OBJECTIVE Seeking a position to fully utilize my professional engineering skills along with twenty five years of solid engineering experience for design in the mining/piping, oil and gas industries / HVAC systems as well as stress analysis in the petroleum industry.

1989 – 1993 EDUCATION B.Sc., Mechanical Engineering, University Of Toronto, Toronto, Ontario

COMPUTER

APPLICATIONS Microsoft Office, Microsoft Excel, Microsoft Word, Microsoft Outlook, Microsoft Access, MathCad, Microsoft PowerPoint, Bentley Data Manager, Caesar II Pipe Stress Analysis, Bentley AutoPipe Stress Analysis, Bentley Auto Plant, Navis Works, Pump PC, Nozzle Pro, PV Elite, Code Calc, AFT (Applied Flow Technology) Fathom

LANGUAGES Fluent English / French / Spanish

MECHANICAL ENGINEERING

STRONG POINTS:

Over 25 years of experience in the following industries; Refining, Mining and Petro-Chemical Industries

Capable of leading teams of engineers, and designers on assigned projects and meeting required deadlines.

Strong communication and inter-personal skills, also perfect at inter-discipline coordination on projects, as well as very effective in communicating with clients and vendors.

Familiarity with using ASME Pressure Vessel Code (2013) also many years of experience using process piping codes ASME B31.3 and Power Piping Codes B31.1

Years Of Experience working with API 610 Pumps for the Petrochemical, Natural Gas & Chemical Industries.

Always have a keen eye for minute details and capable of performing detailed technical document and drawing checks using a methodical checklist.

Always very organized, capable of prioritizing and multi-tasking, in a work team environment and always welcoming ideas and suggestions from others.

Always willing to learn and work on a variety of tasks within multiple industries.

Always willing to travel and willing to work in either an office or a field environment.

Willing to work shifts, weekends and over-time if needed.

EXPERIENCE

October 2019- ConocoPhillips Alaska (Kuparuk North Slope Alaska)

May 2020 Line Lift Stress Engineer

Resonsibilities were very similar to those done previously for ConocoPhillips in Anchorage Alaska however for this tenure I worked on site on the Arctic Tundra Crude Oil Drill Sites on 2 weeks rotation. My main focus was the repair of pipelines that have Corrosion Under Insulation or CUI.

My responibility was as follows: 1) Check the Corrosion Database to see which pipeline supports out on the Tundra have a corrosion issue at this point in time I also see whether it is an internal or external corrosion. 2) Check another database to see what was the last reported wall thickness due to corrosion at this location to determine whether it is safe enough to do a live line lift for repair. If the corrosion is too severe then I order the live pipeline to be shut down for the repairs, if the corrosion is less than the percentage allowed by industry standards then I would 3) commence by donning my Arctic Gear and actually go the the pipe support being repaired, I inspect the location physically to make sure there is not any severe subsidence or any frost jacking which would make my Bentley Auto Pipe stress model “unrealistic”, if such a situation exists then I order a survey to be done before building my stress model.. I also check to see if there are any other pipelines that are nearby that would impede the lift as well as note where is the nearest anchor in the line that I am lifting. 4) If I am satisfied with what I observe in the field I move on to do a stress model of the pipeline in Bently Autopipe then simulate lifting the live pipeline in the Stress Analysis Progam by imposing support displacements to the model. Depending on the type of saddle involved there is a minimum jacking-up displacement required to remove the old saddle as well as the old insulation and repair the pipeline. It is at this point in time that stresses are in their highest state and I exercise extreme caution in my analyses to ensure that the pipeline is not overstressed and that the lives of the installation workers are not endangered. From my stress model I make note of the maximum stress ratio ecountered during the lift, the maximum vertical force exerted on the jack, and the minimum jack displacement required to accomplish this repair. 5) The next step is to write up a formal report clearly stating the previously mentioned parameters as well as a print screen of my stress model included so the there will be no doubts on exactly what is to be done when out in the field. Temperatures along with windchills of minus 80 degrees Farenheit are not uncommon so my issued document is made as clear and concise as possible.

On a 14 day hitch on the Slope I normally complete anywhere betwwen 15 to 20 of these line lifts, extreme weather, white-outs and Polar Bear Alerts permitting.

