Gas Liquid Engineering - Presentation Brazil

September 2013

Corporate Overview

Privately-owned

Founded in 1987

Approximately 250 staff

Gas and oil processing facility design, and project management

Alliance with PM Group, Ireland

MISSIONTo lead the field in providing

ingenious technical expertise, creative solutions, and

responsible flexible design services to our clients.

TECHNICAL EXPERTISE Sour gas processing

Liquids recovery Acid gas injection

Natural gas hydrate handling CO2 management

Corporate Data

USA34%

Canada56%

CIS2%

EU2%

Middle East7%

Other0%

Global Activities

New Facili-ties25%

Facility mods.38%Permits

2%

Concep-tual De-

sign11%

Studies9%

Design Review

15%

Project Types

0

50

100

150

200

250

300

350GLE Full Time Manpower

0

50

100

150

200

250

300

350

400Projects

Core Skills

Feasibility studies Conceptual designBasic engineeringDetailed engineeringProject managementProcurement servicesConstruction managementPlant manualsOperating trainingCommissioning supportStart-up supportOperations supportTrouble-shooting

Gas Processing Facilities

Pipelines

Well sites

Compression

Dehydration

Sour gas processing

Liquids recovery

Sulphur plants

Acid gas injection

Carbon dioxide management

Oil Processing Facilities

Terminals

Batteries

Primary processing

Services

In-house: Process Engineering

Mechanical Engineering

Civil Engineering

Project Engineering

EIC Engineering

Design/Drafting – 3D/ACADD

Stress Analysis

HAZOP/HAZID

Regulatory (Canada)

Procurement

Pipeline Design

Operations Support

Services

Internal Alliance: Electrical EngineeringControl Systems (E&IC)

External Alliance: Environmental EngineeringReservoir EngineeringMaterials/Corrosion

Process Engineering Software

BR&E Promax 3.2 – Promax is industry-recognized, robust process simulation software that will be used for general process design including amine sweetening, dehydration, fractionation, LPG recovery, sulphur plants, sour water stripping, pipelines and vessel sizing.

ASPEN HYSYS® 7.3– Hysys is the benchmark process simulator, against which all others are measured. It is used as a backup tool, detailed investigation reviews, and/or a way of verifying simulator confidence.

VMGSim – Comprehensive, fully interactive process simulation for oil, gas and chemical industries. VMGSim is the default simulation tool utilized at Gas Liquids Engineering. VMGSim also includes dynamic simulation capability.

Fekete FAST Piper – Fekete Piper is available for use in gathering system modeling.

Neotec Pipeflo – Gas Liquids Engineering has extensive experience using Neotec Pipeflo to model large gathering system pipeline networks, including use of the software for sizing pipelines as well as predicting liquid hold-up and slug volumes. Neotec also provides GLE with access to Wellflo and OLGA.

Process Engineering Software

ProTreat - ProTreat® software was originally developed for simulating processes for the removal of H2S, CO2, and mercaptans from a variety of high and low pressure gas streams by absorption into thermally regenerable aqueous solutions containing one or more amines. Recently added capabilities include the physical solvent DMPEG (dimethylether of polyethyleneglycol) for acid gas removal, and dehydration using triethylene glycol (TEG). The ProTreat package makes exclusive use of a column model that treats the separation as a mass transfer rate process. This completely eliminates the need for empirical adjustments to simulate new applications correctly. Equilibrium stages and user-supplied estimates of tray efficiencies and HETPs are avoided, and columns are modeled with the number of real trays and physical depth of real packing they actually contain.

Compression – Gas Liquids Engineering has access to a full complement of compressor vendor software packages including:• Ariel Performance • GE Oil and Gas Viper and EZ-Size• Dresser-Rand DRSize• Cooper Cameron Cascade and Compass

Project Management Software

On Track Project Manager – OnTrack Project Manager is a complete, transaction-based, integrated project execution software and the most comprehensive, reliable, and fully automated procurement system for engineering professionals.

PHA-Pro7 – Industry recognized software for process hazard analysis. This software is used globally for tracking project safety risks, HAZOP’s, LOPA, and safety system analyses.

