PHILLIP ROBERT S. GARIN

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Objective:

I am seeking for a senior level mechanical engineering position, where education and experience based competence is needed.

Summary of Qualifications:

23 years experience in the field of Mechanical Engineering covering Project Management for Engineering, Design and Construction of Oil and Gas (Offshore and Onshore) Processing Plants and Facilities, Petrochemical Plants, Power Plants (Open Cycle, Co-Generation and Combined Cycle Power Plants), International Airport, Industrial Plants and Commercial Facilities as well as a Lecturer in the College of Engineering.

Job Related Qualifications:

Mr. Garin have strong analytical, interpersonal, organizational, problem solving skills and computer literate. Mr. Garin have established a reputation for being organized team player, good motivator of others, detailed oriented person and with an excellent verbal and communications skills. Mr. Garin is capable of handling tasks having some degree of complexity and ability to manage priorities, drive solutions and deliver on commitments to schedule and this is due to his strong time management skills. He is capable of directing a well disciplined engineering organization that can accept the challenge of bringing business plans into functioning profit modes. He work best in competitive environment.

Background:

System for Power Stations, HEI, NACE, AWS, AWWA, ASTM, CEMA, CMAA, ASHRAE, SMACNA, AMCA, ISA, NFPA, NPC, NBC, OSHA, SASO, ETC., and Company Standards such as Fluor Daniel, Bechtel, ABB Lummus, Aramco, Shell, Esso, Total, CMS Energy and Tenaga National (TNB).

Power Plant Experience:

(PWR1, PWR2, PWR3).

PWR1: Projects undertaken with CMS International Operating Company.

330 MW Takoradi Combined Cycle Power Plant (T2)- Phase 1&2.

Prepared specifically the following for the above plant:

• Operating Procedures and Test Procedures covering the Mechanical, Electrical, Instrument Systems and its component. The over-all plant operating procedures also includes the system start-up pre- requisites, auto start sequence diagram, system parameters and safety precautions and indications.
• Mechanical and Electrical Safety Procedures covering Permit to Work, Confined Space, Safety Clearance Procedure (Lockout/Tagout), High Voltage (H.V.) Switching Procedure, Dispatch Procedure, Plant Safety System and Guidelines, Work on Live Apparatus, etc.
• Plant Security Procedures covering Emergency Response Plan and Emergency Contingency Preparations, etc.
• Procurement Procedures.
• Plant Identification System (KKS) for Plant Operating Procedures application.
• Maintenance Philosophy, Planned Maintenance Schedule and Management including the definition of Master Work Orders. This also includes acquisition of information from the design and construct stages of the CMSI Thermal Power Plant T2 project that can be used within an asset register.

1. Identify Items to be Maintained.
2. Group Items as Assets.
3. Identify Sub Assets and Component Parts.
4. Identify Location of Assets.
5. Identify Asset Maintenance Data.

• Guidelines for T2 plant scheduling maintenance and testing of the mechanical systems consisting of normal diagnostic procedures, performance tests, repairs, and equipment upgrades.

PWR2: Projects undertaken with Projass Engineering Berhad.

Provide technical expertise, design capabilities and technical support on all technical issues relating to the development of the facility and during filing preparation with the Department of the Environment. Performed thermodynamic performance optimization studies in selection of plant configurations. Reviewed and approved key design and procurement documents including drawings, calculations, material requisitions. Reviewed and interpreted bid specifications and prepared award recommendations. Also prepared heat balances, test philosophies and performance corrections, equipment functional descriptions and systems descriptions in support of Projass Engineering proposal activities. Participated in process improvement documentation and implementation activities related to Projass Engineering proposal and requisition. Lead engineering efforts for the Projass Engineering. Participated in the review meetings with client and management, to properly check progress and coordinate the work.

Two Power Plants each of 20 MW Open Cycle.