May 2019- Jacobs Engineering for Intel Corporation (Greenville South Carolina)

October 2019 Senior Pipe Stress Engineer

Involved with a team of Pipe Stress Engineers working on “Project Joseph” for the Intel site located at Ronler Acres, Hilsboro Oregon.

The site is the location of a new Processor Fabrication Module and my team and I did Pipe Stress Analysis using Bentley AutoPipe. These pipes were mostly plastic with the three main materials being Polyethylene, Polypropylene and Polyvinylchloride. Most stress calcs involve insulated double contained pipe. Insulation is used to protect the integrity of the plastic from the Sun’s harmful UV rays and Double Containment in case of any leakages from the core pipe. Design Pressures and Temperatures are in the order of 100 Psig and 100 Farenheit. Fluids are mostly Acids and Bases needed for Intel chip wafer production. Core pipes are usually schedule 80 and the outer pipes schedule 40. Each Calc originates with a PCF file sent from the designer which is then imported into Bentley Autopipe and converted to a DAT file. This file is then exported to NavisWorks to visualize the pipeline in 3D space with respect to the existing steel supports and equipment. Each analysis for every batch involves a thorough analysis for the Gravity, Sustained, Occasional and Thermal Case for loads such as Wind, Earthquake, Snow and imposed displacements caused by pipe rack / trestle movements. After the analysis is completed it is then checked by another Engineer and uploaded to Projectwise Data Base for the Client’s review.

October 2018- NanaWorleyParsons for ConocoPhillips (Anchorage Alaska)

April 2019 Senior Pipe Stress Engineer

Involved in repair works for the ConocoPhillips’ pipelines on the North Slope in Arctic Alaska. The repair work involves hoisting existing sagging sections of the pipeline to insert pups and shims at the existing supports so as to restore the pipeline to its original horizontal configuration. If the existing support is beyond repair then a completely new pipe support is installed and the old support abandoned. The sagging of sections of the pipelines is as a result of the support columns sinking into the Alaskan Permafrost over the years. It is my responsibility to devise a lift sequence to lift the pipes at each support location no more than three inches per step for a series of steps either together with other locations or singularly just one support location per lift set depending on the results of my Stress Analysis. The objective is to not overstress the pipes by keeping the entire lift sequence operation within Code allowable levels. The Stress Analysis Software used is Bentley Autopipe and these are jacketed insulated Steel Pipes one at 14” Dia. 1400psig carrying “Sales Oil” the other at 12” Dia. 1500psig carrying treated Sea Water and the other a 2”Dia. line at 1366psig carrying Diesel Oil. Upon satisfaction of my completed Stress Lift Package, it is then sent to the field for the work to be executed.

August 2018 - Bowman Consulting Engineers (Tucson Arizona)

September 2018 Mechanical Design Engineer

Member of the design team for Freeport McMoRan’s Lone Star Project which is located in Safford Arizona.. The project involves designing and constructing new Wash Settlers in order to remove corrosive chlorides from solution in the Copper Mining Process. Involved in designing and sizing gravity flow overflow pipes for the Wash Settlers using hand calculations for (1) Morning Glory Entrance Flow (2) Weir Flow, (3) Orifice Flow (4) Full Pipe Developed Flow, using purely gravity and siphoning theory. Also completed Technical Bid Evaluations for Centrifugal Pumps that carry Diluant (Kerosene) at 200GPM and Gear Pumps carrying Extractant ( Viscous Fluid that attracts the Copper ions ) at 10GPM. Also did hand calculations for metal pipe collapse under external pressure using ASME Boiler Pressure Vessel Code BPVC Section II Part D as well as formulae from BPVC Section VII Division 1, UG-28. In most cases these pipe failures are due to buckling by external pressure due to insufficient wall thickness and lengths greater than the critical lengths as compared to failure due to insufficient moment of inetia due to inadequate stiffening. Also involved in relief valve force calculations to see whether these forces will be tolerable in the stainless steel pipelines even if they are below the allowable stresses of the material due to the cyclic nature of these forces.

September 2017- Hanlon Engineering and Architecture ( Elko Nevada )

April 2018 Mechanical Project Engineer

Resident Engineer in Elko Nevada working for HEA on the Barrick Goldstrike, Barrick Turquoise Ridge and Barrick Bald Mountain Accounts.

All three Northern Nevada Locations primary funcions are to remove Gold from its Ore. Silver, Copper and Mercury are also present but are seen as contaminants in the processing of the gold.