Primavera P6 – R8.1 –Primavera is a high-performance project management software, designed to handle large-scale, highly sophisticated and multifaceted projects. It can be used to organize projects up to 100,000 activities, and it provides unlimited resources and an unlimited number of target plans.

Engineering Software - Proprietary

Proprietary Software – Gas Liquids Engineering also utilizes a variety of proprietary including:

• AQUAlibrium - Software designed for systems containing water, hydrogen sulphide, carbon dioxide, and hydrocarbons.

• GLEWPro - A Windows application to estimate the phase, property and flowing profiles in the well bore. Enhanced by the AQUAlibirum Phase Equilibrium Engine, GLEWpro is capable of handling the phase changes in the well bore, the heat transfer between the stream and formation, and the flowing behaviors from wellhead to bottom hole.

• MassTrak - An OPC client application used to monitor the streams of a gas facility and provide a detailed material balance for desired components.

• GLESource - Proprietary software foe basic design calculations, preparation of data sheets and equipment sizing

Design Software

Advanced Steel 2012 - Advance Steel is specifically designed for structural engineers and steel detailers who require professional and easy-to-use BIM structural steel detailing software that automates the production of drawings, BOMs and NC files.

Autodesk AutoCAD 2013 – Our design and drafting staff uses AutoCAD 2013 for development of engineering schematics (block flow diagrams, PFDs and P&IDs) as well as construction drawings such as site layouts (plot plans) and orthographic drawings.

Autodesk Civil3D – Designing and visualizing a complex project in 3D not only helps accelerate the planning and design process, it also produces a higher-quality design.

Autodesk Navisworks Simulate 2013 – Navisworks is a software package that allows users to “walk” through 3D models and review the entire site. It is primarily used for ongoing engineering and client review of 3D models throughout development, resulting in minimized re-working as a project moves into the construction phase.

Design Software

AutoTURN 8.0 – is a vehicle swept path analysis and turn simulation software. New and updated features give us the ability to perform intricate vehicle movements with reliable engineering results.

Intergraph’s CADWorx Plant 2013 - CADWorx 2013 is the latest software used for 3D model development and P&ID development. It is a GLE standard that all facility modeling is performed using 3D modeling, as significant cost benefits and design execution improvements have been realized.

Intergraph’s CADWorx P&ID 2013 – has everything needed for the easy creation of intelligent process diagrams that are linked to our SQL database. CADWorx P&ID unlocks the power of P&ID's by making diagrams, and the information locked within them, available to all stakeholders.

Integraph’s Caesar II – Industry recognized Stress Analyzing software. Incorporates the industry's first and only seamless, bi-directional link between CAD plant design and engineering analysis. This link to Intergraph CADWorx Plant allows the passing of design and analysis data between these packages without data loss.

Project Engineering

ENGINEERING STUDIES

Acquisition evaluations Conceptual designs Cost estimates Debottlenecking/Expansions Design reviews Emissions and noise abatement

control Environmental Impact and liability

studies Feasibility reports HAZOP/What-If studies Performance testing Plant ratings Process optimization Troubleshooting

DESIGN ENGINEERING

CAD drafting Civil Design Basis Memoranda Electrical Environmental Instrumentation/Controls Mechanical - equipment Mechanical - piping Modularization/flexibility Plant layout Process Retrofitting/Upgrading Safety Specifications

Project Management

Facility specifications

Planning & scheduling

Estimate Development

(AACE Class)

Bid evaluations

HAZOP/PHA

Contract administration

Cost monitoring & control

Fabrication inspection

Fast tracking

Integration studies

AFE budget control

Material procurement

Construction/contract documents

Construction inspection

Operating manuals

Training

Commissioning

Start-up planning

Quality control/assurance

Risk analysis

Regulatory support

Gas Processing

Over 70 gas processing projects completed in the last 10 years.

Capacity from 5 MMSCFD to > 1000 MMSCFD

Multiple projects with refrigeration and liquids recovery

Multiple sour gas projects with amine plants and sulphur facilities or

acid gas injection.

