Terry Lee Ivy is a consultant based in Wichita Falls, Texas. He has over 40 years of experience in the oil and gas industry, working on projects around the world involving chemical cleaning, pigging, and pipeline operations. He has an associate's degree in applied sciences and has received extensive safety and technical training throughout his career.
Learn how Audubon Engineering Solutions executed adaptive and robust techniques to meet and exceed Delta House project expectations, as well as position LLOG Exploration for continued success.
Discover the benefits and methodologies behind the installation of a condensate stabilization system on the Delta House Floating Production System (FPS).
In low oil-price environments, it is customary to cut expenses, reduce staff, and postpone most, if not all, capital investments. While this strategy may be financially sound in the short term, it is ineffective in the long run, particularly for companies with the need to sustain production levels or to replace reserves through drilling, production or reservoir projects. Heavy oil projects are usually more challenging, as production costs are higher and the oil price is even lower.
This presentation addresses the dilemma of controlling cost and at the same time sustaining production and increasing recovery. A balance can be struck by focusing on the quality of decisions, such as when and where to invest, and ensuring that projects are delivered on- budget, a common issue in the E&P industry. The central idea in this presentation is that, in the most complex and financially challenging case of Enhanced Oil Recovery (EOR) projects, the combination of quality decision making and the implementation of “fit-for-purpose” technology offers the most promising middle-point. By providing eight examples of innovative technologies to help reduce uncertainty, cost and time for delivering commercial EOR oil, and three successful case studies, the audience will gain confidence in the proposition that it is perfectly viable to double recoveries for many of our fields in the next 15 years, even in the current price scenario.
Finally, EOR is a business, and as such it needs to compete favorably with other businesses in a company’s E&P portfolio - challenging in low oil price environments. The lecture will close by presenting a strategy, illustrated with an example, on how to divert from the traditional engineering approach in favor of a managerial decision approach, that will help engineers to justify viable recovery projects.
The Advanced Reservoir Engineering Course course addresses modern practical aspects of Reservoir Engineering during 5-days packed with 7 hours of lectures, classroom exercises, discussions and literature reviews.
At the end of the Advanced Course participants will have a deeper knowledge of modern reservoir engineering principles and practices for reservoir development and production, including the estimation of oil and gas reserves. They will also have an awareness of the construction and use of reservoir models.
This course is intended for staff that have had prior exposure to exploration and production activities. Target categories of staff include Production and Reservoir Engineers, Petrophysicists, Geologists and Engineers involved with exploration and development of oil and gas reservoirs. The course is also useful for Petroleum Engineering team leaders, Production staff, IT staff and support staff working with Reservoir Engineering and development and production. Reservoir Engineers with a few years practical experience and Petroleum Engineers and Geoscientists that require more than general knowledge of reservoir engineering.
Participant’s understanding of fundamental concepts and modern practical reservoir engineering methods will be deepened and a wide range of topics is addressed.
Course topics include detailed treatment of PVT, oil and gas material balance methods, well modelling and well testing, SPE and SEC reserves estimation, displacement theory, reservoir and simulation modeling, fractured reservoirs, decline curve analysis, field development planning and production forecasting.
Learn how Audubon Engineering Solutions executed adaptive and robust techniques to meet and exceed Delta House project expectations, as well as position LLOG Exploration for continued success.
Discover the benefits and methodologies behind the installation of a condensate stabilization system on the Delta House Floating Production System (FPS).
In low oil-price environments, it is customary to cut expenses, reduce staff, and postpone most, if not all, capital investments. While this strategy may be financially sound in the short term, it is ineffective in the long run, particularly for companies with the need to sustain production levels or to replace reserves through drilling, production or reservoir projects. Heavy oil projects are usually more challenging, as production costs are higher and the oil price is even lower.
This presentation addresses the dilemma of controlling cost and at the same time sustaining production and increasing recovery. A balance can be struck by focusing on the quality of decisions, such as when and where to invest, and ensuring that projects are delivered on- budget, a common issue in the E&P industry. The central idea in this presentation is that, in the most complex and financially challenging case of Enhanced Oil Recovery (EOR) projects, the combination of quality decision making and the implementation of “fit-for-purpose” technology offers the most promising middle-point. By providing eight examples of innovative technologies to help reduce uncertainty, cost and time for delivering commercial EOR oil, and three successful case studies, the audience will gain confidence in the proposition that it is perfectly viable to double recoveries for many of our fields in the next 15 years, even in the current price scenario.