• Responsible in the detailed engineering and total construction management for two 20 MW Open Cycle Power Plants. My duty is to produced a system design that meets all federal, states and local codes, standards, environmental and safety regulations.
• Wrote the commissioning and start-up procedures and the overall/integrated Plant Operating and Maintenance Procedures and act as a Lead Trainer.
• Responsible in planning, developing and conducting a training program for IPP plant personnel that will operate and maintain the power station equipment. The plant personnel consist of managers, engineers, operators, and maintenance technicians. Responsible in walkdown and field verification of Piping and Instrumentation Diagrams (P&IDs).
• Supported the field start-up team and participated in the facility acceptance procedures and closes out the field files at the end of the job.
• Planned, managed and conducted a training program for the plant personnel that will operate and maintain the power station equipment. The plant personnel that the training plans have been established for consist of managers, engineers, operators, and maintenance technicians.
• Lead the field supervision and provide vendor participation, did field inspection and testing of Balance of Plant, and ensure compliance with standards. Executed the test, verified and documented that the system/equipment and utilities is designed and built to fulfill its purpose and specified requirements and operate in a safe, reliable, and consistent manner.
• During Construction and initial operation of the power plant, the following methods of training are implemented:
• Scheduled classroom instruction provided by Mr. Garin and various equipment suppliers representative.
• Training through observation of construction and installation of equipment.
• Training by participation in pre-operational equipment checks and testing.
• Training by participation during equipment and system start up and trials.
• Classroom training using plant specific system description and drawing.

24.3 MW Cogeneration Plant.

• Responsible in the conceptual study of the proposed 24.3 MW Cogeneration Plant designed to meet the average annual thermal energy requirements of the Financial Center Area. The prime movers in the cogeneration system are four (4) dual-fuelled, internal combustion engines.

330 MW, Combined Cycle Power Plant.

• Served as a Snr. Trainer, Warranty Engineer and Writer of Integrated Plant Operating and Maintenance Procedures for the above Power Plant.
• Responsible in walkdown and field verification of Piping and Instrumentation Diagrams (P&IDs).
• Responsible in the development of a training program for plant operation and maintenance personnels. Gave a series of classroom instructions and work site practical training to acquaint client personnel how to efficiently operate and maintain a power plant.
• Operations personnel participants are trained to do the following: Pre-operational checks, permissive to start and operational checks. Properly start-up the plants. Operate the plants under normal condition or emergency conditions and response to alarms and emergencies. To put part of the system in stand-by condition. Synchronizing. Loading. Shutdown and Cool Down. Partial Plant Operation. Peak Operation. Emergency Operating Procedures. Plant Lay-up.
• Maintenance personnel participants are trained in the following areas: equipment component's; overview of component's; support system; Discuss scheduled maintenance planning activities covering plant shutdown schedule and work activity including scope of maintenance with equipment, systems, parts and components to be overhauled for inspection, repairs and replacement; Review of the plant facilities covering cranes, rigging equipment, special tools; Plant laydown areas; Equipment and parts repair and work areas, spare parts inventory system; Proper method of data recording; Evaluation of operating data to predict and/or explain equipment conditions.
• Supported the field start-up team and participated in the facility acceptance procedures and closes out the field files at the end of the job.
• Responsible in hydraulic calculations (steady state and transient analysis) and system design of Fire water distribution network (ring mains) and hydrants within the battery limits of the facilities and Automatic Fire Protection System's which covers conventional sprinkler system, deluge system, and carbon dioxide system.

PWR3: Project undertaken with Fluor Daniel Arabia Limited.

500 MW, Combined Cycle Power Plant with MSF Desalination Plant.

Responsible in the following:

• Detailed design and construction management of the Combined Cycle Power Plant whose major equipment includes three gas turbine generators, three forced circulation dual pressure type heat recovery steam generators, One Deaerator, One nominal condensing steam turbine, one air-cooled steam condenser designed for full steam by-passed, Auxiliary Boiler, Start-up Diesel Engine Generator, balance of plant equipment and a Desalination Plant using Multi-Stage-Flash Distillation (MSF). The MSF Desalination Plant consist of the following: Heat input section, heat recovery section and heat rejection section.
• Write-up of the integrated operating and maintenance procedures of the entire plant process.
• Recommendations concerning power generation technologies to improve plant thermal efficiencies in the most cost effective manner.
• Prepare steam system equipment performance specifications and thermodynamic documents in support of combined cycle requisitions.
• Participate in process improvement documentation and implementation activities related to a combined cycle proposal and requisitions.
• Prepared the specifications for the gas turbine (GT), HRSG, steam turbine (ST), power island (PI), and Distillation (MSF).
• Evaluation of GT, HRSG, ST, PI, and MSF bids.
• Development of performance test procedures, including correction curves and measurement uncertainty analysis.
• Equipment Performance Analysis: Steam turbine performance calculations. Gas turbine performance calculations. HRSG efficiency. Cycle heat rate (Btu/kWh) calculations. Overall power plant performance calculations and guarantees, including heat and mass balance diagram and plant efficiency.
• Managed the design-construction interface to insure that the project is built according to the design documents.
• Hydraulic calculations (steady state and transient analysis) and system design of Fire water distribution network (ring mains) and hydrants within the battery limits of the facilities and Automatic Fire Protection System's which covers conventional sprinkler system, deluge system, and carbon dioxide system.
• Coordinated with clients and equipment suppliers.
• Participated in the review meetings with client and management, to properly check progress and coordinate the work.

Assisted the project construction team in the following situation :

• Site performance testing, hydro-static testing, chemical cleaning, air flow and air balance and leak tests on HRSG, steam blows and system flushes, steam bypass test to demonstrate HRSG steam dump to condenser, unit ramp-up from cold or warm shutdown at permissible rate, trip recovery and start up from hot stand-by.
• Start-up, operation and shutdown of the unit and major equipment from the central control room and from local panels and Gas turbine trip at full load.
• Routine operation test to demonstrate automatic operation of standby or redundant equipment or instrumentation while unit is on- line.
• Participated in the facility acceptance procedures and closes out the field files at the end of the job.

Oil and Gas, Petrochemical Experience:

(OGP1, OGP2, OGP3, OGP4, OGP5 and OGP6)

OGP1: Proposal and Final Design (Maintain Potential Projects) with ABB Lummus Alireza Limited Company.

Mr. Garin, is responsible in the supervision of the daily work and activity of senior engineers, engineers and designers assigned to the discipline. Prepares a written report including work items accomplished since the last review meeting, areas of concern and forecast of work to be accomplished during the next week; Prepares the Matrix for comments and stating the disposition of each comment.

Mr. Garin also perform Mechanical Engineering Calculations, Development of the Mechanical Equipment Specifications and Budgetary costs as well as the Technical Bid Evaluation for the following facilities indicated below.

Abu Safah AM (Arab Medium) Producing Facilities:

To meet the objectives of the 2002-2011 Abu Safah Crude Program, new Offshore Crude Gathering Facilities and Onshore Crude Processing Facilities are required to be engineered and built to increase Arabian Medium crude production.

Offshore Crude Gathering Facilities:

• Subsea Production Systems, Electric Submersible Pumps - ESP's, Scraping Facilites, Slops Collection Tank System, Washdown System including Pump, Demulsifier injection skid with sufficient storage and metering pumps, Overhead Bridge Crane, Pedestal Crane, Jib Crane, and Electric Driven Monorail Hoist.

Onshore Crude Processing Facilities:

• Two parallel horizontal split flow, three phase Low Pressure Production Trap (LPPT) and equipped with Three 50% capacity LPPT Water Draw-Off Pumps.


• Crude Heating System consisting of First Stage DRY/WET Heat Exchangers and Second Stage Crude Trim Heat Exchangers.


• Two Spheroid of three phase type and equipped with three 50 % capacity Water Draw-Off Pumps.


• Single Train of three stage Wet Crude Handling (WCH) Facilities.


• Stabilization Facilites with two independent stabilization trains consisting of 12.5 foot stabilization column with three 50% capacity stabilizer bottoms pump on each stabilizer columns with two 100% thermo- siphon steam heated reboilers and with an upstream 20 MBBL spheroid with three 50% Spheroid bottom pumps and downstream Stabilized Crude Coolers (Fin Fan Coolers) capable of cooling 300 MBCD (316 MBOD) of Abu Safah AM crude from 190 degree F to 150 degree F during summer conditions.

Safaniya Trunkline 4 (TL-4) Pipeline.

• Scraper Receivers and Launchers, Chemical Injection Skid, and Jib Crane.

Marjan Offshore Facilities Upgrade Project.