Typically 2-3 cryogenic plants with turbo expanders each year.

Development of patented carbon dioxide dehydration process

Over 50 clients annually

Large multi-nationals to small “one well”

clients

Over 100 projects annually

Full gas processing facilities to single

well pipeline tie-in

Represents about 65% of workload

Major Clients: Murphy Oil, Devon

Canada, Suncor, Husky, ARC, Altagas,

Keyera, Enerplus

Client Base - Canada

About 15 clients annually

Small clients to NOC

Over 20 projects annually

Conceptual design, FEED & basic

engineering

EPC Technical Advisor

Facility troubleshooting

Represents about 35% of workload

Specialize in sour gas processing and

acid gas injection

Client Base - International

Global Projects

Argentina

Australia

Bahrain

Bolivia

Canada

China

Cuba

Czech Republic

Egypt

India

Italy

Kuwait

Malaysia

Norway

Oman

Pakistan

Poland

Qatar

Russia

Syria

UAE

UK

USA

Venezuela

Ukraine

Shale Gas Plant Projects

Shell Canada – Saturn Gas Plant

Engineering, procurement and construction of a 198 mmscfd (5600 e3m3/d) natural gas processing plant. Design features include:

o Inlet slug catching and separation o Inlet and sales compression consisting of five (5) 3-stage Ariel KBZ/6 with 6500 hp (4847 kW) electric drives o Dewpoint control utilizing two (2) 484 hp Howden screw compressors in propane refrigeration service o Condensate stabilization and storage (3 x 1200 bbl capacity) o Produced water storage (4 x 1200 bbl capacity) o Vapour recovery system for glycol still vent and storage tanks o Recycle compression consisting of two (2) Ariel JGA/4 with 300 hp (224 kW) electric drives o HP/LP flare system with 328 ft tall stack (100m) o Full plant utilities including:

Process and utility heat medium system with heater duty of 13.6 mmbtu/h (2 MW) Instrument air and nitrogen purge systems Drain and storage systems for closed hydrocarbon drains, floor drains, and glycol drains Integrated plant control system (PCS), including emergency and process shutdowns Site civil design and work including grading plans, office/warehouse buildings, site roads, foundations and structural steel.

.

Shale Gas Plant Projects

Murphy Oil – Tupper Gas Plant

Engineering, procurement and construction management (EPCM) for a 180 MMSCF/d sour natural gas processing plant near Dawson Creek, British Columbia. Design features of the plant include:

o Inlet slug catching and separation on three separate inlet gathering systems o Inlet and sales compression – Four (4) 3-stage Ariel JGZ/6 packages, each with 6500 HP electric drives o Amine sweetening – 215 USGPM design of amine circulation o Dewpoint control utilizing mechanical refrigeration (300 USTR and 700 HP refrigeration compressors) and glycol injection o Condensate stabilization and condensate storage (800 BBL of storage) o Sour water stripping and produced water storage (10000 BBL of storage) o Acid gas compression – dual 300 HP electric drive, 5-stage reciprocating compressors o Acid gas dehydration – DEXPRO process o Acid gas injection through a 2 km pipeline; provision for future mixing of acid gas and sweet sales gas to produce a sour sales gas stream including sweet mix compressors (250 HP reciprocating compressors) o Vapor recovery (tank and dehydrator still vents) and recycle compression (200 HP electric drive) o High pressure, low pressure and acid gas flare systems o 25 km long 18” diameter sweet sales gas pipeline and a 5 km long 3” diameter sour sales gas pipeline

.

Shale Gas Plant Projects

Access Ltd – Dilley, Texas

o Conceptual design, FEED, and detailed design of acid gas injection facilities for a 110 MMSCFD, sour gas processing plant.

o Facilities included tie-in piping, acid gas knock-out drum, 2 by 500 MSCFD, 5-stage acid gas compressors, acid gas pipeline to well-head, methanol injection skid, and new instrument air receiver.

o Tie-ins to existing 30 MMSCFD plant, new 110 MMSCFD plant and all required utilities, drains, and flares were included as well as electrical, instrumentation, and controls for process equipment and connection to motor control center.

o Contributions to creation of start-up and operating procedures, and commissioning and startup training and support are ongoing.

