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Prod
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Complete Production and Processing Solutions
• Engineering & Design
• ASME & API Manufacturing
• Field Service & Support
CimarronEnergy.com (2016)
CIMARRON ENERGY INC. is a leading designer and manufacturer of production and processing equipment for the oil, gas, and utility industries. Formed in 1976 as Cimarron Tank, the company has grown to be a complete supplier of a wide variety of
products serving energy producers and processors in the U.S. and international markets. Cimarron acquired the assets of Diverse Energy Systems in early 2016,
significantly expanding the reach and capability of its products and services. Cimarron is owned by Turnbridge Capital Partners, a Texas-based investor in oil and gas service and equipment companies serving the energy
industry. This partnership provides a strong financial footing to support our growth.
Cimarron offers a variety of products for artificial lift, fluid measurement and management, power generation, oil and gas production, gas processing, environmental controls, product storage, and burner management, and supports
these products with field service personnel in all major producing regions. Our products are designed according to the ASME code using simulation and engineering tools, and Cimarron Energy currently operates five ASME code production
facilities from Texas to North Dakota.
We are committed to providing the safest possible work environment for all of our employees and visitors to our facilities and work locations. Our goal is to provide employees with the resources to complete their job with the highest of quality and safety standards. We strive to provide an environment and culture
to make Cimarron Energy a leader in the industry; not only with our products, but also with our safe practices. We are a member of ISNet World, and are proud of our achievements in enhancing safety
over the past several years.
In an industry characterized by rapid product change, Cimarron continues to invest in its offerings and in innovation to meet customer
challenges. Our depth of experience in design and manufacturing capability, and our commitment to safe operations and quality provide a strong foundation to satisfy the engineering and equipment needs of
our customers .
Oil
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PRODUCTION Gas
Water
SeparatorsTreatersProduction Units Line Heaters Condensate Stabilization
Amine SweeteningGlycol DehydrationJT Skids Mechanical Refrigeration Slug CatchersBTEX Condensation & Incineration
Vapor Recovery Towers Vapor Recovery Units EPA Certified Enclosed Combustors
ARC Ignition ARC Burner Management ARC Director Multi-Unit BMS
Steel Tanks Bullet Tanks Containment Systems
Jet Pumps Steamflood Enhanced Oil RecoveryWaterflood Pump Systems
Measurement
Pump Systems
Power Generation Sets
Product SupportRepair and Maintenance, Training
LACT UnitsProver ServicesCrude GatheringCondensate LoadingWater Treatment / Injection
Katy, TX | 90,000 sq. ft. ASME Code Manufacturing
Odessa, TX | Permian Field Service Center
Norman, OK | 55,000 sq. ft. ASME Code Manufacturing Mid-Continent Field Service Center
Marlow, OK | 45,000 sq. ft. ASME Code Manufacturing
Evans, CO | 15,000 sq. ft. ASME Code Manufacturing Rockies Field Service Center
Grafton, ND | 105,000 sq. ft ASME Code Manufacturing Bakken Field Service Center
Indiana, PA | Marcellus/Utica Field Service Center
PRODUCTS AND SERVICES
GAS PROCESSING
ENVIRONMENTAL
BURNER MANAGEMENT
STORAGE
ARTIFICIAL LIFT
FLUID MEASUREMENT & MANAGEMENT
FIELD SERVICE
POWER GENERATION
OPERATIONS
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Production equipment must be durable, robust, and efficient to process well stream products and economically provide oil and gas for initial sale. Cimarron has a complete line of equipment to handle the wide variety of operating conditions and offers solutions for low or high pressure, solids removal, vapor-liquid and liquid-liquid separation, and emulsion treating.
PRODUCTION
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Separators Separators have long been the “workhorse” of oil and gas production, utilizing differing densities and properties of production streams to efficiently separate oil and gas. Cimarron separators come in a variety of sizes and pressure ratings, dictated by the specific operating conditions of each location. The outstanding performance of our horizontal or vertical separators is due to the proven internal designs, which optimize momentum, gravity, and coalescence for effective separation.
TreatersCimarron’s oil treater products include a variety of designs. We design and manufacture traditional heater treaters in both vertical and horizontal styles and customize these to meet the operating requirements of our customers. We have extensive experience in designing units for colder climates, where interior piping or insulated exterior piping is required. We often provide gas domes in horizontal units to help protect against liquid carryover when the potential for slugging exists. Many of our customers prefer Cimarron treaters since the oil or oil/water interface level can be changed using adjustable weirs or water legs (vertical units). Typical sizes are four to eight feet in diameter and lengths range from fifteen to forty feet, with maximum allowable working pressures ranging from 75 psig to 250 psig.