Mr. Garin conducted a site surveys to existing Marjan facilites to verify the necessary information for upgrade and tie-in details.

• Replacement of four submersible pumps with four new submersilbe pumps and one vertical line shaft.


• Conversion of the existing R-12 based Refrigeration system to R134A- based system.


• Replacement of two heat exchanger serving the gas refrigeration system.

OGP2: Project undertaken with PT Gema SemBrown.

Condensate Stabilization Plant.

Managed and directed the activities of a multidiscipline engineering team through project development, detailed design and construction. Developed an authority / responsibility check list to facilitate and keep track of team members. Coordinated overall engineering activities including development of design concepts, scope, and details as leader of the project engineering team. Communicated project details between all members of the interdisciplinary team as required to assure continuity of design and construction. Reviewed and approved work of discipline engineers, and recommended enhancements to systems for improved operability, efficiency and capital cost. Developed and maintained schedules for utilization of engineering team, and ensure completion of all engineering deliverables as scheduled. Developed management plan for the supervision of contractors and tender / bid / contract award processes on behalf of clients. Produced concise periodic reports to communicate project progress and significant issues to project management, corporate line management and to client project management team.

OGP3: Projects undertaken with Technip Geoproduction Sdn. Bhd.

Provide system level technical expertise in the design of a system in order to sustain and/or improve system performance, reliability and safety. Manage resolution of technical issues, including developing project scope, schedule and cost. Perform and check engineering calculations, technical specifications and material requisitions. Provides technical evaluation of bid proposals and make recommendations. Interface with client, project management team, insurance underwriter representative. Reads technical material to enhance skills and knowledge and maintain an understanding of current industry standards.

Condensate Stabilization Plant, Bintulo Crude Oil Terminal, and Polyethylene Plant.

Responsible in the detailed engineering design of HVAC System and Fire Protection System for Blast Proof Control Building. The HVAC system apply's three modes of operation, that is Pressurisation, Depressurisation and Purging. Also responsible in the hydraulic calculations (steady state and transient analysis) and system design of the Fire Fighting System. The fire fighting covers Central Fire Water Pumping Facilities, Fire Water Distribution (Compounded Loops or Network or Fire Water Ring Mains) Systems, Hydrants, Deluge System and Passive System for Exposure Protection, Hose Reel Systems, Dry and Wet Automatic Sprinklers, Fixed Foam Systems including Foam Generators, Carbon Dioxide Systems.

OGP4: Projects undertaken with Sime Engineering Sdn. Bhd.

Generally performs work which involves the preparation, interpretation and review of calculations, technical specifications, system or equipment with relatively complex features. Reviews design drawings for completeness and constructibility. Prepares reports and summaries documenting the mechanical engineering activities. Assist in developing and implementing proposals. Communicate goals, scope, approach and schedules to mechanical team to assure the attainment of the goals set forth by the management.

Floating Production, Storage and Off-loading (FPSO) System and Subsea System.

• Performed preliminary engineering for the FPSO and Subsea system in support of bids by Sime Engineering and Aker Engineering. The FPSO is a modified crude oil-carrying tanker which has an accommodation for a total of 60 persons although the normal operations crew is 38 persons.
• Supervised the joint venture mechanical group in preparing the preliminary sizing and layout of the following: Topside production systems and equipment and Subsea Chemical Injection System.
• On safety side was responsible for the preliminary identification and layout of the following: escape tunnel on the vessel's port side; an open escape route on the starboard side, plus two escape routes from all equipment units. The escape tunnel's do have a pressurised interior and fire-protected exterior.

MLNG DUA Onshore Project and EPMI Seligi-C Offshore Platform Project.

HVAC System (Onshore/Offshore).

• Responsible in the detailed engineering design of HVAC Systems with three modes of operation: Pressurisation, Depressurisation and Purging. The HVAC System are specifically designed for Offshore Platform Control Rooms and Living Quarters; Onshore Blast Proof Essential Buildings that is Control Rooms, Analyzer House, Field Auxiliary Building; Onshore Sub-Station non blast proof building.
• Prepared for the aboved specialized HVAC Systems the Cause and Effect Matrices (such as sequence table) and Emergency Shutdown Matrices (for safeguarding systems) and Procedures.

