Estimating, Field Verification, Design

Secondary Experience:

Architectural, Civil

MISSION DIRECTIVES

Project Engineering and Development

Directed and coordinated daily operational aspects of project life-cycle development and successful delivery of simultaneous large-scale, mission-critical projects within budget and time constraints

Ensured that construction projects were executed and completed in compliance with construction codes, regulations, safety standards, contract documents, budgets, and schedules.

Conducted on-site visit to discuss and resolve matters such as work procedures, complaints, and construction problems

Verify that all equipment are undergoing preservation by following correct preventive maintenance procedures outlined in the API specifications.

Business Management and Operations

Displayed leadership, vision, and expertise on oil refinery or offshore projects

Evaluated product cost estimates for construction projects to determine price, aid in bidding, and to decide which is more cost-effective to purchase.

Attentively managed all areas of projects which include launching, coordination meetings, project drawing reviews, scheduling, vendor estimates and construction.

Primarily held responsible for equipment delivery to mobilization and installation of equipment

Built and cultivated long-term quality relationships with clients to provide total satisfaction as well as to generate referrals and repeat business

Carried out site preparation, mechanical engineering, structural engineering, and electrical engineering support

Training and Supervision

Spearheaded staff, prepared work schedules, and assigned specific duties to ensure efficiency and productivity

Regularly convened with senior management to solve engineering and construction issues escalated during equipment installation

Established and maintained positive working attitude with fellow engineers, clients, and specialized support services to foster team unity toward achievement of goals and objectives

PROJECT EXPERIENCE

Project Engineer (Contract)

DSM Nutritional Products, Freeport Texas 8/5/2019 to 10/18/2019

(Piping Codes usded: B31.1, B31.3)

C10 Vent Piping Modifications

Cooling Tower Booster Pump Upgrade

New MCC Building Construction

This project will end much earlier than planned due to DSM 2020 budget year future forecasting causing 2020 Budget reduction and eliminating my current position currently planned to end 10/18/2019 with a slight possibility of a few additional weeks of work that has not yet been confirmed.

Project Engineer

LCY Elastomers (4/20/18 to 6/21/2019)

Boiler Feed Water Upgrade (Project Codes used: ASME B31.1 & B31.3)

The existing Boiler Feed Water pumps have a long history of cavitation due to incorrect piping 6and pump type.

To correct the Boiler Feed Water system, the entire piping system was demolished and new piping system installed which also included installing 3 new vertical multistage pumps. Due to the low static head conditions, the vertical multistage pumps were selected for replacement of the existing centrifugal pumps. Because there is only one BFW system this project could not be fully implemented until the planned 2019 plant outage. The piping system was prefabricated before installation and the pumps were pre-installed 2 week before the outage started.

The project was completed and start-up without incident.

Butadiene Pipeline Modification from neighboring Company Provider (Project Codes used : ASME B31.8AS)

49 CFR Part 195, Transportation of Hazardous Liquids by pipeline, min. federal standards

DOT Title 49, Transportation of Hazardous Liquids by pipeline, min. federal standards

Installation of new pipeline from neighboring BD provider.

Installation of new pump system for new piping system.

Boiler Deaerator/Deaerator Storage Tank Replacement Project

(Project Codes used: API 510 Pressure Vessel Inspection Code:

In-Service Inspection, Rating, Repair, and Alteration

ASME American Society of Mechanical Engineers

ASME BPVC, Section-II Section II, Materials

ASME BPVC, Section-V Section V, Non-Destructive Examination

ASME BPVC, Section-VIII, Div. 1 Section VIII, Rules for Construction of Pressure Vessels,

ASME BPVC, Section-V Section V, Non-Destructive Examination

ASME BPVC, Section-VIII, Div. 1 Section VIII, Rules for Construction of Pressure Vessels,

The existing Boiler Deaerator was at end of life and was not capable of maintaining the existing Deaerator storage tank with water to feed the boiler feed water system. The existing Deaerator storage tank was also at end of life. The replacement deaerator was fabricated with the exception of being fabricated larger in diameter. The replacement deaerator storage tank was an in-kind replacement.