Pipeline Projects

Alberta Hub – Peers, AlbertaProject management of the design and installation of 7 miles of 12 inch gathering system and wellsite facilities.

Devon Canada – Chinchaga, AlbertaDesign and project management of installation of 40 km of tie-in pipeline to 18 wells.

Gulf Canada РSwan Hills, AlbertaConducted a mechanical reliability study for 65 km of produced water pipelines, 50 km gas gathering and oil flowlines (ranging from 4ӯ to 12ӯ). The system flows were 7500 bbl/d oil, 50 MMSCFD gas and 180,000 bbl/d water.

Compression Projects

AltaGas Ltd. – Suffield South Modeled the pipeline network 103 km and 5 compressor stations with PIPEFLO including matching field and simulation data. Evaluated hydraulic analysis data to determine potential maximum backpressures for various capacities. Undertook economic analysis of looping and compressor options.

Confidential – Middle EastThe AGI conceptual design basis consisted of 3x50% 4-stage gas turbines each at 14,152 BHP (10409 kW) driving reciprocating compressors. The total acid gas feed conditions were 85 MMSCFD (2.41 x 106m3/day) gas containing a range of 34-64% H2S with the balance CO2 and a discharge pressure of 230 bara (23,000 kPa).

Dehydration Projects

Gas Liquids Engineering has designed over 300 dehydration facilities including:

Client Location Total Volume

(MMSCFD)

Units Pressure (kPa)

Dewpoint (Deg C)

Notes

Bahrain National Oil Company

Bahrain 250 3 3180 -42 TEG

Devon Canada

CorporationCabin Creek 50 1 11500 -10 Sour TEG

Devon Canada

CorporationColeman 60 1 4500 -10 Sweet

SorbeadTM

Enco Gas Sierra West 25 1 8720 -20 Sour TEGGas

Authority of India

Pata, India 400 1 8720 -60

Industrie Mechaniche Scardelatto

Romania 1100 25 2100 -15 TEG

Gas Plant Projects

Altagas – Harmattan

AN EPCM brownfield project to modify an ethane extraction plant and oversee engineering design to increase production from 160 to 400 mmscfd. This project involved installation and modification of equipment within the existing facility including:

o Inlet compressor - Centrifugal-EMD (5200 hp) o Residue gas compressor - Centrifugal-EMD (8500 hp) o Sales gas compressors - replaced two 2400 hp engines with two 4000 hp electric motor drives. o Removed two 2000 hp engine driven refrigeration compressors. o Added refrigeration compressor (7500 hp, Elliot Centrifugal Compressor and o Solar Turbine Driver) c/w condensers, accumulator, and economizer, and tied into existing refrig system. o Added a waste heat recovery system to refrig compressor exhaust and merged into existing HM system. o Retrofitted two 800 hp steam turbines in refrigeration service. o Turbo-expander addition (400 MMSCFD) and removal of existing 250 MMSCFD Turbo-expander o De-ethanizer(s) tray change, nozzle addition and piping to create two trains while reducing refrigeration requirements and increase throughput. o Added two 5560 KW de-ethanizer overhead condensers and three 350 hp pumps to convert to full ethane condensing.

Gas Plant Projects

Altagas – Blair Creek Design and construction of a major gas plant modification to handle an additional 46 mmscfd (1302 e3m3/d), including:

o Twinning of an inlet pipeline o Inlet separation for 64 mmscfd (1812 e3m3/d) o Three (3) 2-stage compressors (1 x Ariel JGK/4, 2 x JGD/4) with Waukesha natural gas drivers (1 x 1680 HP, 2 x 1970 HP) for inlet and sales compression o Two mechanical refrigeration units for high liquids recovery o Primary refrigeration unit utilizes a single stage MYCOM screw compressor with a 500 hp electric driver o Secondary refrigeration unit utilizes a single stage MYCOM screw compressor with a 600 hp electric driver o Glycol still vent condensing tank for reduction of BTEX emissions o Liquids fractionation including a stabilizer and de-ethanizer o Processed liquids storage including 3000 bbl total condensate storage and 250,000 gal (945 m3) of LPG storage o Vapour recovery unit (with backup educator) to eliminate light emissions from condensate and produced water storage tanks o Recycle compression o Flare system with header, knockout drum and 140 ft (43 m) tall stack o Electric generator set with 800 kW output o Full plant utilities

