Throttle Energy is a fully integrated oil and gas company that uses patented technologies to capture flare gas, process it into compressed natural gas (CNG), transport it via trailer, and deliver it to power plants and other end users. The company aims to provide a cheaper and more reliable alternative to pipelines and LNG for natural gas delivery. Throttle Energy has completed projects in several oil and gas basins in the U.S. and Canada. Its virtual pipeline process and mobile equipment allow it to transport gas from remote locations cost effectively.
2. Introduction of Company
Throttle Energy is a fully integrated Oil and Gas Company
consisting of 4 partners with expertise in Oil and Gas Production
Operation Including core expertise in;
Natural Gas Processing and Transportation
Gas to Power Plant conversion
Front End Project Development and Concept selection
Downstream Operations and Manufacturing
Subsurface Data Interpretation
International Business
Process Safety.
3. Core Business Target
Faster return on investment on Gas to Power projects
Lowest delivery fuel cost to end users
Deliver Natural Gas to end users at requested conditions
Save operating company’s overhead cost (40-70%)
Stop Gas Flaring
Capture Produced Hydrocarbon gas
Efficient Logistics and reliable service delivery
Mobile unit Gas Compression systems
Provide Gas storage for remote locations and Users
Provide High pressure gas for;
Enhanced Oil Recovery(Gas Lift) for low pressure wells
Well Completions
Relevant drilling operations (pumps, power generation in remote
locations)
4. • Lowest delivered fuel cost to end users
• Faster return on investment
• Safer, reliable source of Natural Gas
• Proven (IP Protected) technology
• Efficient logistics and service delivery
• Strategically placed infrastructure
• Industry focus
• Environmentally friendly
Value Proposition to Customers
5. Virtual Pipeline Process
Flare Gas Capture and Recovery Process Flow
Illustration out in the Field
TEI PATENTED
TECHNOLOGY
6. Results of Patented Technology
Existing/Conventional Filling
ending temperature >180F 65% full
Patented Chill Fill* Technology Applied to CNG Trailers
ending temperature @ 59F 100% full
9. End to End Technology
High Efficiency Compression Optimized High Density Gas Storage
Compact Unload Heating and
Pressure Regulation
Storage Nano-Materials for
High Density at Lower Pressures
11. Gas Transportation Alternatives
Today, there are 3 alternatives for the large-scale transportation of natural gas:
Generally there are three(3)
Alternative means of
transportation of gas
• LNG
• Pipeline
• CNG
We are proposing CNG
Virtual Pipeline ProcessCNG
Pipe-LineLNG
11
12. Evolution of CNG since 2005
>200% Capacity growth due to materials innovations
>50% roadable density of LNG
Cost dynamics improving due to carbon fiber
economics
220mscf (II)
165mscf (I)
510mscf+ (III/IV)
Composites = Reduced Heat Transfer
Working Pressures Higher
= Higher Heat of Compression
CNG Requires Fast Trailer Turnaround
13. CNG Trailer Stations in Oilfield Basins
Anadarko Basin (September 2013)
Eagle Ford (February 2014)
Alberta (April 2014)
Marcellus (June 2014)
Permian (October 2014)
15. Footprint of Equipment
Fully mobile equipment
Containerized designs
Can be moved from field to field as needed
Easily deployed in the Swamp or any other Location
Can be placed on a Barge in swampy areas (small draft needed
compared to competing technology with heavy equipment)
Easily be attached to a Truck Head for transport
Small enough to fit close to existing Wellheads/producing
facilities
16.
17. CNG vs LNG Delivery Comparison
LNG OTHER CNG TEI OSCOMP
Pipeline
+
Compression
Inlet Pressure 800psig
uses 25% of Inlet Energy
150psig at a 7% Energy Penalty
$50M for 10MMSCFD
Inlet Pressure 800psig uses 2% of Inlet Energy
150psig at a 3% Energy Penalty
$5M for 10MMSCFD
Liquefaction $20M for 2MMSCFD $1.5M for 2MMSCFD
24/7 Manned Unmanned
740 MSCF (92% Yield) 325 MSCF (65% Yield) 500 MSCF (95% Yield)
Transport Trucking
$270K $660K $660K
Full Tanker Discharge Requires onsite trailer Modular
Onsite Storage
$300K - $ $660K+ $80K - $400K
Gas Heating +
Conditioning + Rest
of Systems
280KW - 50MSCFH
800KW - 140MSCFH Peak
$300K+
50KW - 50MSCFH
140KW - 140MSCFH
Peak
$150K-$350K
25KW - 50MSCFH
30-70KW - Average
Mass
$50K - $350K
*OSCOMP IP present in Compression, Transport and Onsite.
