Lifeview Enhanced Oil Recovery PRTISP Process November 19

Lifeview Enhanced Oil Recovery PRTISP Process November 19, 2014 Copyright Lifeview Oil and Gas Patent Pending

Who has been involved with the Development of PRTISP Harold Nikipelo Sole designer of PRTISP and downhole tool, President of Lifeview Oil and Gas Management Services Dr. Alex Turta, Alberta Research Council Calgary, Advisor to PRTISP process only Head of the Enhanced Oil Recovery Co-designer of THAI, Author of many EOR papers Dr. Kenny Adegbesan, KADE technologies Reservoir Modelling Simulations Facility Engineering Downhole Tool Development Engineers ( Thermal) Thermal Engineering Firm for all downhole development Geomechanical Staff Geologists

Building a better Mouse Trap Current heavy and conventional Oil Recovery Technologies. THAI & CAPRI SAGD Solvent Injection Electrical energy Water flooding Gas Injection

What if What would happen if you combine 4 proven (Pulse, Thermal, Solvent Gas Injection, Toe to Heel Injection Production configuration )into 1 process? technologies Dr. Alex Turta and Dr. Ken Adegbesan believe it may change the way we look at heavy oil and conventional oil recovery.

The Concept & Benefits to you When effectively implemented, we believe our Process may be the most efficient way to accelerate fluid flow and disperse liquids through oil-bearing geological material. Economically efficient production, thanks to better oil mobility and anticipated well efficiency , Cheaper Facility due to less steam being generated The process of the present invention is adaptable for use in reservoir contexts including but not limited to the following: Reservoirs with high viscosity bitumen or heavy oil Reservoirs with mobile bottom water Reservoirs with difficulty cap rock integrity issues Reservoirs with depths not over 1100 meters Reservoirs with narrow or restricted net pay over 6 meters Reservoirs with depletion drive mechanisms for heavy oil extraction Reservoirs for conventional oil production

PRTISP Pulse Resonance Thermal Injected Syn-gas Process

Pulse • The process is a thermal pulse jet unit which would be fuelled by a fuel source (Propane or Natural Gas, preferred) of which its exhaust gaseous would be injected into the well. • Wet steam/water – syngas injection downhole in a pulsing mode for heavy oil recovery. • Each segment is controllable, • Maximum benefit supersedes any known enhanced oil recovery program developed. • The pulsing mode is adjustable based on design and exhaust port length. (Lifeview Pulsation Tool)

Thermal • The thermal temperature of the exhaust gases are regulated to meet the engineering working specifications as set forth by given parameters and the required sonic resonance frequency required to maximum production. • Prior to exit point of the downhole pulsation tool, the gases will pass through a downhole heater (adjustable) thus increasing the temperature prior to being expelled through the downhole pulsation tool expulsion ports. • Treated water/steam would be injected on the exhaust side. Steam Expansion (High Temperature Steam) • This injection will be downhole at the exit point of the hot gas using our designed downhole pulsation tool.

Resonance • The Sonic Resonance Frequency generated by the pulse jet would be regulated based on both temperature and amplitude for the regulation of the wave’s magnitude of oscillation. • Causes penetration to within the reservoir and will generate flow to the production well. • The sonic frequency is calculated to ensure cap rock integrity is maintained by Geomechanical methods and testing.

Syngas • The use of propane or natural gas as a main fuel source along with othermal operations to product it’s byproducts (SYNGAS) would be used as a solvent gaseous solution based on the reservoir requirements. • Please note that they may vary based on injection ratio, frequency cycle setting etc and the additional injection of makeup gas to meet our production goals. Temperature will be regulated by above ground activities and also by below ground activities by use of the electronic heating element designed inside the tubular string.

Injected • Finally, the injection of water or steam (treated) will be used to increase the mobility of the bitumen flowing to the production well by applying wet steam or water downhole in direct contact with high temperature gaseous. • Designed downhole pulsation tool. This will harness the steam expansion characteristics to pulsate movement of the oil by dilating the natural fractures without causing damage to cap rock integrity. • Toe to heel configuration well will be used. • This short- distance oil displacement will preserve the upgrading. This benefit has been demonstrated in other existing enhanced oil recovery processes and can be controlled to meet the required benefit.

Process • The key is upgrading underground by making changes to the carbon chain and thermal application • With the drive systems being used downhole, production is maximized. • Zero Emissions from the injector process • Green process

PRTISP Process Mobile Oil Zone Lifeview Thermal Pulsation Tool Steam. Syngas Front Cold Heavy Oil Copyright Lifeview Oil and Gas Patent Pending Horizontal Production Well

Bottom water Problems with continuous steam injection Cold Heavy Oil Channeling Copyright Lifeview Oil and Gas Patent Pending

PRTISP process in bottom water Horizontal Production Well Lifeview Thermal Pulsation Tool Steam. Syngas Front Cold Heavy Oil Copyright Lifeview Oil and Gas Patent Pending

Lack of Cap Rock Problems with Continuous Steam Injection Cold Heavy Oil Channeling Copyright Lifeview Oil and Gas Patent Pending

Lifeview Thermal Pulsation Tool Regulate d Pressure Oil Copyright Lifeview Oil and Gas Patent Pending Regulate d Pressure Cold Heavy Oil

Bird`s eye view of the TTH(Toe to Heel) steamsyngas flooding process; well configuration. Staggered Line Drive Configuration vi 50 m 5 -m 50 m vi TOE 400 m Ob Ob 800 m Horizontal Well Producer HEEL Legend: Ob – Observation well, future VI VI - vertical injector

