LEISTRITZ PUMPEN GMBH Multiphase Pump Technology For Onshore, Offshore and Subsea Applications
Multiphase Pumps for enhanced crude oil production THE MULTIPHASE- PUMPS (MPP) ARE SETTING A NEW DIMENSION IN OIL PRODUCTION. 1 The conventional method to produce crude oil and gas can now be replaced by a more efficient method, - multiphase production. Compared to the conventional method, the multiphase production does not require any separation of crude, gas and water produced by the oil well. It is not required to build separate pipelines for the transporation of the liquids and the gas. For gas transport, no compressor is reqired. The gas lift volume can also be reduced for wells with gas lift. The key to the multiphase production system is in the multhiphase pump (MPP). The multiphase pumps can increase the pressure of the well flow for further transporation downstream and also reduce the well pressure to substantially increase production from the well. Besides reduction of capital investment, the multiphase pump simplifies oil production and increases the productive life of the oil well. LEISTRITZ high- and low-pressure MPP are used in both in fields, onshore and offshore applications. They are also used for marginal field developments where the complete gas lift system can be eliminated. The specific rotor design of the LEISTRITZ MPP is optimized for multiphase production and can handle high viscous and abrasive crude oil independently of the inlet pressure. The pump can accept very low inlet pressure (abs. 0.2 bar) and still handle high gas fraction and is well capable of handling slug flow without any disturbance. The LEISTRITZ multiphase pumps are available in sizes from 96 to 365 mm rotor diameter. The maximum flow is 330,000 bpd. Differential pressures up to 1,200 psi and gas fractions of 100% can be realized. The first LEISTRITZ MPP was installed on a platform in the Gulf of Mexico in 1993. Today, LEISTRITZ has several pumps in operation in onshore and and offshore oil fields showing continous high reliabiliy. In the future these pumps will also be used in subsea production down to a water depth of 1,000m. With this application a complete new field is opened to multiphase production. The high demand on availability makes it necessary to design the pump for a least 40,000 hours in continous service. The first unit will be supplied early 1998. 2
LEISTRITZ PUMPEN GMBH LEISTRITZ multiphase pumps (MPP) are used all over the world in both onshore and offshore applications. The scope of supply includes the bare pump as well as the complete skid mounted MPPunit including pump, driver, auxiliary systems and piping. MPP-pumps can be driven by electric motors, diesel engines, gas engines or turbines. They are either directly coupled, belt or gearbox driven. MPP-units can be designed to run on unmanned platforms or in remote onshore locations. 2 5 3 4 1. Boxi Field, Bohai Oil Corp., China L4 HK - 256-60 2. Princess Field, Chevron, Canada L4 HK - 200-54 3. Trinmar, Trinidad L4 NK - 164-72 4. Main Pass, Chevron, USA L4 MK - 140-96 5. Trinmar, Trinidad L4 NK - 96-32 3
Multiphase Pumps Low Pressure MPP: flow rate up to 220,000 bpd differential pressure up to 360 psi gas fraction up to 100 %* required power up to 500 kw DESIGN FEATURES: Double flow arrangement equalizes axial forces on the rotor at all operation conditions. Rotors are machined out of one solid piece for maximum stiffness and integrity. Extremely short bearing span for minimal shaft deflection and safe operation at high differential pressure. Minimal shaft deflection for safe operation at high gas fractions and long life of seal and bearing. Minimal internal clearances for maximum efficiency. * with Recirculation High Pressure MPP: flow rate up to 330,000 bpd differential pressure up to 1,200 psi gas fraction up to 100 %* required power up to 2,000 kw * with Recirculation 4