18. Amount of Power to be generated
(MW)
10
Equipment Cost (per Unit)
Number
of Units
Total Cost
Multi Stage Compressor (2MMSCF) $700,000 1 $700,000
Transporting Cylinders (500MSCF) $600,000 2 $1,200,000
Unloader $600,000 1 $600,000
Total Cost $2,500,000
Assumptions
Inlet gas Pressure 650 psi
Gas Type Dry Gas
Distance from Source to User <100 Miles
Transportation Medium Highest Efficient (Truck)
19. Cost of Gas Per
1MCF
$3
Cost of Diesel
per Gallon
$4
1 gal = 4 litres. 1
litre = $1
Power Plant
Capacity (MW)
Gas
Requirement
(MMCF/D)
Cost of Gas
($/D)
Diesel
Rquired
(Gallon/D)
Diesel Cost
(Litre/D)
5 1 $3,000 7,367 $29,468
10 2 $6,000 14734 $58,936
50 10 $40,000 73670 $294,680
100 20 $60,000 147340 $589,360
200 40 $120,000 294680 $1,178,720
CONVERSION UNITS
1 gal 134CF
1000 gal of diesel 139MMBTU
1SCF of gas 1025BTU
1MCF 7.4 Gal of diesel
1 gal of diesel 138690 BTU
1MW 3412000BTU
Distance (KM)
Typical Cost of
Pipeline($M)
20 30
100 150
200 300
300 450
20. Completed/on-going projects
Anadarko Basin (September 2013)
Eagle Ford (February 2014)
Alberta (April 2014)
Marcellus (June 2014)
Permian (October 2014)
Other International Oil Fields
21. Targeted Market
International Oil Companies
Heavy Industries
Cement Factories
Nigerian Breweries
Industries
Pipe Mills
State Governments
IPPs
State Houses
Secretariats
Manufacturers
• Automobiles
• Textile
• Fertilizers
Federal Government
Power generation plants across
the country
Federal buildings and offices
Transportation companies
Petrochemical Plants
22. Team Strength
Gas and Condensate recovery
Project Management
Oil and Gas Exploration and Exploitation including Deepwater Operations
Subsea Development
Health, Safety Security and Environment
Pressure Transient data analysis (Sapphire & Pansystem)
Reservoir Characterization and Simulation (Black oil & Compositional)
Learning/Teaching methodologies (Drilling, Natural Gas Engineering, Process
Engineering, Reservoir Engineering, Production and Well Optimizations)
Experimental Design modeling for probabilistic reservoir
Negotiations and Dispute Resolution
Global Manufacturing Operations
Global Supply Chain
Process Development
Global Technologies development and implementation
23. Throttle Energy - Core Values
SAFETY, Quality and Timely Delivery of Projects
Addiction to safety
No harm to workers and Assets
No impact to Environment
Safety is not negotiable
No work is safe without safety
Routine safety and quality audits
Deliver of Promise
Select the most robust and cost efficient concept for
each project
24. Summary
Throttle Energy Inc. has partnered with frontier Technology development
company in USA to provide long needed solutions to:
Lack of constant supply of Power
Cost associated with building Pipelines across State lines
Reduce investment needed for Oil and Gas infrastructure development
Flaring of Produced Hydrocarbon associated Natural Gas currently resulting
in lost revenue
Pipeline sabotage/bunkering
Completely eliminate environmental risks (Loss of Containment)
Capture, process and transport produced hydrocarbon associated Gas at
significantly lower cost compared to LNG.
Technology provides fueling solutions to Pipeline-disconnected
customers, substituting expensive liquid fuels with Clean Natural Gas
25. Throttle Energy Inc.
Houston, TX 77095
Email: info@throttleenergy.com
Phone: +1.832.298.8400 or +1.281.415.1238 (USA)
Phone: +234.816.668.1997 or +234.809.037.2222 (NIGERIA)
www.throttleenergy.com