Zero well workovers
Revolutionizing Oil and Gas Production relying on ESP, ESPCP, LESP and Gas Lift.
fluid backflowtime and effort
opexkpi
profit
Purpose of RCV
BRING THE ARTIFICIAL LIFT EQUIPMENT INTO THE OPERATIONAL MODE WITH MINIMAL LOSSES IN OIL AND GAS PRODUCTION, WITH NEGLIGIBLE ASSOCIATED COSTS AND RISKS
Has managed to marry all points of interest under a single product
CONVENTIONAL CHECK VALVES HERMETICITY LOSS
Resulting in the fluid-backflow associated consequences.
Ten-year statistical data* shows 1,189 fatal injuries in the USA in the oil and gas extraction industry.
Reduced production in the event of altered intermittent pump operation caused by fluid backflow in the tubing string, or a multi-day loss of production during both time and resource consuming well workover.
High OPEX, engagement of well workover rig for pulling out of the entire production equipment, expenses related to transport and overhaul of that equipment, electric power costs, the reduced service life of electric submersible pieces of equipment
Well workover can lead to groundwater contamination due to well-kill fluid ** utilization, and air quality degradation by exhaust gases from diesel powered rig and heavy machinery, operating 24/7, including their extensive fuel consumption.
THE RETRIEVABLE CHECK VALVE FLUID BACKFLOW
Reduced number of life-threatening incidents and injuries during well workover, involving contact with objects/equipment, exposure to harmful environments/substances, falls, and transportation.
Operational cost cutting is achieved through a decreased number of well workovers, reduced accompanying equipment and personnel transport, lower frequency of pulled out equipment overhaul, and overall electricity savings.
Uninterrupted oil, gas, water, and gas condensate production process with maximum pump efficiency
direct loss-equivalent benefit annually*
By avoiding associated well workovers, we eliminate the need for fuel consumption by workover rig, reduce exhaust gas emissions from the engines, and eliminate the utilization of fluid required for well-kill.
DIRECT benefit within a single year
The losses outlined below are equivalent to the benefit accrued by the oil company through the utilization of the RCV due to the guaranteed designed operating mode on an annual basis.
(altered operating mode)
The conspicuously nonsensical consumption of electrical energy required for the operation of ESP equipment during the filling of the tubing string with fluid up to the point of its production on the surface. The power consumption for 80 minutes of ESP operation, attributed to tubing filling after the fluid backflow, costs the oil company 5.1 x €5.1 = €26 per day.
This calculation assumes that the electric motor and hydro-protector remain in functional condition, which is unlikely since they will most likely experience failures due to operating in a high-temperature regime, necessitating the overhaul of downhole production equipment.
*The average price of electricity in Serbia until August 2022 is 0.12 $/kWh. **This example should be understood as an approximate representation of the economic loss due to the non-hermeticity of conventional (nonretrievable) check valves, and in no way as a limiting parameter for the RCV and its performance.
Annual Loss in
Unproduced Oil:
€1.1 million
annual loss in electricity consumption*:
€9,500
DAILY LOSS:
€3,280.00
Wrangtech’s innovative approach to the crude oil and gas production process lies in addressing the challenge of fluid backflow through ESP, ESPCP, or LESP equipment during pump stoppage due to the failure of the conventional check valve. The solution involves the utilization of a patented retrievable check valve (RCV) and its seating nipple during well-workovers. This eco-aware innovation eliminates the need for costly traditional well workovers, it completely replaces conventional check valves, and drainage valves in ESP, ESPCP, and LESP systems, in some cases. It leverages cross-disciplinary expertise encompassing pump engineering, fluid dynamics, materials science, and control systems to provide a cutting-edge product for the industry’s challenges.
The RCV equipped with the sludge catcher, and its seating nipple with thread connections for attaching to the tubing.
The RCV equipped with the sludge catcher, and its seating nipple with thread connections for attaching to the tubing.
The RCV and its seating nipple with thread connections for attaching to the tubing.
Experience the future of O&G production with Wrangtech. Join us in embracing innovation, efficiency, and sustainability. Together, we can redefine industry standards and pave the way for a greener, more profitable future.
to oil and gas production process
electric submersible pump
electric submersible progressive cavity pump
linear electric submersible pump
Gas-lift
Unlock unprecedented efficiency: Our eco-aware patent solution solves fluid backflow without costly well overhauls
Tailored for oil and gas production (ESP, ESPCP, LESP, and GL);
Manufactured from corrosion-resistant stainless materials with high durability to ensure prolonged functionality in diverse working conditions, including corrosive gases and liquid fluids;
Eco-aware product that ensures pump operation in the designed, i.e. most energy-efficient operating mode, requiring minimal electricity consumption, thanks to the RCV’s retrievability, replaceability, and increased resistance to hermeticity loss due to mechanical impurities.