Direct-Fired Oil TreatersIn operations where higher inlet pressures exist, Cimarron provides oil treating equipment that combines the internals of an oil treater with an indirect heater. These “direct-fired” units are used where the pressure is higher than that recommended for heater treaters and the well stream requires heating prior to pressure reduction to avoid hydrate and paraffin formation. The product stream at wellhead pressure enters a coil tube bundle placed in the treater vessel, using the heated well fluid as the heat transfer media. The heated product stream then is reduced in pressure and introduced into the vessel for emulsion treating and separation. Gas domes are typically employed in these three-phase treaters, allowing for greater liquid/liquid separation capacity, protection from slugging, and sufficient area for vapor separation. Clean liquid/liquid separation is enhanced through the use of separate oil and water weir chambers at the control head of the vessel.
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High-Low Pressure SeparatorsAnother variation of a traditional oil treater is what is known as a “High-Low Pressure Separator”. Commonly used in US shale fields, the high/ low pressure (HLP) separator combines the benefits of a higher-pressure two-phase separator with a lower-pressure three-phase treater. The well stream product is heated using an internal coil placed in the vessel, using the heated well fluid as the heat transfer media. The heated product stream then enters a higher-pressure two-phase vessel (typically 400 to 1000 PSIG) on top of the unit for the initial gas/liquid separation. The liquids are then introduced into the lower-pressure heated separator (treater) for liquid/liquid separation. The
primary benefit of this Cimarron model is that gas can be sold at higher pressure for metering and transmission — avoiding compression — while the liquids are treated at a much lower pressure for effective separation and to reduce emissions from the atmospheric storage tanks. Like the direct-fired units, clean liquid/liquid separation is enhanced through the use of separate oil and water weir chambers at the control head of the vessel.
PRODUCTION
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Gas Production Units (GPUs) Cimarron’s separators and gas production equipment have become an industry standard for wellhead consolidation, pad footprint and flow-line reduction, installation and production efficiency, at lower capital and operating costs.
• Multiple-well designs
• Reduced footprint & installation costs
• Skid-limit design
• Pressures to 1440 PSIG
• Two and three-phase separators are typically 20” to 42” outside diameter
• Enclosed cabinet available for challenging operating environments
• Extensive product line including integrated sand separators and line heaters
Cimarron’s standard Gas Production Unit (GPU) is comprised of a split-pass coil indirect heater containing a gas-fired natural draft burner, a pre-heat and expansion coil bundle, followed by a two-phase or three-phase separator typically operating above sales line pressure. The process heat reduces the risk of gas hydrate formation
associated with large pressure drops and ensures effective separation through the control of pressure and temperature. The equipment is enclosed within a skid-mounted cabinet, allowing for ease of installation and operation while minimizing the equipment footprint and space requirements. The indirect heater is designed in accordance with API 12K standards, while the separator design is based on recommendations of the Gas Processors Suppliers Association (GPSA).
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Cimarron-designed production units can be customized to address specific needs with respect to the number, size, and positioning of the separation vessel. While the number of separators is related to the number of producing wells on a multi-well pad (allowing volume measurement for individual well streams), the positioning is largely dependent on the gas-oil ratio. Horizontal units are typically preferred in liquid rich production streams, while vertical separators are utilized when there is relatively little liquid in the product stream. Cimarron has regularly designed and manufactured production units capable of processing two to five well streams simultaneously.
Cimarron also offers a range of sand separators designed to extend the life of the GPU. A sand separator installed ahead of the inlet of the production unit will facilitate the removal of as
many solids and contaminants as possible. Solids and well debris, particularly where shale fracturing is employed, can reduce processing capacity and has a detrimental effect on the production choke.
In the design phase, we carefully size the preheat coil, choke, and expansion coil depending on well conditions. Typical coil ratings are 5,000 PSIG, but the advent of deeper drilling and the extension of laterals has resulted in the need for even higher coil ratings. Cimarron now frequently manufactures coil bundles with ratings of 10,000 PSIG. We use actual well conditions and process simulation to determine the number of passes for the preheat and expansion coils in order to provide the appropriate surface area for heat transfer. Maximum allowable working pressure of the separator vessel is typically 1,440 PSIG.
PRODUCTION
*Design of an enclosed production unit for two separate well streams for the Marcellus/Utica Basin
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STANDARD FEATURES• Indirect Heater — API 12k with removable firetube
• Natural draft burner with flame arrestor
• Hinged stack for transport
• Removable split-pass coil bundle with choke
• Supply gas system with gas preheat coil, supply gas scrubber, burner and pilot controls and emergency shut-off
• Two or Three Phase Separator, with drain, pressure relief, level controllers, dump valves and high/low shutdown
• Separator internals — weir bucket or interfacing style with mist extractor & baffles
• Meter tube with junior or senior type orifice fittings
• Integral skid and walk-through cabinet
• Cimarron ARC ignition system
• Pressure relief, temperature and level gauges, and other necessary instrumentation
OPTIONS AND ACCESSORIES • Sales line scrubber pot with level control and
high level
• Fire retardation system
• Outside access cabinet for smaller footprint
• Customer specified burner management system
• Additional flash separator
• Motor actuated chokes
• Custom features as required
• Vane Packs
• Sand Removal Manifold and sand separators
• Rupture disk
• Pneumatic filtration
• High-low pressure pilot emergency shutdown
CIMARRON GPU’S
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Sand SeparatorsSolids removal prior to initial separation has become an increasing need with the trends in hydraulic fracturing across the U.S. shale basins. Silica sand, fracturing sands, proppants, and other debris are commonly returned to the surface in the initial production phase of shale wells. Our sand separators protect our customer’s investment in downstream processing equipment and reduce the damaging effects of solids on high pressure piping and vessels. Cimarron has provided thousands of these high pressure solids separators to operators across the U.S., from the Permian Basin to the Rockies to the Marcellus/Utica shale basins in the Northeast.