Finally, EOR is a business, and as such it needs to compete favorably with other businesses in a company’s E&P portfolio - challenging in low oil price environments. The lecture will close by presenting a strategy, illustrated with an example, on how to divert from the traditional engineering approach in favor of a managerial decision approach, that will help engineers to justify viable recovery projects.
The Advanced Reservoir Engineering Course course addresses modern practical aspects of Reservoir Engineering during 5-days packed with 7 hours of lectures, classroom exercises, discussions and literature reviews.
At the end of the Advanced Course participants will have a deeper knowledge of modern reservoir engineering principles and practices for reservoir development and production, including the estimation of oil and gas reserves. They will also have an awareness of the construction and use of reservoir models.
This course is intended for staff that have had prior exposure to exploration and production activities. Target categories of staff include Production and Reservoir Engineers, Petrophysicists, Geologists and Engineers involved with exploration and development of oil and gas reservoirs. The course is also useful for Petroleum Engineering team leaders, Production staff, IT staff and support staff working with Reservoir Engineering and development and production. Reservoir Engineers with a few years practical experience and Petroleum Engineers and Geoscientists that require more than general knowledge of reservoir engineering.
Participant’s understanding of fundamental concepts and modern practical reservoir engineering methods will be deepened and a wide range of topics is addressed.
Course topics include detailed treatment of PVT, oil and gas material balance methods, well modelling and well testing, SPE and SEC reserves estimation, displacement theory, reservoir and simulation modeling, fractured reservoirs, decline curve analysis, field development planning and production forecasting.
The oil and gas industry places great reliance on layers-of-defenses, or barrier thinking, to protect against process safety incidents. Human performance continues to be the single most widely relied on barrier: whether as a defense in its own right, or in implementing, inspecting, maintaining and supporting engineered defenses. Human error, in its many forms, also continues to be a significant threat to the reliability of engineered and organizational defenses. While approaches to developing and assuring layers of defenses strategies have become increasingly formalized and rigorous in recent years, many organizations struggle to know how to ensure the human defenses they rely on are as robust as they reasonably can be when those strategies are developed and implemented. Drawing on the 2005 explosion and fire at the Buncefield fuel storage site as a case study, the presentation considers issues associated with the independence and effectiveness of human defenses. The key idea SPE members should take away from the lecture is that organizations can improve the strength of their human defenses by being clearer about exactly what it is they expect and intend of human performance to protect against threats. The presentation sets out challenges organizations can use to ensure the human defenses they rely on are as robust and reliable as they reasonably can be.
Presented to:
Colorado Chemical Demilitarization Citizens’ Advisory Commission
Presented by:
Mr. Steven Bird
Pueblo Chemical Depot Explosive Destruction System Project Lead
Project Manager for Non-Stockpile Chemical Materiel
This is an in-depth course that is designed to provide the participants with a solid understanding of reservoir engineering and associated modern theories in order to manage and maximize hydrocarbon recovery. Hands-on examples and exercises are used throughout the course to help participants with understanding key performance concepts. Participants are encouraged to bring their own laptop computer to class.
The oil and gas industry places great reliance on layers-of-defenses, or barrier thinking, to protect against process safety incidents. Human performance continues to be the single most widely relied on barrier: whether as a defense in its own right, or in implementing, inspecting, maintaining and supporting engineered defenses. Human error, in its many forms, also continues to be a significant threat to the reliability of engineered and organizational defenses. While approaches to developing and assuring layers of defenses strategies have become increasingly formalized and rigorous in recent years, many organizations struggle to know how to ensure the human defenses they rely on are as robust as they reasonably can be when those strategies are developed and implemented. Drawing on the 2005 explosion and fire at the Buncefield fuel storage site as a case study, the presentation considers issues associated with the independence and effectiveness of human defenses. The key idea SPE members should take away from the lecture is that organizations can improve the strength of their human defenses by being clearer about exactly what it is they expect and intend of human performance to protect against threats. The presentation sets out challenges organizations can use to ensure the human defenses they rely on are as robust and reliable as they reasonably can be.
Presented to:
Colorado Chemical Demilitarization Citizens’ Advisory Commission
Presented by:
Mr. Steven Bird
Pueblo Chemical Depot Explosive Destruction System Project Lead
Project Manager for Non-Stockpile Chemical Materiel
This is an in-depth course that is designed to provide the participants with a solid understanding of reservoir engineering and associated modern theories in order to manage and maximize hydrocarbon recovery. Hands-on examples and exercises are used throughout the course to help participants with understanding key performance concepts. Participants are encouraged to bring their own laptop computer to class.