LEISTRITZ PUMPEN GMBH Special rotor profile combined with a variety of hard coatings to minimize wear. Shaft seals can be single or in double seal arrangement to cover each MPP-application. Fulfills API 676 design requirements. Able to handle gas fractions from 0 to 100 % at inlet conditions. Can handle slug flow without torque fluctuations on the drive shaft. This lowers the wear of the whole MPP-unit and avoids the use of slug catchers. Low Pressure MPP Flow Range 250,000 200,000 Total Flow Rate (bpd) 150,000 100,000 L4 MK 240 L4 MK 186 50,000 L4 MK 140 0 0 70 140 210 280 360 L4 MK 96 Differential Pressure (psi) High Pressure MPP Flow Range 350,000 300,000 Total Flow Rate (bpd) 250,000 200,000 150,000 100,000 50,000 L4 HK 365 L4 HK 330 L4 HK 265 L4 HK 200 0 0 580 870 1,200 L4 HK 150 L4 HK 100 Differential Pressure (psi) 5
Applications LEISTRITZ MPP is used to lower the well head pressure in order to increase production and to reduce required gas lift to maximize secondary recovery. LEISTRITZ MPP is used to rise the system pressure downstream of the pump either to overcome long distances between the well and process facillity to better use existing batteries and process plants. Onshore LEISTRITZ MPP reduces the need for separation facilities, boosts the pressure to overcome long distances and increases production from shut-in or low flowing wells. Offshore LEISTRITZ MPP save space on platforms by eliminating separators and compressors. They save costs by transporting the multiphase fluid in only one pipeline. They increase production and reduce the need of gaslift or water injection. Subsea LEISTRITZ MPP save capital investment by eleminating production platforms. 6
LEISTRITZ PUMPEN GMBH 1. Design Data A) Total barrels of oil per day B) Total barrels of water per day C) Total barrels of liquid and % water cut D) Total standard cubic feet of gas per day Data Form MULTIPHASE PUMP APPLICATION REQUIREMENTS The following information will assist LEISTRITZ in specifying a multiphase pump or pump system for your application. Please complete as much information as possible plus any other data you think would be of importance. E) GOR F) Hydrogen sulfide content G) Design pump inlet pressure - psig H) Expected maximum pump inlet pressure - psig I) Expected maximum pump outlet pressure - psig J) Well shut in pressure - psig K) Crude specification (API, Gravity, Viscosity) - Startup - Flowing L) Sand content M) Flowing crude temperature at inlet of pump N) Ex - zone Requirements 2. Description of equipment A) Type prime mover (electrical, natural gas, diesel) B) If unit is to be skid mounted by LEISTRITZ give space available for skid C) Total skid weight limitations D) Type control system for similar equipment (pneumatic, electric) E) Check valve required? F) Pressure safety valve required? G) Type and temperature of coolant available 3. Please give a short description of the application and any other information A) Onshore or offshore? B) Sketch of set up C) How many wells are feeding the pump? D) Reason of MPP application -decrease of inlet pressure -built up differential pressure E) Other information 7
The Leistritz Screw Pump Program L2-Series: for light abrasive and corrosive, high or low viscosity fluids with poor lubricity, for pressure ranges up to approx. 16 bar (232 psi). L3N-Series: for low and high viscosity fluids with good lubricity, for low pressure range up to 16 bar (232 psi). L3M-Series: for high or low viscosity fluids with good lubricity, for medium pressure ranges up to approx. 100 bar (1.450 psi). L3H-Series: for high or low viscosity fluids with good lubricity, for high pressure ranges up to approx. 160 bar 2.320 psi). L4-Series: for corrosive, abrasive and high or low viscosity fluids with poor lubricity, for pressure ranges up to approx. 40 bar (580 psi). L5-Series: for lubricating, not corrosive and slightly abrasive fluids, with pressure ranges up to approx.10 bar (150 psi). MPP-Series: for multiphase fluids, mixtures of gas, oil and water with produced solids, up to a different pressure of approx. 100 bar (1.450 psi). LEISTRITZ PUMPEN GMBH P.O. Box 30 41 D-90014 Nuremberg Markgrafenstrasse 29-39 D-90459 Nuremberg Phone: +49 9 11 / 43 06-0 Fax: +49 9 11 / 43 06-490 E-Mail: pumps@leistritz.de 1.2-12 e 05/04 2 tü