Cimarron designs and manufactures a variety of sand separator sizes and pressure ratings - from 16” OD x 8’ to 30” OD x 10’, with pressure ratings of 3,000 PSIG to 10,000 PSIG. For ease of transport and installation, the units are installed on an “L-skid” and Cimarron often provides manifold piping according to the operator’s needs and operational configuration.
Line HeatersCimarron designs and manufactures indirect water bath heaters and line heaters to heat gases or liquids safely in a variety of sizes and with a number of customer preferred options. Applications include:
• Heating natural gas prior to separation and pressure reduction
• Prevention of hydrates before pressure reduction at distribution city gates
• Heating of gas during transmission stages
• Controlling separation temperatures of gas and liquids to increase the efficiency of separation and prevention of hydrates
• Heating of water for water jacket applications
• Heating of heavier crude oils for easier processing and fluid movement
PRODUCTION
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The principal benefit of indirect heating is that the combustible fluids are heated in a non-combustible fluid, in many cases a glycol/water mixture. The product fluid or gas is contained in a designed coil bundle comprised of multiple passes and paths and have no direct contact with the heat media that provides the necessary heat transfer area to meet the specific conditions required. Key factors in the design of the coil bundle include heat transfer area, mixture velocity (both of which vary depending on fluid composition), pressure, and temperature. The heat supplied by the firetube to the heat media is modulated by temperature measurement in the product stream to ensure that the customer specifications are achieved.
Cimarron regularly manufactures heaters ranging from 100,000 to 4 million Btu per hour. Our custom engineered designs allow for a number of options to meet the varying requirements of our customers.
STANDARD FEATURES• Heater shell with support saddles and lifting lugs
• Removable U-tube firetube
• Removable coil bundle
• Burner and pilot assembly with removable flame arrestor
• Fuel gas preheat coil and pressure regulation
• Sized fuel gas scrubber to ensure dry burner fuel
• Heat media expansion tank with fill connection
• Temperature controller and thermowell
• Fuel gas control valve
• Pressure and temperature gauges
• Cimarron ARC ignition system with solar panel and battery backup
OPTIONS• Custom fuel train, including NFPA 87 design
• Stack arrestor and downdraft diverter
• 304 Stainless steel stack
• High bath temperature shutdown thermostat and control valve
• High bath level shutdown switch
• Fiberglass shell insulation with aluminum jacket
• Choke valve for split-pass coil designs
• High pressure coil ratings up to 10,000 PSIG
• Media containment under the bath shell with drain valves
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Condensate StabilizationDue to transportation rules for tanker, pipeline, or storage, the volatile dissolved gases in crude oil must be removed. Actions undertaken by the State of North Dakota and the US Department of Transportation regarding the transport of crude oil from the Bakken exemplify the importance of vapor pressure control for oil and gas producers. Removal of the volatile hydrocarbons from the liquid product is referred to as crude oil stabilization, where C1 to C 3 components are removed while retaining the maximum amounts of C4 and above. The challenge is to maximize stock-tank oil recovery while meeting the vapor pressure requirements, and control of the butane content is typically the determining factor in achieving economic and transportation objectives.
PRODUCTION
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Natural gas processing presents some difficult challenges due to its varied composition and phase changes with pressure, as well as the need to remove water and deleterious elements commonly present in gas such as carbon dioxide and hydrogen sulfide. Gas also contains highly valuable hydrocarbons produced as liquids from the gas, including ethane, propane, butanes, and pentanes, which are used in fuels and as petrochemical feedstocks. Key processes used in processing gas are removal of acid gases, or “sweetening”, dehydration, and temperature reduction using Joule-Thomson expansion or mechanical refrigeration.
GAS PROCESSING
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Gas SweeteningSpecifications for the sale of natural gas contain stringent requirements regarding acid gases, particularly the amount of organic sulfur and sulfur compounds contained in the gas product. Two common constituents, hydrogen sulfide (H2S) and carbon dioxide (CO2), are particularly problematic and require removal. There are a number of processes available for acid gas removal, and Cimarron has significant experience in the design and manufacture of the most common process using aqueous amine solutions.