Disco Strainer/ Side Hill Screen Installation Project

(Projects Codes used: ASME B31.3 Process Pipe)

The existing disco strainer is used to separate rubber fines from entering the wastewater storage tank, the existing issue was that the disco strainer was not separating the rubber particulate properly causing the particulate to fill the existing waste water tank. This in turn caused unscheduled downtime to remove rubber fines from the wastewater storage tank. The new Side Hill Screen works by allowing the water to flow thru a mesh screen with the rubber sliding down a dedicated chute where the rubber flows into the hot water tank where it is properly treated. 3D elbows and 8” SS piping was installed for the new side hill screen.

Front Divertor Hood Replacement (Project Codes Used 304SS)

The exhaust hood system is required to capture and remove chloride vapors that are released after leaving the expellers.

The existing expeller hoods were redesigned with new modifications and fabricated and are working as planned.

2019 Turnaround Manager

Coordinated all projects during 3 week outage during construction.

Project Development Summary:

Scheduling, Cost estimation/ analysis, Vendor engineering review, Mechanical Piping & exhaust duct system Design.

Project Manager (Contract)

INEOS BMC La Porte Texas (4/30/2017 to 10/20/2017)

N2-17042, DP PP B102P Boiler Re-tube

(Piping Codes used: ASME Section VIII, Division I Pressure Vessel Code)

(ASME B31.1, for power boilers and high temperature, high pressure, water boilers)

(API-510 Pressure Vessel Inspection Code: Maintenance, Inspection, Rating, Repair, Alteration)

(API510 In-Service Inspection, Rating, Repair, and Alteration)

The PP (Polypropylene) B102) Boiler supplies 100% of the saturated steam used throughout the PE (Polyethylene) unit, PP unit

and the new Gemini unit that is just come on- line. Earlier this year this boiler incurred an explosion due to tube failure in the firebox of the boiler. A rental boiler was brought in while a solution was developed. The reason for expediting this project was found that Texas state law only allows a rental boiler to be employed for no longer that 1 year of rental service requiring a new boiler be installed or repaired before a year of time following the boiler going offline. The boiler rental cost has become prohibitively expensive during the outage and is not cost effective the decision to re-tube the existing boiler was made. The TIC was $1,500,000 to retube the existing boiler. this package is due to be completed by mid December 2017.

N2-16049, BMC Video Surveillance System Upgrade (E1554.124)

The existing camera surveillance system has reached end of life and requires replacing.

The scope of work will include a Fluid Mesh wireless network for camera to server. A server capable of recording 30 days of video.

Remove existing out of date camera system and replace with (78) state of the art upgradable cameras that will be installed around the perimeter of BMC complex. The project will be developed by (3) contractors, CERK will provide the camera head end, wireless network

and camera package which includes purchasing the 78 cameras, S&B constructors will develop the electrical power supply engineering package and Zachry will install the new conduct, transformers etc. from the S&B engineering package. This project is due to be completed by February 2018.

N2-17033, PP Warehouse Roof Replacement

N2-16030, IPE Long Bolt Fire Protection (E1829) (2020 TAR Project)

N2-17005, DP PE West TACB Improvements

N2-16063, DP PE R-702 SIS R702 Compressor SIS (C839, C840, C841) (2020 TAR Project)

(Piping Codes used: (API-510 Pressure Vessel Inspection Code: Maintenance, Inspection, Rating, Repair, Alteration)

(API-11P Reciprocating Compressors)

Project Manager

Gulfex Holdings Limited, South Houston Texas (1/20/2017 to 4/4/2017)

Pressure Vessel Fabrication Company

Pressure Vessel projects

Juniper/ RDS: V0002 & V0004 Condensate Drums

( Piping Codes used: ASME Section VIII, Division I Pressure Vessel Code)

Current status of project:

This project is currently in fabrication

Wood Group/ Leviathan: 3207 thru 3212, 3213 thru 3217, 3221 thru 3224 High Pressure Separators, 5.5" thick Shell.