Presently involved in four current Projects, these are (1) The Carbon Segregation Project, for this project I am responsible for updating the P&ID to reflect the upgraded proces, this involves implementing new Carbon Steel pipelines and intalling new control valves to be able to remotely control the process from a central location. I am also responsible for witing a new Control Narrative for this Process which involves removing the gold by dissolving the gold infused carbon in Sodiun Cyanide Solution. (2) The second project I am responsible for is to provide a Complete Scope Of Works and a Cost Estimate to replace two Lime Slakers in the Lime Building with a 30ft Vertimil Lime and Pebble Crusher which is presently intstalled and funcioning in another location of the plant about 11 miles from the location of the Lime Slakers. Upon submittal of these Documents, Barrick Gold will decide the feasability of the Project. (3) The third project I am responsible for is to see what is the least expensive alternative to be able to use two already built undersized pump bases for two larger upgraded thickener underflow pumps, the footprint of these new pumps are larger than the bases that were constructed. My responsibility is to see what can be done, using expensive concrete re-work as an absolute last option. (4 ) My other project I am working on is how to orientate two 160 Hp Pumps with their respective motors in a confined underground space roughly 2,000ft below the surface, aspects that must be taken into cosideration is room for the maintenance of these pumps, minimal amout of elbows and bends in the piping as well as sufficient room to be left over for the sump as well as new required ventilation. Client prefers not to excavate anymore earth at this location as it is very expensive to remove more earth at that depth below the surface.

May 2014 - AECOM Formerly URS ( New Orleans Louisiana )

Aug 2015 Snr. Piping & Stress Engineer

Built Stress Models using Caesar II (Version 2013), from Isometric drawings, analysed these models to ensure Code Compliance with ASME B31.3 / B31.4 . This involved the usual diplacement checks, stress on pipe-support checks and nozzle loading on sensitive equipment nozzles. Pipes were mainly Carbon Steel such as A106 Gr.B, A56 Gr.C and FRP ( Fibre Re-enforced Plastic ) Piping 150.4 & 150.6 for various diameters up to 48”. Projects involved included Chevron Wharf Loading, Elevance Natchez Bio-Refinery, Phillips 66 Alliance Refinery, First-Energy at the Bruce Mansfield De-Watering Plant and Marathon Export Gasoline. Also involved in Fixed Equipment Sizing such as Pressure Valves and Relief Valves as well as Expansion Loop Designs for these pipelines.

On Site Mechanical Engineer

Worked on site at Phillips 66 Alliance Refinery at Belle Chasse Louisiana as a mechanical engineer during their “Turn-Around” of the HF Alkylation Unit. Primary responsibility was to interact on a daily basis with onsite contractors (Repcon) with their immediate mechanical needs. Responsible for schedules and budgets as well as provide weekly reports communicating status, issues, and needs. Reviewing Vendor Drawings was also a common occurrence. In oder to secure this position a TWIC Card was necessary which required a complete Federal Background Check. Another required permit was from the Gulf Coast Safety Council which involved Class Room Training for Gasoline Refineries. This position also required an intensive Hydro-Flouric Acid Course. My TWIC card is valid up until 5 years after the date of issuance.

October 2013 - GE Oil & Gas ( Schertz Texas )

March 2014 Snr. Piping & Stress Engineer

Responsible for co-ordinating, scheduling, giving technical assistance and checking the finished Stress Analysis Package done by a group of 12 Offshore Engineers based in Bangalore India.

Compact, Portable LNG ( Liquid Natural Gas ) Skid Mounted Modules were being stress analysed by the Offshore Team using Bentley Auto Pipe at the request of our Client (Shell Oil).

Directed daily technical meetings and bi-weekly scheduling/metrics meetings with the Offshore Team, via Webex video conferencing. Both Dynamic and Static Analyses were performed by the Offshore team. Due to the cryogenic nature of the design, different grades of Stainless Steel pipes had to be used instead of Carbon Steel. The final Stress Package was then uploaded by the Offshore Team, to the GE Portal for my review, approval and signature.

August 2013 - Ascend Performance Materials October 2013 Chocolate Bayou Plant ( Houston Texas )

Snr. Mechanical & Piping Engineer

Involved in re-designing EPDM flex boots that connect hoppers to conveyors, which failed every four weeks due to the constant vibratory motion of the hoppers. Extreme care and special protective clothing were worn when in the field as substance is Sodium Cyanide powder which is extremely toxic.