Glycol DehydrationCimarron offers a variety of glycol dehydration designs to reduce the water content of natural gas prior to transport or further processing, as well as field service to help train personnel and maintain your dehydration equipment. We have designed and manufactured glycol dehydration units from small 1 MMSCFD field units to large 250 MMSCFD multi-skid systems for transmission compressor stations. While the desired water content is typically 5 to 7 lbs per MMBtu, we often design for lower dewpoints as well by improving the glycol regeneration.
GAS PROCESSING
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BTEX CondensationBenzene, toluene, ethylbenzene, and xylenes (BTEX) and volatile organic compounds (VOC) emitted from natural gas processing facilities are strictly regulated by the U.S. EPA. BTEX, in particular, is commonly an issue from the still vent of glycol regenerators.
To minimize emissions of these vapors to the atmosphere, several emission control processes have been developed. The most common approach is to recover condensable compounds and to use the remaining vapors either as part of the fuel gas supply to the reboiler or incinerate the vapors entirely. Given safety concerns about using these vapors as reboiler fuel, Cimarron has paired finned tube condensers with its EPA certified enclosed combustors to incinerate the relatively small amounts of remaining vapor. Cimarron combustors are certified under NSPS OOOO and MACT HH/HHH provisions.
JT skidLow temperature separation of natural gas using a constant-enthalpy Joule-Thomson expansion can provide significant cooling of the gas. The low temperature separation allows for hydrocarbon dew point control and increases the recovery of natural gas liquids (NGLs).
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Slug CatcherProcessing is rarely steady-state. Under certain operating conditions gas and liquid are not evenly distributed throughout the pipeline, but travel as large “slugs” with mostly liquids or mostly gases through the pipeline. A slug catcher, located between the outlet of the pipeline and the processing equipment, is a vessel with sufficient buffer volume to store the largest slugs expected from the pipeline
GAS PROCESSING
system. The liquid and gas product can then be moved to the processing facility at a controlled rate.
Cimarron has manufactured both “harp” or “finger” style as well as conventional vessel slug catchers. They differ in terms of liquid capacity, micron separation capability, and transport and installation.
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Reducing emissions from oil and produced water storage vessels at oil and gas production sites is now required under the Clean Air Act. Operators with storage vessels having the potential to emit more than 6 tons of volatile organic compounds (VOC) annually must reduce these emissions by at least 95%. VOC emissions result from the pressure reduction of the liquids into the atmospheric tanks (“flashing”), but also from the loading and discharging of the tanks as well as temperature changes of the fluid inside the vessels.
ENVIRONMENTAL
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There are two common solutions. Capture and recompress the vapors or incinerate them. Operating conditions and economics drive your decision.
Cimarron Energy can help. We offer a complete line of services and equipment, including:
•Estimation of potential emissions and recommended economic solutions
•Vapor recovery towers (VRT) to capture vapors prior to delivery to the storage vessel
•Vapor recovery units (VRU) to recompress captured vapor for sale or further use
•EPA Certified enclosed combustors to incinerate storage tank or truck loading emissions and serve as a backup to a VRU
•Experienced field service teams to aid and support your operation in achieving its environmental goals
Vapor Recovery TowersCimarron manufactures vapor recovery vessels to capture vapor emissions from produced oil and condensate. These low pressure vessels (typically 3-5 psig) allow for final flashing of vapors prior to storage. The gas and vapor can be used as onsite burner fuel, moved to the sales line, or incinerated in Cimarron’s EPA certified enclosed combustors. Towers are designed in a variety of sizes to provide the required liquid and flashing capacity.
ENVIRONMENTAL
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Vapor Recovery UnitsVapor recovery units (VRU) are a skid-mounted solution for capturing flash gas from storage tanks, a VRT, or other sources on a location where pressure reduction is needed to stabilize fluids or assist in production efficiency. A VRU has the capability to maintain a tank or vessel to pressures in ounces and compress the gas into a pipeline or booster compressor at pressures up to but not limited to 250 psig. One of the outstanding features of our Vapor Recovery Control system is the PLC driven Recycle valve. This system allows the unit to stay running during the low breakout period and quick response time when production peaks. Our recycle system is also instrumental in our ability to offer a 75% turndown ratio. VRUs can be used for tank vapors, pressure reduction, casing pressure reduction, plunger assist and in many other applications. We offer natural gas or electric driven packages as well as a cold weather package.
Standard unit capabilitiesSCG-8Suction pressure: 0-8 PSIDischarge pressure: 0-100 PSIFlow Rate: 10-120 MCFD
SCG-10Suction pressure: 0-8 PSIDischarge pressure: 0-100 PSIFlow Rate: 75-300 MCFD
SCG-14Suction pressure: 0-8 PSIDischarge pressure: 0-100 PSIFlow Rate: 150-550 MCFD
Flow rates and operating pressures are subject to change due to gas composition and the altitude of the location. Please consult your salesperson for engineered simulations for your application. We offer units that can handle higher volumes and pressures upon request. We also specialize in custom built units that can handle high H2S and multiple inlet pressure streams.