OGP5: Projects undertaken with Fluor Daniel Arabia Limited.

In a lead capacity, Mr. Garin's is responsible for mechanical engineering necessary to complete projects and ensuring quality standards /ISO requirements are adhered to at all stages of the design process. Mr. Garin's accountability also includes the following: Define and develop the Mechanical Scope of Work, Design Basis Document, Design Report or Technical Report; Supervises the daily work and activity of senior engineers and designers assigned to the discipline; Review and approved key design documents including drawings, calculations, technical specifications, material requisitions, bid evaluations and award recommendations; Prepares Mechanical Punch Lists, reports and summaries documenting the engineering discipline's activities; Participates in design reviews during all phases of project and discussions with other disciplines and the client. Produced concise periodic reports to communicate project progress and significant issues to project management and to client project management team.

Marjan Completion.

This Project provides for the Demothball, Completion and Commissioning of Marjan Oil and Gas Gathering Facilities.

• Have done a detailed field survey worked of facilities and was able to determine current "as built" status and assessed the degree of completion of three facilities, and their general condition.
• Engineered and prepared the quotation requests for the following mechanical equipment's such as: Fin Fan Coolers, Plate Heat Exchanger; Centrifugal Air Compressors, ASME Heatless Air Driers; Hypochlorite Generator; Refurbishment and Start Up Spare Parts of Rotating Equipments.
• Reviewed and modified the Air Conditioning Systems Engineering Design of Process Management Center, Process Interface and Switchgear Buildings, to ensure adequacy of design and to meet the current ARAMCO engineering standards.

Wet Crude Handling Facilities.

• Responsible in the engineering design of mechanical equipment's consisting of Low Pressure Tanks such as Sphere and Spheroid, Atmospheric Wash Water Tank, Rotating equipment's such as Formation Water Pumps, Dehydrator Charge Pumps, Sea-water Injection Pumps, Sump Pumps, and Chemical Injection Pumps.

High Pressure DGA (Diglycol Amine) at NGL Plant.

• Responsible in the detailed engineering design of mechanical equipment comprising of Chilled Water Surge Atmospheric Tanks; Pressure Vessels - Feed Gas Filter Separators, DGA Contactor, Rich DGA HP Flash Drum and Sweet Gas Separator. Heat Exchangers - Air Cooled Feed Gas Cooler, Shell and Tube Sweet-Sour Gas Exchanger, Sweet Gas Chillers and NGL/Chilled Water Exchangers. Rotating Equipment - DGA and Chilled Water Circulating Pumps and Sump Pumps.

Sulphur Forming Facility.

• Responsible in the detailed engineering design of the mechanical equipment which consist of Two Trains Rotoformer Units, Exchangers, Filters, Pumps, Vessels, Tanks, Conveyors.

Automated Gas Lift Facility.

• Responsible in the detailed engineering design of mechanical equipment consisting of Three 170 bar (2465 psi) turbine driven gas-lift compressors, a treatment plants, a gas dehydrator units using a TEG contactor and a regenerator, knock-out drums and gas coolers.

Dewpoint Control System/Propane Refrigerant System.

• Responsible in the detailed engineering design of the mechanical equipment comprising of Gas/Gas Exchanger, Gas Chiller, Propane refrigerant Compressor, Low Temperature Separator, Propane Sub- Coolers, Hydrocarbon / Glycol Separator, Gas/Liquids Heat Exchanger, Ethylene Glycol (EG) Regeneration Package, EG Flash Tank, EG Lean/Rich Exchanger Coil, EG Reboiler/Still Column, EG Surge Tank with Heater, and EG Pumps.

(OGP6): Projects undertaken with Fluor Daniel Arabia Limited.

Mr. Garin's duties is to plan, develop, coordinates and reviews the technical work produced by the mechanical team. Interfaces with clients, project management and other engineering disciplines on critical co-ordination and resolution activities. Estimates staffing needs, develop budgets and schedules, and assign work to the discipline. Supervises the daily work and activity of senior engineers, engineers and designers assigned to the discipline. Review and approved key design documents including drawings, calculations, technical specifications, material requisitions, bid evaluations and award recommendations; Prepares Mechanical Punch Lists to ensure the readiness of systems for release for turn-over to the client or for start-up. Prepares work packages and other related information in a timely manner as required to support the work schedule. Participates in design reviews during all phases of project and discussions with other disciplines and the client.