DUG Bakken and Niobrara 2015 Conference Previewbdeese
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1. NAME : Terry Lee Ivy
PRESENT POSITION : Consultant
DATE OF BIRTH : 2/13/52
NATIONALITY : American
PASSPORT NO. : 505775200
EMPLOYMENT COMMENCED : 11/01/77
FORMAL TRAINING : Associates Degree in Applied Sciences
Tulsa Junior College 1992 72 Credited Hrs.
: Chemistry- Univ. Of Arkansas + 30 Credits
: Midwestern State Wichita Falls 35 Credits
TRAINING COURSES : High Pressure Pumps
: Centrifugal Pumps
: High Velocity Flushing & Filtering Pumps
: Texas Oil & Production Course
: Vacuum Pump Operations
: Triplex Pump Operations & Maint.
: Pigging
: Vacuum Drying
: Boiler Operations
: Refinery Operations
: Supervisory Management
: Pigging Operations
: Drying Pipelines
: Air Driven Pumps
: Safe Handling Inert Gases
: Safe Handling of Oxidizers, Base Acids
: Safe Handling of Mineral Acids
: New York City Safe Handling of Oxidizers
License
: Steam Blows of Production Pipes
: Slug Flushing of Production Pipes
: Foaming Acids with Ert & Inert Gases
: Metallurgies and Corrosion Rates
: Vapor Phase Cleaning
: Basics of Chelants & Application
: Lab Techniques
: Field Chemist
: Milipore Particle Counting
: Entech Particle Counter
: Dew Point Meters
2. : Atomic Absorption Spectrophotometer
: DR 2000 Spectrophotometer
: Hydraulic & Lube Oil Flushing
: Steam & Air Lows
: Nuclear Radiation
INDUCTION COURSES : Houston Safety Council
12 Basic Plus
12 Background/SSV
DOT Qualifications
19OQ Abnormal Operating Conditions
19OQ Pigging Operations
19OQ Purging Operations
19OQ Leak Testing
19OQ Pressure Testing
19OQ Relief Valve Leaking Valve Repair
: ISNetworld
: National Center For Construction Education
& Research
: Survival Systems Training #11855
: First Aide, CPR
: Firefighting
: Freefall Lifeboat Training
: Scott Air Pack
: WHMIS Training at Halifax, Ca.
: Texas Safety Training Council
: Illinois Safety Training
: EXXON Safety Training
: US Steel Safety Training
: Consolidated Edison Safety Training
: HSE Confined Space Entry Basics Canada
: HSE Confined Space Entry Level II
: HSE OSSA Fall Protection
: HSE Petroleum Safety Training
COMPUTER SKILLS : Microsoft Office 2000
: Microsoft Word 2000
: Microsoft Excel 2000
: PowerPoint
3. WORK EXPERIENCE
LOCATION PROJECT DESCRIPTION
TerraNova; Bull Arm, New Foundland; Chemical Cleaning and oil flushing of hydraulic
systems & fire water system.
Williams; Longview, Cal. to Red Mesa Az; Chemical cleaning and pigging of 850 miles of
pipeline.
Dow Chemical, Freeport, Tx. Chemical cleaning and drying of 6” & 8” pipelines.
Longhorn, Odessa, Tx. & Chevron, Pascagoula, Miss; Hydro testing gas plant piping &
hydro testing & drying pipeline.
Mobile, Ala; Hydro Test of various natural gas system piping.
Mid America Steel, Hammond, Ind.; Chemical Cleaning of blast furnace coolers.
Brutus Platform, Gulf of Mexico; Hydro testing, dewatering and drying pipeline.
PGE, Wheatland, Wy; Chelant cleaning & passivation of 2 utility boilers + lab analysis of
compounds removed form tube walls.
Shell of Canada, Ft. Saskatchewan, Edmonton; Oil flushing 5 Pignone Compressors.
Hallifax, Canada Off shore Platform; HCL removal of water hardness scale.
Pemex / Govt. of Mexico; Mechanical & Chemical cleaning, drying and phosphate coating
and paint coating the inside pipe surface of 30 miles of pipeline.
Black & Veatch, Yanpet Project, Sara Bayou, Indonesia; Chemical cleaning boiler feed
water system.
Foster Wheeler, Malaysia; Steam blow piping for 3 HRSGs and oil flush lube oil system.
USS Ranger, Bremerton, Wa.; Foam acidizing of catapult recovery system and drying to
a -90 Dew Point.
USS Nimitz, USS Roosevelt, USS Eisenhower New Port News, Va; Chemical Cleaning
of catapult recovery system and chemical cleaning of hydraulic systems.