( Piping Codes used: ASME Section VIII, Division I Pressure Vessel Code)

(MR-01-75/ISO 15156-3, Materials for use in H2S containing environments in oil and gas production, lists materials which exhibit resistance to sulfide stress cracking.)

Current status of project:

Shell material, heads, (internals by Schlumberger/Cameron, Denmark) and nozzles are purchased with delivery of the shell material due beginning in May 2017, Fabrication to start in July 2017.

Koch, Corpus Christi, Texas:

Partial shell replacement and nozzles for existing reactor vessel. the shell was installed in field by client.

Current status of project:

(Piping Codes used: ASME Section VIII, Division I Pressure Vessel Code)

API510 In-Service Inspection, Rating, Repair, and Alteration)

Project fabrication completed and delivered to client

Marathon, Texas City Texas:

Partial shell replacement and nozzles for existing reactor vessel. the shell was installed in field by client.

Current status of project:

Project fabrication completed and delivered to client

Project Manager Roles:

Project Manager Roles and Responsibilities:

Manage cost, schedule, Lead projects with internal or external Engineering, Procurement, and Construction scopes.

Quality control – Work to ensure that contractors and suppliers deliver, in accordance with approved plans, specifications and standards of performance; establish testing and inspection procedures for quality control of all construction activities and technical systems. Provide guidance to the Construction Manager or Contractor to assure Q/C requirements are met on all projects. contractors to deliver the project safely, on budget, and on schedule. Work with Procurement to develop contracting strategy.

Lead projects with internal or external Engineering, Procurement, and Construction scopes. Interface with primary contractors to deliver the Procurement – with assistance from purchasing department develop accurate bid documentation, conduct consultant, contractor and supplier screening, conduct technical and commercial bid evaluations on services and materials. The project safely, on budget, and on schedule. Work with Procurement to develop contracting strategy.

Procurement of equipment material using Microsoft Project, Jet report, and Nav.

Manage from vessel design thru fabrication, procurement, material receiving, oversee plate rolling, NDE testing, hydrostatic testing of vessels after fabrication, consultation with QC thru completion of fabrication.

Project Engineer

SteLar Consulting Services, Houston Texas (Part Time: October, 2016 thru December 2016)

(Piping Codes used: ASTM F1155, ASME BPVC, Section-V Section V, Non-Destructive Examination

ASME BPVC, Section-VIII, Div. 1 Section VIII, Rules for Construction of Pressure Vessels, ASME B31.1, for power boilers and high temperature, high pressure, ASME B31.3, Chemical plant and Petroleum refinery piping. 49 CFR Part 192, Transportation of Natural and other Gas by pipeline, min. federal standards

CFR Part 193, Liquefied Natural Gas Facilities, Federal Safety Standards

49 CFR Part 195, Transportation of Hazardous Liquids by pipeline, min. federal standards

DOT Title 49, Transportation of Hazardous Liquids by pipeline, min. federal standards

NACE MR0175 ISO 156-3, Petroleum and Natural Gas Industries, Materials for use in H2S containing environments in Oil & Gas Production.

Note: This was a part time position only

Moore Road Crude Oil Storage Tank-farm (Mid Stream)

Note: The status of the projects listed below range from scope development to AFE Development into construction.

Tank farm layout for potential storage tank farm containing four (4) 300,000 bbl crude oil storage tanks

Prover loop layout

16" Piping distribution layout

Liquid Flow Metering Station

Containment berm area design for (4) 200ft dia. storage tanks

Crude oil pig launcher layout

Houston Fuel Oil Terminal Company 5-SD Project (mid Stream)

Reviewed and revised P&ID drawing package for IFC release

Reviewed and revised civil drawing package for IFC release

Reviewed and revised structural drawing package for IFC release

Reviewed and revised piping drawing package for IFC release

Reviewed and revised equipment drawing package for IFC release

Equipment Used:

Equipment involved for projects:

Prover Loop

600 H.P. Can Pumps

Metering Station

36" Pig Launcher

24" Pig Launcher

16" Crude piping

Crude Oil Flush Piping

Strip Suction Piping

Air Receiver

Air Compressor

Liquid N2 Vaporizers

Diesel Engine

Sloop Oil Collection Tank

Project Manager /Lead engineer /Construction Coordinator: (Contract: 1/2015-to 12/2015)

Albemarle Corporation, La Porte, Texas

(Piping Codes used: SME B31.1, ASME B31.3, API 653, ASME Section VIII, Div.1)

See below projects ranging from $50,000 to $2,000,000.