Standard Features• Oil flooded screw compressor
• PLC driven recycle system
• VFD controlled electric driven packages
• Control panel with PLC
• Suction scrubber with integral ASME blow case
• Discharge coalescer
• Oil cooler
• Carbon steel skid
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EPA Certified Enclosed CombustorsCimarron’s enclosed combustion units provide a clean, safe, and efficient solution for eliminating tank vapors and ensuring regulatory compliance. Their performance has been proven to exceed the US EPA’s strict requirements with a greater than 99% destruction rate. Designed for both low and high volume applications, the enclosed flares are easy to install and require little ongoing maintenance. Ignition systems with automation capability and data logging features are also available. Standard models have flame cells ranging from 24” to 60”, with capacity of 2,000 to 60,000 SCFD. The larger high volume units contain four 24” flame cells and can accommodate up to 120,000 SCFD. Combustors typically operate at pressures of 1 to 12 oz/in2.
Design Features and Options
• Manufacturer Performance Tested as per NSPS OOOO §60.5413(d)
• Demonstrated VOC Destruction Efficiency >99%
• Eliminates the requirement for in-field testing to demonstrate continuous compliance.
• Solar powered BMS and data logging functions available
• Cimarron actuator package for low flow and flameout shutdown
• Drip tank for free liquid removal
• User friendly and easy to install
ModelCapacity1 MSCFD
Heat Release2 MMBtu/hr
Standard Dimensions3
24 10 0.98 24”D x 8.5’H30 16 1.6 30”D x 8.5’H48 30 3.2 48”D x 12’H60 64 6.1 60”D x 12.5’H48HV 122 11.7 48”D x 25’H
1Based on 2,000 Btu/ft3 vapor.
2As determined per NSPS 0000 § 60.5413(d) – 2014 Manufacturers Performance Test.
320 foot stack models available.
ENVIRONMENTAL
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Enclosed CombustorsCapacity Curves Based on Vapor Density & Pressure
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AVAILABLE OPTIONS
ARC Burner Management and Ignition systems
ARC—basic light and relight functionality. Flexible and easy to upgrade.ARC Hybrid—Upgrade to the ARC system. Facilitates inlet gas shutdown in the event of a pilot failure. Requires actuator option below.ARC SAU— Upgrade to the ARC system. Allows for low flow condition shutdown and allows tanks to build pressure. Standard setup is 2 oz closure and 5 oz open. Ranges are adjustable and can be modified in the field. Requires actuator option below.
Standard Drip Pot
24” x 48” w/ 4” FNPT connections. Liquid capacity 90 gal.20” x 36” w/ 3” FNPT connections. Liquid capacity 46 gal.16” x 36” w/ 3” FNPT connections. 5’ height. Liquid capacity 29 gal.16” x 36” w/ 3” FNPT connections. 7’ height. Liquid capacity 29 gal.
Custom Drip Pot Required size/connections/capacityCimarron “Sentry” Datalogger
USB port for easy data downloads. Single analog input for pilot flame sense or thermocouple data. Two contact switch closure inputs
Actuator PackageCimarron piston-style actuator for burner management system control. Required for Hybrid and SAU ARC systems. Ranges are adjustable and can be modified in the field.
Safety Float Check Valve option for Drip Pot
4” x 6”3” x 6”
Stack thermocouple 18” Type K thermocouple with wire
Inline Flame arrestor 2” or 3 “ in-line flame arrestor
Header plumbing (HV unit only)
2” header plumbing from integral drip box to burner manifold3” header plumbing from integral drip box to burner manifold
ARTIFICIAL LIFT
Artificial lift is a process used on oil wells to increase pressure within the reservoir and encourage oil to the surface. When the natural drive energy of the reservoir is not strong enough to push the oil to the surface, artificial lift is employed to recover more production. While some wells contain enough pressure for oil to rise to the
surface without stimulation, most don’t, requiring artificial lift. Even those wells that initially possess natural flow to the surface, that pressure depletes over time, and artificial lift is then required. As a result, artificial lift is generally performed on all wells at some time during their production life.
FLOWFAST JET PUMPS
STEAMFLOOD ENHANCED OIL RECOVERY
WATERFLOOD PUMP SYSTEMS
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The Cimarron ARC is a fully scalable burner managment system that adapts to your well site. The price also scales with the functionality, so you only pay for the features you need. At its most basic, the ARC can monitor and ignite a pilot flame on separators, treaters, burners, or combustors for added site safety. If the pilot goes out for any reason, the system can notify the customer through Modbus or alarm. On the other end of the scale, the ARC can also be combined with control valves, pressure sensors and thermocouples for a complete burner management solution. The Cimarron ARC also has the ability to monitor and control up to 16 burner systems from a single controller.