Cost-efficient maintenance thanks to streamlined design and high-quality, durable materials;
Designed to accommodate standard slickline and coiled tubing installation and removal tools;
The sludge catcher option protects the ball and its seating nipple from mechanical impurity buildup, reducing the risk of RCV non-hermeticity or significantly delaying its failure;
Designed for all well workover operations requiring check valves (activating hydraulic packers, testing tubing string integrity, etc.);
Simple to maintain, it can be reused multiple times, with the requirement of replacing seals, and, if needed, specific components due to potential mechanical damage resulting from mishandling;
The flexibility to replace any RCV component in the event of damage significantly enhances energy efficiency, both in the manufacturing process and the maintenance of all components, keeping everything in optimal working condition. Additionally, it is a long-lasting product with full recyclability.
No special workshop tools required;
Mechanical locking system to its seating nipple;
The RCV is designed with an integrated mechanism for fluid backflow management.
Tailored for oil and gas production (ESP, ESPCP, LESP, and GL);
Designed for all well workover operations requiring check valves (activating hydraulic packers, testing tubing string integrity, etc.);
Manufactured from corrosion-resistant stainless materials with high durability to ensure prolonged functionality in diverse working conditions, including corrosive gases and liquid fluids;
Simple to maintain, it can be reused multiple times, with the requirement of replacing seals, and, if needed, specific components due to potential mechanical damage resulting from mishandling;
Eco-aware product that ensures pump operation in the designed, i.e. most energy-efficient operating mode, requiring minimal electricity consumption, thanks to the RCV’s retrievability, replaceability, and increased resistance to hermeticity loss due to mechanical impurities.
The flexibility to replace any RCV component in the event of damage significantly enhances energy efficiency, both in the manufacturing process and the maintenance of all components, keeping everything in optimal working condition. Additionally, it is a long-lasting product with full recyclability.
Cost-efficient maintenance thanks to streamlined design and high-quality, durable materials;
No special workshop tools required;
Designed to accommodate standard slickline and coiled tubing installation and removal tools;
Mechanical locking system to its seating nipple;
The sludge catcher option protects the ball and its seating nipple from mechanical impurity buildup, reducing the risk of RCV non-hermeticity or significantly delaying its failure;
The RCV is designed with an integrated mechanism for fluid backflow management.
Our eco-friendly solution protects groundwater by eliminating harmful well-kill fluids. It reduces exhaust gas emissions from 24/7 diesel-powered rigs and heavy machinery, and cuts fuel consumption to lower costs and your carbon footprint.
Comparative analysis based on check valves’ main feature: fluid-backflow prevention
Attributes
Made for production of oil and gas
Replaceable without well workover
Can be used for well workover operations
Easy maintenance
Equiped with sludge catcher
Mechanical locking system to the seating nipple
Bullheading acid pump flush
Bullheading pump flush
Bullheading thermal treatments of pump and tubing
Interval stimulation
Integrated drainage mechanism
Hardlined valve ball cage
Rubber to metal seal
Robust and hermetical metal to metal seal
Non-retrievable Check Valve
N/A
N/A
Conventional Retrievable Check Valve
N/A
N/A
N/A
N/A
N/A
Wrangtech's Retrievable Check Valve
at various production rates
Effective laboratory examination of both the hermeticity and integrity of the RCV-AG 2-7/8″ EU SST retrievable check valve at a maximum pressure of 416 bars.
Ansys Discovery
BRING THE EQUIPMENT INTO OPERATIONAL MODE WITH MINIMAL LOSSES IN OIL AND GAS PRODUCTION, WITH NEGLIGIBLE ASSOCIATED COSTS.
LOSS OF NON-RETRIEVABLE VALVE HERMETICITY
results in reduced/loss of production in ESP* and ESPCP*
exploitation methods, or immediate production loss in LESP**.
UNCONTROLLED DRAIN VALVE OPENING
resulting in an instantaneous production loss.
REDUCED PRODUCTION
in the event of continued pump operation in an altered mode caused by fluid drainage, with mandatory increases in electrical energy costs.
REDUCED SERVICE LIFE OF ELECTRIC SUBMERSIBLE EQUIPMENT
due to increased operating temperatures caused by altered operational conditions.
MULTI-DAY LOSS OF PRODUCTION OF OIL AND GAS
during the well workover.
EXPENSE OF ENGAGING WELL WORKOVER FACILITY
for the pulling out of complete production equipment from the well.
COSTS OF EQUIPMENT TRANSPORT
COSTS OF OVERHAUL
of the entire equipment pulled out of the well.
Our goal is to introduce innovative technical solutions to everyday challenges, empowering production engineers. We have united as Wrangtech LLC Novi Sad in July 2023, establishing a company dedicated to servicing the oil and gas exploration and production sector relying on artificial lift systems.
Đorđe Kljajić
CEO
Miloš Zivlak
Lead Engineer
Borislav Kljajić
Project Manager
Kristina Anđušić
Operations and PR Manager
Slobodan Anđušić
Reservoir Engineering Expert
Ready to elevate your O&G production processes? Get in touch with Wrangtech’s experts today to tailor our revolutionary solutions to your specific needs.
REPUBLIC OF SERBIA
MINISTRY OF FINANCE
Department for Contracting and Financing of EU Funded Programmes
MINISTRY OF SCIENCE, TECHNOLOGICAL DEVELOPMENT AND INNOVATION
We’re a skilled team of industry experts with extensive experience in oil and gas production, i.e. oil and gas well equipment management, committed to promoting strong environmental awareness and sustainability.
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