Gas Plant ProjectsDevon Canada Corp – GundersonEngineering, design and project management for a sour gas plant: 1409 e3m3/day (50 MMSCFD), 15% H2S, mole sieve, inlet slug catching, two 400 kW power generators,

a 1110 kW (1500 HP) compressor, operations camp, infrastructure, 2 wellsites tie-ins, vapour recovery system. Responsible for operating manuals, commissioning and start-up.

Spectra Energy Midstream – Fourth CreekEngineering, design, and project management of the design, procurement and construction of a sour gas plant, 69 MMSCFD, 10 t/d sulphur, two 30 & 45 GPM mixed amine processes, 200 HP (-10 deg F) and 500 HP (-45 deg F) refrigeration units, 1800 HP Paddy compression scheme, 3,000 HP plant sales compression, 150 HP acid gas (30% H2S) re-injection compression. Acid gas pipeline: 3830m.

Acid Gas Injection ProjectsDevon Canada Corp – RycroftDesign and project management of a 676.2 e3m3/day (24 MMSCFD) sour gas plant including 125 USGPM amine sweetening, 350 HP refrigeration, C5+ production, 2220

kW (3000 HP) primary gas compression, 185 kW (250 HP) acid gas injection, recycle compressor, VRU and 1200 KW power generation.Acid gas composition: 70% H2S, 29% CO2. Acid gas compression: 250 HP at 1220 psia

discharge.Acid gas pipeline: 500m with 1218 psia wellhead pressure.Responsible for commissioning and start-up.

John Brown Hydrocarbons – London, UKWellhead and wellbore completion; management of core and reservoir studies undertaken in Canada.Conceptual design, preliminary equipment selection and project budget for an 85 MMSCFD acid gas (55% H2S, 45% CO2) injection project.

Front end engineering and design of 85 MMSCFD acid gas injection facility including acid gas compression (45,000 HP), sour water treatment, acid gas pipeline, wellhead and wellbore completion.

Acid Gas Injection Projects

Suncor – South RosevearEngineering, design and project management of two(2) 800 HP electric drive 4 stage acid gas compressors. Facility modifications included sour water handling, new HC condensate stabilizer, acid gas chilling, refrigerant condensor, amine charge pump modifications, and new utility steam boiler. All work took place inside an operating sour gas facility.

Keyera – CaribouEngineering, design and project management of a 40 MMSCFD plant expansion to the existing 65 MMSCFD sour facility. Extensive in-plant work including new amine and refrigeration process modules, 814 HP gas drive acid gas compressor, 1478 HP sales compression, 550 kW power generation, heat medium and plant utilités, flare system modifications, inlet separation, and multiple plant modifications and tie-ins. Extensive pre-commissioning and startup assistance, site training, and process support.

Liquids Recovery Projects

ATCO Midstream - Golden Spike, AlbertaPreliminary engineering and technical auditing of the detailed design for a 1127 e³m³/day (40 MMSCFD) sour gas plant involving 333 kW (450 HP) acid gas (50% H2S) injection, turbo expander and coldbox, ethane extraction, mole sieve, and

mercaptan removal. Project management and engineering management, EPC contract development and administration, start-up services; followed by process design, permitting, and project management for a sacrificial sweetening system.

Win Energy (now Compton Petroleum asset) – Todd Creek, AlbertaEPCM management for a 20 MMSCFD sweet gas plant from conception through to start-up. The plant included inlet separation, 1280 HP compression, mechanical refrigeration, LPG recovery and LPG storage.