BURNER MANAGEMENT
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KEY FEATURES• Multi burner applications (control up to 16
burners)
• Customer PLC compatibility through Modbus RS-485 communications
• On board Data logging capability
• Fully automated direct spark ignition
• Control of both the pilot and main burner valve
• Solar powered
• 12 / 24 VDC compatible
Models Arc 1000 Arc Hybrid Arc Torch Arc SAU Arc Flex
Lights and maintains the pilot flame x x x x xReignites pilot x x x x xAlarm on pilot failure x x x x xPressure sensor input x x x xThermocouple input x x xTank pressure input for burner control x xControl up to 16 burner systems x
SPECIFICATIONS12 VDC (24 VDC optional with external power supply)
5-watt solar panel (Up to 20-watt solar panel for multi-well control)
Opto-isolated switch closure
RS232/485 ports with Modbus RTU
Two line backlit LCD with encoder knob
-40F (-40C) to 167F (75C)
12” H x 10”W x 6”D
NEMA 4
ARTIFICIAL LIFT
Artificial lift is a process used on oil wells to increase pressure within the reservoir and encourage oil to the surface. When the natural drive energy of the reservoir is not strong enough to push the oil to the surface, artificial lift is employed to recover more production. While some wells contain enough pressure for oil to rise to the
surface without stimulation, most don’t, requiring artificial lift. Even those wells that initially possess natural flow to the surface, that pressure depletes over time, and artificial lift is then required. As a result, artificial lift is generally performed on all wells at some time during their production life.
FLOWFAST JET PUMPS
STEAMFLOOD ENHANCED OIL RECOVERY
WATERFLOOD PUMP SYSTEMS
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Cimarron manufactures code storage tanks in a variety of sizes as well as bullet tanks and site containment systems. All vessels are designed and manufactured in accordance with applicable API or ASME standards for high quality and durable performance.
STORAGE
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Steel tanks are available in a variety of sizes from 100 to 1,000 barrel capacity, including short and tall sizes in 500 barrels. All tanks are built to API 12F specifications:
STANDARD FEATURES:• Flat or cone bottom design
• One 24” x 36” extended type cleanout with one piece cover
• One set of double lugs for walkway brackets
• Seven connections in 3” and 4” NPT
• External enamel coating
OPTIONAL ITEMS:• Walkways and stairways
• Two-piece manway cover
• Thief hatches
• Flanged or threaded connections
• Partial or full internal coating
• Customer-specified coatings and connection sizes
Bullet tanks are all built to ASME standards in Cimarron’s code certified facilities. Our most popular sizes are 18,000, 30,000, 60,000 and 90,000 gallon vessels.
Cimarron also provides wellsite containment systems to help minimize spills and the consequent liability. Load and general sizing requirements are designed to meet local requirements and regulations. Typical structures use 12 gauge sheet metal for containment walls with 10 foot panel lengths, providing flexibility for obstacles and tight spacing between structures and production equipment.
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Artificial lift is a process used on oil wells to increase pressure within the reservoir and encourage oil to the surface. When the natural drive energy of the reservoir is not strong enough to push the oil to the surface, artificial lift is employed to recover more production. While some wells contain enough pressure for oil to rise to the surface without stimulation, most require some form of artificial lift. Even with wells that initially have sufficient pressure to flow to the surface, formation pressure depletes over time and artificial lift is then required. As a result, artificial lift is generally performed on all wells at some time during their production life.
ARTIFICIAL LIFT
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Jet Pumps
Jet pumps operate by converting pressurized power fluid to a high-velocity jet that mixes with the well fluids. The resulting lower pressure brings formation fluids into the jet pump and then to the surface. Successful applications have included setting depths ranging from 1,000 to 18,000 feet and production rates varying from less than 100 to 20,000 bpd. The systems are flexible because the downhole-pumping rate can be regulated over a wide range with fluid controls on the surface. Chemicals to control corrosion, paraffin, and emulsions can be injected downhole with the power fluid, while fresh water can also be injected to dissolve salt deposits. When pumping heavy crudes, the power fluid can serve as an effective diluent to reduce the viscosity of the produced fluids. The power fluid also can be heated for handling heavy or low-pour-point crudes. Hydraulic pumping systems are suitable for wells with deviated or crooked holes that can cause problems for other types of artificial lift.
Cimarron offers electric or gas powered, skid-mounted surface units combined with a Venturi downhole tool. One of the innovative technologies packaged with the surface equipment of the Jet Pump system is the Engine Integrated Control System (EICS). The EICS provides an integrated solution pre-calibrated specifically for the engine model. Features include:
• Dyno testing for specific engine models
• Advanced electronic fuel control systems providing immediate response to engine speed/load variations and fuel quality changes. Burning the produced gas is managed automatically (up to 2250BTU)
• “Smart” ignition coils for enhanced engine diagnostics
• Color Graphic User Interface
• Data sharing via Modbus RS485
High Pressure/Low Velocity power fluid is pumped through a nozzle
Power fluid exiting the nozzle is High Velocity/Low Pressure
The pressure drop draws in production fluid
Power and production fluid are combined in the expansion tube or throat
Power fluid and produced fluid exit the jet pump housing and travel up the annulus
The mixed power and production fluid change in the diffuser back to High Pressure/Low Velocity
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Steamflood Enhanced Oil Recovery – Steam GeneratorsCimarron has significant experience in designing and manufacturing steam generators with capacities ranging from 25 mmbtu per hour to over 100 mmbtu per hour. Many of these have been installed in heavy oil regions such as the San Joaquin Basin in California and the Orinoco Basin in southern Venezuela.