Bird`s eye view of the TTH steam-syngas flooding process for Commercial Application Staggered Line Drive Configuration 50 m vi 50 m 5 -m 50 m vi TOE 400 m Ob Ob 800 m Horizontal Well Producer HEEL Legend: Ob – Observation well, future VI VI - vertical injector

Steps for Field development Due diligence on the Land Develop a seismic program to delineate New plays Develop a core hole and thermal drilling program to begin pilot program 1000 bbl per day 5000 bbl per day 10, 0000 bbl per day

PRTISP Process for Heavy Oil Recovery and Conventional Oil New deployment technique in areas with cold flow production, depleted production in mature fields

Conventional Heavy Oil spacing per Section Vertical Production wells Vertical Thermal Injector well Vertical Production wells

Current development Status Work with an Oil firm for deployment into the Heavy oil field for testing University of Calgary under the direction and supervision of Dr. Ian Gates, Department of Chemical and Petroleum Engineering, will be conducting a research project analyzing the experimental results by using detailed thermal reservoir simulation and use learnings to construct a field-scale reservoir simulation model to evaluate the PRTISP recovery process. US Patent issued October 07, 2014 US 8, 851, 169 B 2

Lifeview Petroleum Geological Property Assessment David H. Harris P. Geol.

Manor Prospect W 12 Section 3 -7 -1 W 2

Manor Alida Light Oil Pools

Manor Alida Light Oil Pool with current Crescent Point horizontal drilling *posted data bubbles are cumulative o to date

MANOR: North-South Structure Cross Section Posted production values in barrels per day – 1 st month average daily rates Cross Section A-A’ Appendix “A” shows continuation of productive oil pool.

Structure Map Top of Productive Alida Formation *structure increases fro current Crescent Point *2 meter contour

Horizontal Type Log Offset Wells *notice proximity of productive horizontal oil wells to the Lifeview Manor land holdings and the 4 -3 vertical well bore.

Type Log #1 West Horizontal Offset @ 256 bbls/day 2 nd month initial production

PRODUCTIVE OFFSET – Production Graph 191/07 -04 -007 -01 W 2/00

Horizontal Type Log #1 191/07 -04 -007 -01 W 2/00 Horizontal 7 -4 leg drilled proximal to 6 -4 (west) Horizontal Trajectory vertical well bore Initial production *note 2 nd month product ion @ 256 bbls/da y

Type Log #2 South Horizontal Offset @ 73 bbls/day 1 st month initial production

Horizontal Type Log #2 (South) 191/13 -34 -006 -01 W 2/00 Horizontal 13 -34 leg drilled proximal to 1334 vertical well bore Initial Production

Productive Offset – Production Graph

Log Comparison 4 -3 Lifeview Manor Land Well to Productive 256 bbl/day Horizontal Offset 6 -4 *Similar porosity, resistivity and structural elevation indicate similar product

Log Comparison Lifeview Manor Land Well 4 -3 to South Productive 70 bbl/day Horizontal Offset *formation tops compare structurally at -577 m sub sea

Geological Formation Parameters Predominately Mississippian age Alida formation productive light (35 degree API) oil over water reservoir at approximately 1175 -1200 meters TVD and 10, 000 Kpa initial formation pressure. (expected depletion) Inter-bedded fractured Dolomite/Limestone Carbonate with Anhydrite cap Productive porosity – 9 -14% Limestone up to 24% dolomite but generally mixed. Productive Resistivity – 1 -3 ohms up to 20+ ohms log resistivity. 9 m @ 14% porosity LST avg (potential 16 -18% Dolomite) Estimated potential production – 60 -120 bbls/day on open hole 800 m horizontal leg plan (Pending Engineering evaluation) High water production anticipated- facilities necessary.

Potential Initial Horizontal Program

Manor Prospect - Conclusions Petrophysical log analysis, core analysis, cross sections and structure mapping indicate that a inter-bedded Dolomite/Limestone carbonate oil bearing system exist at the Lifeview Petroleum lands 4 -3 -7 -1 w 2 well bore and is comparative and extensional to the prolific Alida oil production to the SE. Offsetting comparative vertical well bore log responses are similar in porosity and resistivity to the Manor section 4 -3 -7 -1 w 2 well bore. Horizontal well bores drilled adjacent to previously existing comparative vertical offsets show proven economic production. Initial production from offsetting horizontal wells are 256 bbls/day and 73 bbls/day and are less than 750 meters and 400 meters away respectively from the Lifeview Land holdings. Crescent Point currently drilling wells directly south of Lifeview Manor Lands Drill one 700 m leg horizontal test East West south of 4 -3 vertical well Evaluate 1 st well then move to delineation. Drill 4 -5 700 m leg horizontal delineation wells

Proposed Joint Venture / Partnership / Sale of ownership Lifeview will grant sole licensing rights to NEWCO company for North American rights, ( Exclusive rights), Lifeview will add in all existing lands for a total of 1125 acres of oil bearing properties in Fillmore, Fielding and Manor area. First option on International use of patent with exclusive rights.

Corporate Services Legal Services Mac. Pherson Leslie and Tyerman LLP 1600 Centennial Place, 520 – 3 rd Avenue S. W. Calgary, Alberta T 2 P 0 R 2 Corporate Counsel Contact Information Harold Nikipelo , hnikipelo@me. com Founder 780 -213 -0297 43