CO2 Management ProjectsEncana – Deep Panuke, Nova ScotiaPreliminary design of an offshore acid gas injection scheme to inject 4.5 MMSCFD of acid gas with an approximate composition of 25% H2S and 75% CO2. Study

included compressor design (1200 HP), phase equilibrium calculations and water content. Scenarios studied included blending the acid gas with condensate prior to injection.

HTC Purenergy - CanadaPreliminary engineering for a total installed cost estimate at 25% for an onshore facility entailing 4355 tonne/day CO2 capture from flue gas with amines, 73 MMSCFD (0.68 x 106 m3/day) dehydration and 24,500 hp (18.3 MW) of compression for offshore EOR. This facility was a proposed add-on to an existing 420 MW gas fired combined cycle power plant in Norway.

Heavy Oil Projects

Devon Canada – Manatokan Heavy Oil Battery

Through strong project management skills, this 10,000 B/D expansion (phase III addition to an existing facility) was executed exactly on the two year schedule and under budget. Excellent Devon/GLE teamwork through on-the-run debottlenecking yielded a start-up capacity of 15,000 B/D – a 50% improvement. The EPCM project services scope started with AFE development and approval, EUB permitting, DBM preparation and equipment specifications, detailed design and procurement, specifications for construction, equipment and construction bidding and contract awards, shop and field inspection, commissioning and start-up.

The scope of this heavy oil (12 0 API) battery expansion project covered AFE generation DBM, project and schedule control, design, material specs, construction and equipment bid documents, EUB permit, material and equipment procurement and construction contracts award, as well as change management through to completion, for phase 3 (design: 10,000 B/D). 10-15,000 B/D produced water disposal was also within the scope. Strong project control skills meant execution on exact schedule and under budget. Effective Devon / GLE teamwork created on-the-run debottlenecking yielding actual production capacity of 16,000 B/D. .

Project Evaluations

Gulf Canada Resources Limited (now ConocoPhillips Canada) – Swan HillsConducted a mechanical reliability study for the 65 km of produced water pipelines, 50 km gas gathering and oil flowlines (ranging from 4” Ø to 12” Ø). The system flows were 7500 bbl/d oil, 50 MMSCFD gas and 180,000 bbl/d water.Conducted system improvement studies for the above gas gathering and produced water injection pipelines.Carried out the economic evaluations for various production gain scenarios involving reliability improvement for the gathering and produced water injection systems.

Kharafi National – KuwaitCompleted pre-bid/basic design engineering for 150,000 barrel per day sour oil and 550 MMSCFD sour gas treatment facilities. Scope included well-site tie-in, gathering system, pressure separation, oil stabilization, storage, and vapour recovery, gas recompression, gas sweetening and dehydration, and 600 tpd sulphur plant.

Solex Energy Inc. (now Altagas) - EdmontonConceptual process design for purification (COS and mercaptans) and fractionation of a 30,000 bbl/d condensate stream to yield propane, butane and heavier fractions.

International Projects

Polish Oil and Gas Company - Debno, Poland

Design basis memorandum and project specifications and project management of a US $70 million gas plant development involving 21 wells and the production of 45 MMSCFD gas, 6000 bbl/d oil, 120 t/d sulphur, 600 bbl/d LPG and 200 bbl/d condensate. Fabrication and construction inspection. Pipeline system design and evaluation.HAZOP evaluation. Start-up and operations support.

Red Mountain Energy – Minnibai, Russia

Process design, basic and FEED engineering for a 45 MMSCFD cryogenic facility to separate nitrogen, sales gas and C2+ products from a mixed stream. The plant includes a relatively simple two tower design without the requirement of external refrigeration and produces high purity sales gas and 95-99% ethane recovery.

Petroleum Development Oman (Tebodin & Partner LLC)

Technology screening and conceptual study of gas treating facilities in support of Rabab Field Development. Optimization of integrated plant configurations and cost estimation provided the basis for a recommended conceptual plant design.

Kharafi National – Kuwait

Completed pre-bid/basic design engineering for 150,000 barrel per day sour oil and 550 MMSCFD sour gas treatment facilities. Scope included well-site tie-in, gathering system, pressure separation, oil stabilization, storage, and vapour recovery, gas recompression, gas sweetening and dehydration, and 600 tpd sulphur plant.