In a steam flood, sometimes known as a steam drive, certain wellbores are used for steam injection and others are used for oil production. Steam-heating the oil to higher temperatures decreases its viscosity so that it more easily flows through the formation toward the producing wells. As the steam cools, it moves through the reservoir and produces the benefits of a traditional waterflood. An added bonus from the use of steam is the flushing of liners and casing perforations as well as the reduction of deposits in the well structure, reducing flow restrictions.
Waterflood Enhanced Oil Recovery – Water Injection SkidsCimarron offers produced water injection skids and pump systems for waterflood projects. Design and capacity varies widely between projects, and often use power generation skids also supplied by Cimarron. Waterflooding an oil reservoir increases the oil production rate and, ultimately, the oil recovery. This is accomplished through the injection of water, which increases the reservoir pressure to its initial level and forces the oil to the production wells.
ARTIFICIAL LIFT
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Cimarron provides industry leading hydrocarbon measurement equipment as well as a wide variety of fluid management solutions, including pipeline pumps, water treatment trains, hydrocarbon pump skids, and boiler feedwater skids.
The LACT unit is the critical system in measuring the volume of crude oil and petroleum products when it is being transferred from the production site to trucks, pipeline, or storage tanks. Cimarron has combined our engineering expertise and oilfield experience with the industry’s most reliable system components to produce LACT standard designs in 2”, 3” and 4” models.
FLUID MEASUREMENT & MANAGEMENT
Lease Automatic Custody Transfer (LACT) Units
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We provide precision measurement in all environmental conditions including cold weather applications. Remote monitored and fully automated or semi-automated smart control systems are available to increase productivity, increase transparency, reduce LOE and improve safety standards. Depending on the configuration required, our LACT skids can be ready to ship in as little as two weeks from approved drawings.
SPECIFICATIONSSKID Approximately 4’ x 15’ open type drag skid.
PIPING All piping built per B31.3 To Include, 10% Radiography and hydro tested.
ELECTRICAL Class 1 Div 2 Starter Panel Stand mounted on skid. All interconnecting wiring on the skid through rigid conduit and explosion proof fittings with all electrical to be suitable for Class I, Group D, and Div 2 service area and to meet the latest National Electrical Code.
PAINT Customer specified color.
• 3” (4”) 150# E-Type strainer with 40 mesh screen basket with 1”NPT drain connection furnished with (1) 1”NPT ball valve
• Flow Serve centrifugal charge pump fitted with a 7.5 HP (10 HP, 20HP) 460 VAC/ TEFC electric motor rated for 80 GPM (150GPM, 300GPM)
• 2” (3”, 4”) ANSI 150# flanged steel vertical riser with BS&W Probe, air release head and sample probe
• 2” (3”, 4”) 150# flanged Inline 509F 3-way diverter valve with actuator
• 2” (3”, 4”) 150# Smith PD meter model C2-S3, right angle drive, standard seals and trim, with Smith HNRC
• 15 gal. Fabricated steel sample container
• 2” (3”, 4”) ANSI 150# flanged steel instrument spool
• 2” (3”, 4”) ANSI 150# Flanged prover manifold
• 2” (3”, 4”) ANSI 150# flanged Invalco back pressure valve with 20-40# spring
• Microload.net Flow computer
STANDARD COMPONENTS• Positive displacement meters• Strainers• Turbine meters
• BS&W monitors• Coriolis meters• Flow computers• Valves & pumps• Control and data acquisition systems• Static mixers• Complete instrumentation packages
UPGRADES & OPTIONSFiltration • Additional strainer downstream of pump
• Duplex basket strainer
Instrumentation • Pressure transmitter• Temperature transmitter
Valves • Inlet ESD valve with or without actuator• Check valves• Additional ball valves
Sample Pot • Sample pots also available in 5 gal, 10 gal, and 20 gal model
Skid • Drip pan• Fiberglass grating or checker plate flooring• Cold weather enclosure (metal or fiberglass)
Meters • Coriolis meters• Turbine meters
FLUID MEASUREMENT & MANAGEMENT
LACT Unit Typical Equipment List• 3” (4”) ANSI 150# RF flanged full port ball valve with manual lever
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Pump SystemsCimarron provides turnkey pump system solutions for transfer, injection, or pressure boosting of your process liquids. Common applications are crude gathering, condensate loading, or water treatment. Skids accommodate small transfer pumps to high volume pipeline pump solutions with a large range of operating pressures. Highlights include:
• Single or multi-stage centrifugal pumps: ANSI, API 610, ISO, or ASME
• Reciprocating: triplex and quintuplex
• Positive displacement: screw or gear
• Slurry type centrifugals and reciprocating pumps for solids processing
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No power? No problem. Cimarron has taken a proven standard for durable, low maintenance power generation and paired it with innovative technologies. The result – a GenSet package that is ideal for today’s field operations.