Re-configured and re-routed 4” and 6” Stainless Steel A312-316L piping carrying aqueous sodium cyanide in order to accommodate a new proposed drain piping.

Liased with electrical engineers to electrically heat trace and insulate over 2,000ft of various size stainless steel pipeline carrying substances such as aqueous Sodium Cyanide, Hydrogen Cyanide and Hydrofloric Acid. Also assisted contractors with interpretation of engineering drawings and specifications in the field.

October 2009 - Jacobs Engineering ( Tucson Arizona )

May 2013 Snr. Piping & Stress Engineer

Worked as Senior Piping Engineer on the Morenci Metcalf 55K Expansion Project located in Morenci Arizona doing Pipe Stress Calculations by hand or with Caesar II, Pump Hydraulic Calculations by hand or with AFT Fathom and Pneumatic Air Compressor Calculations by First Principles using Compressibility Tables.

Worked as a Senior Piping Engineer on the Toromocho Project ( Copper and Molybdenum Mining ) situated East of Lima at 5,000 metres elevation in the Andes Mountains. Involved in pipe sizing and hydraulic pump calculations for a range of fluids varying in viscosity from that of water and thin oils using Hazel Williams Formula to those of high viscosity such as flocculants and slurries using Darcy Weisbach Formula. Involved in the calculation of motor horsepower de-rated for high altitude as well as the preparation of technical bid evaluation documents for pumps such as vertical turbine, centrifugal and positive displacement. Specify, evaluate bids, and perform vendor document reviews for equipment such as pressure vessels, tanks, boilers, pumps, heat exchangers, compressors, relief valves, and cooling towers.

Worked as a Stress Analysis Engineer on Piping in the M.A.P. Project located outside Salt Lake City, performed Stress Analysis using Caesar II Software to ensure that pipes were not overstressed due to weight loads, thermal loads, wind loads, seismic loads etc.

Inclusive on all three Projects mentioned above, the line sizes worked on varied from flexible 1/2" to rigid 48" bore in a variety of common materials such as Carbon & Stainless Steels, HDPE, PVC and FRP at tempereatures well in excess of 500 F for Steel Pipes. Also involved in Rotating Equipment Sizing such as Centrifugal Air Compressors, Vacuum & Centrifugal Pumps and Gear Boxes.

April 2008 – Bechtel Ltd. ( Montreal Quebec )

December 2008 Senior Piping Engineer

Worked for Bechtel Montreal on the Kitimat Modernization Project in Kitimat British Columbia.

Did pipe stress analysis on the Natural Gas and Compressed Air lines to the Anode Baking Furnace ( ABF ) . Analysis was done with the aid of Caesar II version 5.0

Prepared Material Requsitions for valves and piping bulk for the complete project.

Wrote Design Criteria for Fire Protection. Met with client to discuss what type of fire detection and protection they preferred for the various areas of the plant. Calculated sprinkler density flowrates for various areas by assessing the flammability hazard according to the guidelines of NFPA13 then multiplying by the initial area to be sprinklered. Decided whether to use class I or III standpipes for high risk areas.

Did heating duct design and layout for all the required heating areas as well as the duct weight calculation with the aid of a crane ductulator for cost estimation purposes.

Wrote valve data sheets according to the service required and also responsible for preparing the following documents and having them approved internally by the engineering team and then by the client :

Design Critera For Piping

Design Criteria For HVAC

Design Criteria for Fire Protection And Detection

Specification for Thermal Insulation

Specification for Fabrication and Installation of Piping

Specification for HVAC

Specification For Plumbing and Building Services

Specification For Fire Protection.

June 2007 - Bantrel Ltd. ( Edmonton Alberta )

April 2008 Senior Pipe Stress Engineer

Involved in utilizing Bentley Auto Pipe to analyse stress models. These models were drawn from either stress isometric drawings or from 3D plant visualization software Navis Works. A complete stress analysis was done on critical lines for both the friction and non friction cases for the new Boiler at the ESSO Refinery.

Fully completed and submitted to Shell Canada a similar stress analysis package for the Atmospheric–Vacuum Unit at the Scottford Refinery Plant in Fort Saskatchewan during recent expansions. In this case the stress analysis was done using Caesar II and the 3D visualization software was Smart Plant.