Pipeline Gas Compression Station.

• Responsible in the mechanical engineering design and project management of a grassroot gas compressor station comprising of two 1600 hp Compressors driven by Gas Turbines. The station design also includes inlet slugging facilities (slug catcher and filter separator), gas/condensate separation, condensate stabilization system, condensate exportation, and a gas dehydration and dewpoint control.

Sales Gas Compression System.

• Responsible in the detailed engineering design of the system. The gas compressor suction pressure is 3447 kPag (500 psig). The sales gas is compressed to 7,585 kPag (1100 psig) using two single-stage compressors in parallel. The two compressors are driven by natural gas fired 3.3 MW (4448 HP) Gas Turbines.

Pump Station with Condensate Storage.

• Responsible in the detailed engineering design of Two (2) 850 hp horizontal split-case centrifugal pumps and a fixed roof condensate storage tank with a capacity of 1,500 cubic meters.
• Conducted a complete hydraulic analysis to determine pump requirements, for the pipeline based on various operating scenarios with consideration given to the addition of future pumps.

Water Injection Facility.

• Responsible in the detailed engineering design of the mechanical equipment comprising of filtration deaeration system, a high- pressure chemical injection system and two 450 HP electically driven high pressure water injection pumps.

Chemical Injection Facility.

• Responsible in the detailed engineering design of mechanical equipment comprising of storage tank, distribution system and injection of chemicals to platform.

Community Services Center and Two S-5 Dhahran Warehouses.

• Responsible in the detailed engineering design of HVAC and Refrigeration System, Fire Protection Systems. Demonstrated and confirmed with client that the designed systems do meet the prescribed stringent requirement as called out in the client supplied Specifications.

Maintain Potential 1982 To 1985 Increments.

• Responsible in the detailed engineering design of the following: ASME Section VIII Div 1 Pressure Vessels (Gas Scrubbers, Gas Knock-Out Drums and Slug Catchers); Scraper Traps (Launchers and Receivers) to ANSI B31.4; Fire Protection System to safe guard equipment's and structural members of the platform using the combination of passive system, fixed water spray system to NFPA 15 and 16 requirements and oscillating foam/water monitors to NFPA 11 requirements.

International Airport and Royal Family Airport Experience:

Project undertaken with Arabian Bechtel Company Limited.

• Reviewed and approved contractor's drawings, designs, specifications and work procedures for conformity to contract requirements. The submittals are as follows: Central Cooling Plant System; Fire Fighting and Fire Protection System's; Plumbing System; Irrigation System; Lift Stations; Pumping Stations; Compressed Air System's; Fuel Farm and Fuel Distribution System's. Potable Water Distribution System and Chilled Water Distribution System in Compounded Loops.
• Developed a case network model for the entire water distribution system and chilled water distribution system based on two criteria: Firstly, the given chilled water demand data. Secondly, to include the given future chilled water demand data. Worked closely with owner to examine various alternatives to maximize the chilled water supply pressure to each consumer.
• Reviewed and approved engineered equipment pertaining to the following: Escalators, Elevators, Moving Walks, Conveyors and Passenger Loading Bridges for terminal facilities.
• Conducted field inspection to verify contractor's compliance with contract provisions. Reviewed the design changes, material and equipment changes, scope change, interfaced consideration and confirmed technical adequacy.
• Participated in the walk-through inspection with the owner's representative and sub-contractor.
• Reviewed EPC performance test procedure for compliance with the turnkey contract. Also monitors EPC performance tests and reviewed test report for compliance with contract performance guarantees.
• Assisted the Construction Manager and worked with client and the sub-contractor to resolved all mechanical engineering questions arising in the field.
• Developed complete details of all mechanical interfaces among contractors and provided the owner with sequential completion requirements and outline the mechanical interfaces between the owner and the contractor for activities which occur at completion.

Industrial and Commercial Facilities Experience:

Silvertown Construction & Development Corporation.

Construction Development Corporation of the Philippines.

Project undertaken with two local engineering companies (Philippines).