Sulfuric Acid Block Valve Access Platform

Construction Coordination of IFC projects for my projects as well as other project engineers.

ZSM5 Reactor Project

VESPA Pump Replacement Project

HPC-N Roof Repair

HPC-S Packout

Saint Infrastructure Revamp

HPC Warehouse Roof Replacement

Vespa Compressor Replacement

Sulfuric Access Platform Project

Project Engineer/Manager, (Contract: 6/2014-to 11/2014)

Holly Frontier Refinery, Tulsa, Oklahoma

(Piping Codes used: ASME B31.1, ASME B31.3, TEMA, API 653, ASME Section VIII, Div.1)

See below a few of the 18 projects ranging from $250,000 to $900,000.

Install Primary Net Gas Chloride Treater

HOG: New Wax LTD Scale

Service Water Supply to Pump Cooling

Alky East, Propane Tank Gauges

D-3 Water Draining (H2S Remediation)

Replace PDA Charge Meters

Lead Project Engineer/Manager, (Contract: 6/2013-2/2014)

Westlake Petro Chemical, Sulphur, Louisiana

Petro 1 Unit Expansion Project

(Piping Codes used: ASME B31.1, ASME B31.3, TEMA, API 653, ASME Section VIII, Div.1)

Lead for Petro 1 Ethylene Expansion Project that would increase output from 1.9 to 2.3 MMPPD Ethylene output and estimated to cost over $300,000,000.

Prior to Pre-Project expansion approval, I developed small projects that would be installed during the scheduled 4th Quarter 2015 Petro-1 Unit T/A. Project cost was from $250,000 to $2,000,000 which included scope development, cost, scheduling to IFC. If expansion executed, would occur during planned 2015 T/A, however project was downsized due to extreme cost

Project Manager, (Contract: 2/2013-5/2013)

Burrow Global, Beaumont, Texas

TPI (Texas Petro Chemical) Group, Port Neches, Texas

(Piping Codes used: ASME B31.1, ASME B31.3, API 653, ASME Section VIII, Div.1)

Project Manager for in plant SIS/LOPA (Safety Instrumented System/ Level of Protection Analysis)

$6,000,000 project to bring non-compliant equipment and control systems up to federally mandated safety regulations by the installation or modification of existing control systems

Project Manager/Project Engineer, (Contract: 2/2012-12/2012)

BHP Engineering, Corpus Christi, Texas

Valero Refinery, Three Rivers, Texas

(Piping Codes used: ASME B31.1, ASME B31.3, TEMA, API-510, API 653, NACE MR0175 ISO 156-3, API-11P

API-617, ASME Section VIII, Div.1)

Eagle Ford No.1 Crude Heater Modifications Project

Upgrade of the Crude Heater by replacement and modification of 24" crude feed piping

Installed new 24" Rotork Actuated control valve

Designed and built new access platform to the 24" Rotork control valve

Worked with Civil contractor for design of new concrete foundation for new platform

Developed I/E package for control tie-ins and instrument Panel Box design

Tie-in Conduit for DCS control back to control room

Designed and fabricated new 8" piping system for decoking crude heater during T/A

Worked with structural contractor and assisted in development of platform design requirements

Worked with Civil contractor to develop foundation requirements for new platform

Worked with I/E contractor to develop construction package required for control of new isolation valve

Worked with procurement department for purchase and delivery aspects of new 24" Rotork valve package

Greatly enhanced the way the crude was controlled and isolated in an emergency

Access was improved to all levels of the Crude Heater by the new platform installation

Corrosion issue was corrected by implementation of new 24" piping

Project Manager/Project Engineer (Contract: 1/2011-1/2012)