November 2004 – Hatch Ltd. ( Mississauga Ontario )

May 2007 Senior Piping Engineer

Assigned to the Jamalco Expansion Project H330300, responsible for the hydraulics for area 7 ( lime ) and area 9 (oxalate). This involves manual as well as software assisted (AFT Fathom) calculations to size pumps and line sizes for various processes.

Involved in quantitative material verification for pipes and accessories such as gaskets, valves, bolts, elbows, tees etc. for all areas of EWP ( Early Works section of the Jamalco Project) using Bently Data Manager Software. These quantities are then used by Procurement for purchasing.

Perfomed stress analysis using Caesar software on highly stressed piping areas.

Responsible for the piping estimate for an expansion of a Nickel Plant in Guatemala (Fenix / Skye Project). Supervised 6 piping designers and chaired weekly progress meetings. Calculated required pipe wall thicknesses and pipe diameters for the various services.

Piping Engineer for all inter and intra connecting pipes for a Nickel Furnace in South Korea. (SNNC Project). Supervised designers lay out of flex hoses and monel pipes for the metal as well as the slag tap hole areas.

December 2003 – Johnson Controls Limited ( Orangeville Ontario )

September 2004 Site Operations Supervisor (S.O.S)

S.O.S. for both the Orangeville and Shelburne Automotive Plants. Totally responsible for all facility related issues . This included:

Supervision of contractors who visited both sites to do a variety of tasks such as (a) Fixed Scope Services such as janitoial, pest control, grounds services, fire extinguishers & alarm monitoring, dock equipment doors & levelers, electrical generator PM etc. (b) Variable Costs and Repairs such as plumbing repair, electrical repair, painting, carpentry, masonry, shunt & forklift truck repairs, ligting, kitchen equipment repair etc.

Responsible for coordinating the preventive maintenance activities on those equipment that can only be done during plant shutdown

Responsible for over $950,000 in the FSI (Facility Services Initiative) yearly budget for each plant to strategically spend within the fiscal year on facility related issues such as the procurement of new equipment and the payment of contractors. This is accomplished with my approval, the aid of financial tracking sheets and using e:counterline to request purchase orders from JCI Head Office in Milwaukee.

Responsible for the environmental comfort of all occupants ie: being in charge of the Metasys Building Automation System. Closely monitoring the temperature and humidity at both plants within acceptable tolerances.

February 2003 – Rybka Smith & Ginsler Limited ( Toronto Ontario )

September 2003 Mechanical Commissioning Engineer

Verify static and dynamic stability on all Air Handling Units at the newly constructed Thunder Bay Regional Hospital.

Supervise the air balancing contractors to ensure that all areas/rooms of the hospital had either a negative, neutral or positive pressure as per specicifications.

Oversee Comstock Ltd. and Drew Chemicals on water analysis reports to ensure that the quality of (a) potable water at the Thunder Bay Regional Hospital is kept within Health Canada Guidelines (b) treated water sent to the boilers was sufficiently “softened” as described by CSA Standards to prevent the precipitation of calcium carbonate scales. (c) treated water sent to cooling towers is such that algae growth is inhibited by the application of the appropriate algaecide as per CSA Standards.

June 2001 - Trammell Crow Corporate Services (TCCS) for I.B.M. Canada Ltd August 2002 Mechanical Engineer, Building Services ( Toronto Ontario )

Conduct monthly preventative/predictive maintenance audits on all mechanical equipment located at all Greater Toronto Area I.B.M. sites

Address all mechanical engineering concerns/operations with reference to repairs and installation of new HVAC equipment

Assist contract managers in developing Scope Of Works for Mechanical Equipment Service Contracts

Provide HVAC duct & equipment design layouts for all small renovations and installations at I.B.M.

Develop SOW & solicit prices for small emergency repairs/installations

Verify completion of mechanical and electrical warranties at the new I.B.M. software lab at 8200 Warden Ave and coordinate repairs of deficiencies with third party contractors.