• Responsible in the preliminary engineering of a District Cooling Plant. The system's consist of Central Plant, Distribution System and Building Systems. Performed several hydraulic network model analyses for the entire chilled water distribution system.
• Responsible in the detailed engineering and total construction management of the following: Ice and Cold Storage Plant, Commercial buildings air conditioning "CAV and VAV" systems, Ventilation of industrial buildings. Intelligent Fire Protection System's for buildings, Plumbing Systems, Kiln and Tobacco Drier Plants, Materials Handling and Conveyance Systems.
• Reviewed and approved key design documents including drawings, calculations and material requisitions.
• Prepared the bidders lists, pre-qualifies bidders, formulated the bid packages, issue bid request, received & evaluated bids and prepared technical bid summary, recommends and secures approval in accordance with established procedures.
• Participated in preparing the construction/project master plan for approval by management.
• Participated in the review meetings with client and management, to properly check progress and coordinate the work.

Teaching Experience:

University of the East.

Five years experience either as a full time or part time professor in the College of Mechanical Engineering. Subjects taught are Power Plant Design, Industrial Plant Design, Thermodynamics, Refrigeration and Air Conditioning system Design, and Machine Design. My methods of teaching have been a combination of lecturing plus analysis of cases.

Garin Rice Mill and Farm Implements - a family owned business:

Business Address: Gapan, 3105, Nueva Ecija, Philippines

Managed the day to day the rice milling operation as well as the rentals of Farm Implement to farmers such as Rice Treashers, Palay Driers and Hand Tractors.

Employers List:

ABB Lummus Alireza Limited Company. --->> (OGP1)

CMS International Operating Company via NES Overseas. --- >> (PWR1)

Garin Rice Mill and Farm Implements - a family owned business :

PT Gema SemBrown. --->> (OGP2)

Projass Engineering Berhad --->> (PWR2)

Technip Geoproduction Sdn. Bhd. --->> (OGP3)

Sime Engineering Sdn. Bhd. --->> (OGP4)

Fluor Daniel Arabia Limited. --->> (OGP5)

Fluor Daniel Arabia Limited. --->> (OGP6)(PWR3)

Arabian Bechtel Company Limited.

Silvertown Construction & Development Corporation.

Construction & Development Corporation of the Philippines.

University of the East.

Education:

Professional Registration:

Professional Accreditation:

Computer Skills: (Operating System: DOS and Windows 95/98/ME).

1. Mechanical Engineering and Design Applications:

GT PRO software for Combined Cycle Plant and Cogeneration Plant heat balance and equipment designs; GT MASTER software for simulating performance of fixed plant equipment under various operating conditions; Simflexs Pipe Stress Analysis; CODECALC II - Vessel; Heat Exchanger & Piping Component Analysis; PV ELITE - Pressure Vessel Design and Rating (ASME/BS); TANK - API 650/653 Oil Storage Tank Design and Analysis; Mathcad; Softwares for Heating, Ventilating and Air Conditioning Systems by Trane, Elite and Carrier. Pipenet (Deluge System and Ring Mains Analysis) Software; Elite and Firenet Softwares to NFPA-13; Chemetron Software to NPFA-12; Water Distribution Network, Intergraph V3; Autocad R13.

2. Other Applications:

MS Office 97, MS Outlook 97, MS Project 4.1, Turbo Project and Project Manager Pro, Numega Soft-Ice 4 (Debugger), W32DASM 8.93 (Disassembler), Hex Workshop and Hiew (Hex Editor), SmartCheck 6, Scanning Suite Millenium Edition (TextBridge Pro, Pagis Pro, Paper Port Deluxe, Omni Page Pro), Netscape 4, Explorer 5, E-Mail's, Usenet, IRC and ICQ, FTP's, Download Manager's, Offline Browser's, Gopher, Telnet, Photoshop 5, Illustrator 8, Freehand 8, File Compressions and Decompression Utilities, File Splitters, HTML, JAVA Script, BitComm, Win Fax Pro 9, Bit Fax 3.

Personal Data:

Mr. Garin E-Mail addresses and Text Mail (SMS):

Office E-Mail Address:

Permanent E-Mail Addresses:

Overseas Contact Address:

Permanent Home Address:

Page Updated: September 10, 2002