POWER GENERATION
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Sales & Rental• Natural gas engines, straight from the well up
to 2250 Btu/ft3• 0 to 85 KW, model 3306BNA• 85 to 190 KW, model 3406TA• 350 KW, model 3412
Engine Integrated Control System (EICS)The EICS accommodates a wide variation in fuel consumption and speed/load ranges, maintaining efficiency with load following technology for the toughest gas lift applications. Key components include:
• Rugged oilfield skid• Fuel filter – muffler – catalyst• Air/fuel ratio control• Speed governing• Interface and diagnostic sensors• Catalyst options• Engine control modules
Cold Weather Packages• Weather-proof enclosures• Ventilation louvers• Heater with thermostat control• Side and rear doors for ease of access and
maintenance
Automation (optional smart control systems)• Cell connectivity to transmit data to the cloud• Performance view measures any Modbus capable
device with up to four, 4-20mA sensors• Historical data graphics over any period or event• Capability to overlay datasets for analysis• GPS tracking and Google map integration• Configurable alert systems for a number of
monitored parameters using voice, text, or email
ARTIFICIAL LIFT
Artificial lift is a process used on oil wells to increase pressure within the reservoir and encourage oil to the surface. When the natural drive energy of the reservoir is not strong enough to push the oil to the surface, artificial lift is employed to recover more production. While some wells contain enough pressure for oil to rise to the
surface without stimulation, most don’t, requiring artificial lift. Even those wells that initially possess natural flow to the surface, that pressure depletes over time, and artificial lift is then required. As a result, artificial lift is generally performed on all wells at some time during their production life.
FLOWFAST JET PUMPS
STEAMFLOOD ENHANCED OIL RECOVERY
WATERFLOOD PUMP SYSTEMS
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Cimarron has field service personnel in most of the major operating regions of the US oil and gas industry. From Texas to Colorado, North Dakota to Pennsylvania, our experienced crews are trained on the equipment as well as in safety practices and procedures. We understand that efficient service combined with strict adherence to customer safety policies is critical.
We regularly commission and maintain equipment manufactured by Cimarron as well as other manufacturers. Field service crews also provide a variety of services in repairing and maintaining production equipment and commonly provide training to customer field personnel on equipment as well. We look forward to the opportunity to serve you.
FIELD SERVICE
Field Service Expertise
• Production equipment commissioning and maintenance
• Combustor and flare commissioning and maintenance
• Installation of burner managment systems
• VRU operation and maintenance
• LACT unit operation and maintenance
• Jet pump commissioning and repair
• Dehydration commissioning and cleaning
• Power generation operation and maintenance
ARTIFICIAL LIFTFlowFast Jet Pumps
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Engineering & DesignCimarron has over 30 years of experience in engineering and designing upstream and midstream production and processing solutions. Our engineers and designers work closely with our clients to ensure that each product is tailored to their operating conditions and production requirements. Design tools include Promax simulation software, Codecalcs, Autodesk Inventor and SolidWorks.
What Cimarron CanDo For You• Custom engineered solutions to meet the needs of your specific
application
• Highest quality materials and workmanship
• ASME & API Code Manufacturing
• Ongoing support & service
For More InformationWe would be glad to discuss your needs and requirements. Please contact us at your convenience at 405-928-7373 or visit our website at CimarronEnergy.com, where you will find further information as well as datasheets for inquiring about specific solutions for your application.
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Field ServiceWe offer the most comprehensive field service promise in the industry, utilizing skilled service personnel who provide regional
expertise for individual markets. Cimarron customers are customers for life; we take care of what you need, when and where you need it.
Ongoing SupportThe development of solid customer relationships is critical to our success,
which is why Cimarron sales personnel maintain contact before, during and after the sale. Whether you need more detailed product information,
technical guidance or an on-site technician, we’re prepared to answer your questions and address your service requests in a timely, personal manner.
TrainingBy offering field training on all Cimarron equipment, we’re confident that we can help you achieve optimal production capacity and satisfaction. Our highly
qualified technicians are experts at helping customers maximize performance and maintain working order. Our field services team is available whenever and
wherever you need them.
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Sales and ServiceDenver, COBerthold, NDWilliston, NDOklahoma City, OKHouston, TXMidland, TXPittsburgh, PAIndiana, PAVernal, UTCharleston, WVCasper, WY
ManufacturingGrafton, NDEvans, COEnglewood, CONorman, OKMarlow, OKKaty, TX
ContactSales 405-928-7373
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