Commission all constuction/renovation of HVAC in the I.B.M. Central Regions

Provide mechanical engineering support to TCCS Project and IBM Engineering Group

Provide engineering optimization strategies to third party contractors

September1997– Alcan/SNC-Lavalin Alliance January 2001 Design Engineer, Capital Projects Group

Designed and coordinated work on a number of capital projects within the alumina process plant aimed at improving plant efficiency, sustaining production levels and improve environmental compliance standards. Major areas of work include:

Complete hydraulic studies/calculations and piping design for slurry, clear fluid, steam and bunker c oil services.

Complete P & ID’s and plant layout design for major equipment/machinery

Equipment specification & selection – pump, compressor valve and other machineries.

Coordinate efforts of all contributing engineers (electrical, civil and instrumentation), applying the latest available technology (PLC & DCS) to the project solutions, interface with client and international suppliers and engineers.

Conduct Hazard & Operability (Hazop) analysis on new and installed projects.

Sizing air conditioning units for comfort and equipment room conditions.

Complete Installation specification for bidding purposes.

Complete technical specification for procurement

Quality assurance checks on construction activities.

Training and supervision of junior engineers and technicians.

Some of the projects worked on include:

1997Filter Aid Lime Recovery

The recovery of lime from the press floors. Mechanical design included the erection, routing and support of carbon steel pipes up to 600mm diameter. These pipes carry a variety of fluids such as spent and pregnant liquor (an aqueous solution of alumina in caustic soda), sulphuric acid, flocculant etc. Also involved in the design is the calculation of hydraulic losses in these pipes and determining the most appropriate pumps for the service.

1997Boiler Capacity Upgrade,

Designed layout and ductwork for the installation of new induced draft fan aimed at increasing the boiler’s capacity by 10%.

1998 Boiler Re-tubing.

Responsible for the co-ordination, safety and well being of all contractors during the re-tubing exercise to remove and replace faulty tubes from boiler. (Rated at 85,000kg of steam per hour). This included the removal/replacement of super heater tubes, furnace floor tubes, bridge wall tubes and the mud and steam drums.

1999 DCS (Process Control Modernization)

Worked closely with instrumentation engineers to modernize the Bayer Process Method at Alcan’s Ewarton Plant. This involved selecting, procuring and installing control devices such as flow, temperature, conductivity and density elements with the appropriate valves, opacity meters on the kiln stacks, vibration elements on the induced and draft fan motors.

1998Alumina and Lime Dust Suppression

Responsible for the mechanical design and layout of dust suppression systems at:

The Railcar Loading Station: This involved liaising with the material suppliers (Wheelabrator Inc), installing and commissioning automated telescopic chutes which fit directly onto railcar hatches in order to reduce alumina dust.

Lime Kilns: This involved designing and routing vacuum ducts from the hot end of Kilns to polyclones where larger particles are removed then routing from here to the electrostatic precipitators where the more minute particles are removed.

Worked on a number of other projects involving equipment specification, purchasing, plant layout, installation and commissioning.

September 1997 – Geddes Refrigeration.

November 1996 Mechanical Engineer

Responsible for the air conditioning of a new nine story building using a chilled water cooled, packaged, air conditioning unit rated at 220 tons of refrigeration.

Designed Air conditioning Layouts for the New Wing of May Pen Hospital and also for the New Braco Village Resort in Trelawny. Analyzed and solved problems for a local bank where the smell of food was emanating from the supply ducts.

April 1991 – Canadian Armed Forces (2nd Field Engineering Regiment). C.F.B.

November 1994 Downsview

Field Engineer

Built bridges for heavy military vehicular traffic

Involved in road construction

Demolished obstacles and did road cratering with high explosives such as C4, Trigran and DM12 Underwent First Aid life saving courses for different types of injuries.

Underwent the rigorous training of Boot Camp at Canadian Forces Base Petawawa

WORKSHOPS Awarded Certificate of completion for TRANE’s Air Conditioning

Air Conditioning Fans

Centrifugal Water Chillers

Underwent a one week intensive Caesar Pipe Stress Analysis course

Underwent Arctic Alaska North Slope Training Course.

PROFESSIONAL Holder of a valid Professional Engineering Licence for Ontario and also a ASSOCIATIONS member of the OSPE (Ontario Society Of Professional Engineers).

EXTRA Presently pursuing a private pilot license at Double Eagle Aviation at Tucson CURRICULAR International using a Cessna 172 with permission from the TSA. ACTIVITIES Presently persuing a sport pilot license by glider flying at Tucson Soaring Club in

Marana

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