Mustang Engineering, Houston Texas

Celanese Americas Corporation, Bishop, Texas

(Piping Codes used: ASME B31.1, ASME B31.3, TEMA, API 653, NACE MR0175 ISO 156-3, ASME Section VIII, Div.1)

The Celanese Bishop Facility is located 35 miles south of Corpus Christi, Texas; established in 1945 Manufactures formaldehyde, paraformaldehyde, 1,3-butylene glycol, trimethylolpropane, formcels, and sodium formate. sodium formate, acetyl copolymer & nylon resin, thermoplastic polyester, butyl acetates 1 3-butylene, glycol butyl formcel Polybutylene Terepthalate PBT, Polycarbonate PC, Polyetheretherketone PEEK, Polyethersulfone PES, High Density Polyethylene HDPE

MO-III Cooling CT-107 & CT-107A Cooling Tower Rebuild $1,370,000

Demolish and rebuild two cooling towers with material and man power provided by MasterTech technology, which is a company located in Golden Colorado. Each cell will has flow rate design of 12,000 GPM with a hot water operating temperature of 111 degree F and cold water operating temperature of 91 degree F.

Electrical work disconnects from an adjacent vertical pump on the other tower will be used to power a 250 H.P. 12,000 gallon per minute pump rented from Aggreko at a cost of $12,500 per month which will pump water from the CT-107A basin of tower completed. Replaced MO4 Cooling Tower Side Stream Filter, MS-670 $350,000

The existing sand filter system MS-670 was purchased on July 1, 1969. It is a Graver Mono-Scour gravity flow open top sand filter model number NS-13-1. This filter has an existing design filter rate of 625 GPM at 4.8 GPM per sq. ft. The existing filter vessel was constructed of carbon steel with the exception of the strainers which are stainless steel; designed to be efficient for high turbidity loads and sticky particles. The water filtered is received from the fresh water reservoir located inside the Celanese facility. This water is pumped via pipeline from the Nueces River located in nearby Calallen, Texas.

Since the filter began operation in the late 1960’s this sand filter has had numerous down times due to the need for repair because of corrosion, weld repairs, coating failure, barrier padding problems between filter and foundation, pitting, shell leaks etc.

The Methanol Oxidation IV Unit has seen diminished heat transfer in the recycle coolers on the absorber system. The reduced heat transfer limits unit production due to increased base pressure in the primary absorber. Additionally, the shell side deposition in these coolers has required cleaning during unit outages delaying startup. The objective of this project is to provide clean reliable cooling water to the MO-IV unit by replacing the sand filter that has reached end of life.

The design of the 13’-0” dia. x17’-3” high MO-IV Graver Mono-scour side stream sand filter is in progress and is scheduled for delivery from a fabrication shop located in Georgia. The piping fabrications and modifications will begin this month Early February is the scheduled completion date and start-up date.

Worked with operations to develop project parameters.

Located and find vendor to replace in-kind New Sand Filter and related equipment.

Developed schedule for delivery date requirements.

Worked with Sand Filter vendor to insure design/ engineering requirements meet Celanese standards.

Worked with I/E group to install a DCS system that would run back to the Unit control room for monitoring of water inflow to filter and outflow to cooling Tower.

Worked with structural for new pedestal design for which the sand filter would be placed.

Worked with in-house piping department for planned demolition and new piping to be installed.

This project corrected the issue of water turbidity going to the cooling Water Tower and corrected the problem of sedimentation collection in the process equipment that could damage the process equipment and heat transfer issues.

GUR Catalyst Area Piping Reconfiguration $130,000

Catalyst piping configuration uses the catalyst dump header to transfer catalyst from the MH or THB Storage to the Versatile Storage vessel and vice versa. This design has caused potential problems due to catalyst residues always present in the dump header piping. GUR primarily uses two different catalysts, MH and THB, to produce GUR product. In 2004 the Versatile Catalyst Vessel and its related piping, was installed to hold different catalyst types used in product trials. These catalysts are incompatible with each other. The equipment and process lines must be cleaned thoroughly to prevent cross contamination between batch runs. Catalyst contamination greatly impacts the quality of GUR product.