KCPL Kansas City, Kansas; Chelant cleaning of utility boilers, lab analysis. Foam
generation to clean water condensers using HCL.
EXXON, Kemmerer, Wy; Foam generation to clean Trains A & B. using nitrogen and
HCL.
4. US Steel Pittsburg, Ca.; Chemical cleaning, degreasing, pickling and oil flushing of
hydraulics systems. Lab analysis of scale removed. Particle counts to specs.
Motorola, College Station, Pa.; Chelant cleaning of production pipe.
Pittsburg Paint & Glass Wichita Falls, Tx; Chelant cleaning of cooling water system.
Tyson Foods, Bentonville, Ark.; Acidizing of food production pipe.
Merck Pharmaceuticals, Newark, New Jersey; Acidizing, analysis of scale removed &
pickling of boiler.
Anhauser Busch, St. Louis, Mo.; Acidizing, analysis of scale removed & pickling of
production pipe.
Texas Gas & Electric Garland, Tx; Foam generation of acid to clean water condensers.
Puerto Rico Utility; Foam generation of acid to clean condensers.
Kansas Gas & Electric Topeka, Ks; Chelant cleaning of utility boilers, foam generation of
acids to clean water condensers, lab analysis of removed scales.
Texaco, Beaumont, Tx; Night project manager.
Acidizing and H2S removal from various production vessels.
Saudi Government, Saudi Arabia; Steam blow and water slug production pipes.
PEMEX, Pozo Rico, Mexico; Pigged, chemical cleaned, pickled and paint coated 60 miles
of 6” & 8” pipeline.
Avila Beach, Ca; Chemical analysis at Diablo Canyon Nuclear Site.
Pennsylvania; Chemical clean generator cooling system at Nuclear Utility.
Tengiz/Chevron Oil, Kazakhstan; Engineering, Training and Supervision of crews in hook
ups and execution of job. Air blowing, water slugging, chemical cleaning, package boiler
operations and steam blows of new construction preoperational pipe systems.
Ft. McMurray, Alberta, Canada; Steam Blows, Oil Flushes & Chemical Cleaning.
Kingdom of Qatar: Gulf Strategic Partners: Pigging Operations for CTJV Commissioning
Previous Employment:
Sept. 2015-Oct. 2015 FQE
Chemical Cleaning Engineer
Sadara
5. Saudi Arabia
June 2015-Aug. 2015 BEST
Consultant
BEMCO
Saudi Arabia
May 2014-December 2014 Four Quest Energy
Consultant/Chemist/Particle Counter
Texas Petro Chemical & Air Liquide
Houston, Texas
Aug.9, 2013-March 2014 Four Quest Energy
Lube Oil Flush Engineer
Management Team
SAMREF/Worley Parsons
Saudi Arabia
July 2013-Aug. 3 Gulf Strategic Partners
Project manager
MMG/Saudi Aramco
Bemco/Qurayyah Power Plant
Feb 2011-Sept. 2012 Four Quest
Project Coordinator Chemical Cleaning
Kazakhstan
March 2011-May 2011 Energy Services International
Chemical Cleaning Consultant
April 2009- Jan 2011 B&W Fluid Dynamics
Contract Service Supervisor / Consultant
July 2008 Private Consultant
Part Owner: Trident Pipe Line Services
Jan. 2008-June 2008 Eveready Pipe Line Services
Operations Manager
World Wide Pipe Line Operations
April 2005-Jan.2008 B&W Fluid Dynamics
Contract Service Supervisor / Consultant
October 2002-2005 HydroChem Industrial Services
Contract Service Supervisor / Consultant
6. December 1999 - October 2002 BJPPS Houston Texas
Service Supervisor 1
May 1993 - December 1999 HydroChem Industrial Services
Contract Field Engineer
September 1987 - May 1993 Dowell Schlumberger Industrial Services
Contract Field Engineer
September 1977 -September1987 Dowell Industrial Services
Senior Equipment Operator
Junior Engineer
Terry L. Ivy
4703 Stansbury Lane
Wichita Falls, Tx. 76310
940-337-3223 Cell
7. December 1999 - October 2002 BJPPS Houston Texas
Service Supervisor 1
May 1993 - December 1999 HydroChem Industrial Services
Contract Field Engineer
September 1987 - May 1993 Dowell Schlumberger Industrial Services
Contract Field Engineer
September 1977 -September1987 Dowell Industrial Services
Senior Equipment Operator
Junior Engineer
Terry L. Ivy
4703 Stansbury Lane
Wichita Falls, Tx. 76310
940-337-3223 Cell