International Projects

Polish Oil and Gas Company - Lubiatów-Międzychód-Grotów, Poland

The LMG plant is designed to process fluids from 13 well-sites and 5 gathering centres to produce 11,300 bbl/d of stabilized oil, 25 MMSCFD of sales gas, 500 bbl/d of LPG, 240 bbl/d of condensate, and 70 t/d of elemental sulphur. The project includes the well-sites and gathering lines, as well as plant facilities which include oil/gas/water separation, oil de-salting and stabilization, gas treating, low temperature separation and fractionation, water treatment and injection, sulphur production, plant utilities (power generation [4 x 3.4 MW, each @ 6 kV], steam, instrument air, fuel gas), product export pipelines (oil & gas) and truck loading facilities for LPG, condensate, and sulphur. Plant compression facilities include low pressure gas recompression (3 x 60 %, 630 KW each), sales gas compression (3 x 60 %, 1000 kW each) and propane refrigerant compression (2 x 100 %, 900 kW each). The Polish Oil and Gas Company (POGC) retained Gas Liquids Engineering as the lead member of a consortium acting as the Technical Advisor to POGC for the LMG project, providing services which include:

o Review of the basic, building, and detailed engineering design packages for the project facilities to ensure proper design. o Review of HAZOP, LOPA, and SIL studies to ensure design and implementation of acceptable safety systems to protect plant personnel, equipment, and the Nature 2000 forest environment around the facilities. o Construction inspection and factory acceptance testing for key equipment items. o o Training for plant management and operations staff. o Commissioning and start-up support and support for technical acceptance of the completed facilities.

.

International ProjectsKinder Morgan CO2 Company – SACROC Unit, Texas, USAThe SACROC Unit processes over 620 MMSCFD of gas for CO2 capture and injection while recovering over 30,000 bbl/d of oil and 15,000 bbl/d of NGL liquids.  

Capacity Increase ProjectIdentified an additional 90 MMSCFD capacity with minor equipment modifications. The primary scope involved process review, simulation, major equipment rating and cost estimation for modifications for inlet separation, dehydration, filtration, chilling/separation, booster compression, gas and liquid amine treating, NGL recovery and condensate stabilization.

 Expansion ProjectGenerated the FEED for a 240 MMSCFD expansion train for CO2 capture, injection and liquids recovery.The primary scope involved design basis memorandum generation, engineering process design, capital cost estimation and data sheet package development involving inlet separation, dehydration, filtration, refrigeration, liquids separation, heating and water-cooling. The secondary scope involved to varying degrees process review, cost estimation and data sheet package generation for modifications of all affected downstream processes such as molecular sieves, amine systems, NGL recovery, condensate stabilization and Puraspec.

HSE/QC

Gas Liquids Engineering Ltd. is committed to providing a safe and healthy working environment for all employees, contractors, customers, and to protecting the public and the community. As part of this commitment, our goal is to maintain a safety record of zero recordable incidents. We encourage all participants to work safely through education, communication and participation.

Gas Liquids Engineering has a comprehensive, integrated Health & Safety Program. Our Health & Safety program is COR certified, which guarantees a minimum standard and level of commitment towards health and safety and that our program complies with standards set out by the Partnerships in Injury Reduction.

Gas Processing Association of Canada Award for 26 years without a lost time accident.

IRP16 Safety Orientation certification.

ISO 9001:2000 compliant Quality Assurance

20042005

20062007

20082009

20102011

2012-0.020.020.06

0.10.140.18

LTI per 100 workers

GLELinear (GLE)Alberta Engineering Industry

Executive Management

Doug MackenziePresident

Peter GriffinVice-President International &

Corporate Affairs

Jim MaddocksVice-President

Engineering

Arnie ToewsVice-President

Facilities

Bruce Parsons Vice-President

Information Management

Eva Wencel, Office Manager

Greg BuryDirector, Business

Development

Carolyn Galloway,Financial Manager

Ida Seib,

Procurement Manager

September 2013