Proposed Facilities:

This project will connect the outlet piping on the catalyst storage vessels to the same piping used by the reactors. These piping tie-ins will allow the redirection of the product to by-pass the dump header. Installation of new piping to connect the bottom of each the THB and MH Storage Vessels to the bottom of their respective reactors would allow catalyst to be transferred from these storage vessels to the Versatile Storage Vessel without using the dump header to eliminate the cross contamination of the two products, and by placing block valves at most branches would eliminate dead-legs and still allow transfers between the catalyst reactors and storage vessels. A ram seal valve on the bottom of the THB reactor will eliminate nozzle plugging and relocation of THB sample valves will eliminate the need for scaffolding to sample every batch. This project was accomplished during a scheduled 3 week Unit Shutdown.

Sr. Project Engineer, (Contract: 5/2009 – 12/2010)

DCCK Engineering, Inc., Bakersfield, California (Mid Stream)

(Piping Codes used: ASME B31.1, ASME B31.3, TEMA, API 653, NACE MR0175 ISO 156-3, ASME Section VIII, Div.1)

Small engineering and fabrication company located in San Joaquin Valley in Southern California geared to assist in nearby oil companies in recovering oil trapped in oil bearing sands (diatomaceous earth) located several thousand feet below ground level where oil is extracted using steam that is pumped at high pressure developed by steam generators, deep into the soil strata where the diatomaceous earth is located; driving the oil upward where it can be pumped out. Below are projects incorporating these technologies.

Played a central role in developing and managing the following projects from preliminary design to completion:

Equipment involved for projects:

Steam Generators

Reciprocating compressors

Centrifugal Compressors

High Pressure Separators

Heat Exchangers

Fired Heaters

Distillation Reflux Towers

Pig launchers

Dehydration units

Oil Water Skimmers

Horizontal 3 phase oil gas separators

Vertical Separators

Horizontal Heater Treaters

Produced Water Treating Systems

Centrifugal Pumps

Reciprocating Pumps

Rotary Pumps

Vertical Can Pumps

AERA Energy, LLC Lots 2944 (Light Oil Testing Station) Diatomite Thermal Recovery Spill Reduction Program upgrade. Hogs-C Heavy Oil Gathering System

AERA Energy, Hogs-D Heavy Oil Gathering System Line By-Pass Project

AERA Energy, DSD Steam Separator V-701 Liquids Piping Upgrade

Berry Petroleum, Poso Creek, California

Berry Petroleum, Poso Creek Field Process Water Handling Facility

NMWSS Steam Plant Backbone Studies stress analysis

2009 Pan Water Plant

Project Engineer - Manager, (Contract: 11/2008-3/2009)

Universal Personnel, New Orleans, LA

ConocoPhillips Alliance Refinery, Belle Chasse, LA

(Piping Codes used: ASME B31.1, ASME B31.3, TEMA, API 653, NACE MR0175 ISO 156-3, ASME Section VIII, Div.1)

Played vital role in developing and managing entire life cycle of the following projects:

C-1818 Replace 1391 Reformer Catalyst Samplers: Sizing and selection of new catalyst Samplers thru installation due to existing catalyst sampler failure resulting from plugging up of samplers. 2008 Turn-around $357,000

C-1714, Reformer V-4 Product Separator Demister Upgrade (2008 T.A.): Scrubber Mesh Pad Re-size and design Modifications to existing vessel for fit-up and new interior support ring and pad installation. $889,000

C-1899 T-8 Polysulfide Tank Replacement: Design & sizing of new stainless steel vessel due to corrosion of properties of product, follow up with vendor thru construction to installation. $450,000

C-1817 1791 V-1 Overhead Pressure Control and DCS to Operations: Design Modifications to existing PSV in lieu of replacement thru installation and new piping installation $780,000

Low Sulfur Gasoline 294-L-3A&B Pump discharge Piping Modifications for Stress: Modification of 18”piping system to reduce stress on pump nozzles and eliminate seal failure $510,000

Low Sulfur Gasoline 294-L-4A&B Pump discharge Piping Modifications

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