Monday, December 29, 2014

Poor boy degasser for oil & gas drilling

Functions of Poor boy degasser for oil & gas drilling
Poor boy degasser, also called mud gas separately, it is a normal equipment in mud solids control system for onshore and offshore rigs. We can see from the name, the main function of poor boy degasser is to separate gas from drilling mud. There normally big quality air bubble in the drilling mud. The air bubble may damage the solids control equipment, like mud cleaner, desander, desilter. Another reason, and the most important reason, there normally dangerous gas consisted in the air bubble, if it is comes out with mud and spread the environment, it will make pollution and hurt the operation people at jobsite.

Different design Poor boy degasser for onshore and offshore oil & gas drilling
There mainly 2 types design Poor boy degasser for onshore and offshore oil & gas drilling.
Design 1: Atmosphere type poor boy degasser
Features of Atmosphere type poor boy degasser: there will be 5~10 m or more longer vent line on top of poor boy degasser. It is used to pipe the gas into the atmosphere directly. 

Design 2: Ignition type poor boy degasser
Features of Ignition type poor boy degasser: Ther dangerous gas in drilling mud is H2S. It is combustible gas. After fire, it changes out to harmless gas and can be discharged directly. There will be 50m ~ 100m vent line to guide the gas to remote area. There will be a flare igniter connected with the vent line and fire the gas while it comes out. 

Flare ignition Device for Poor boy degasser for onshore and offshore oil & gas drilling
As a kind of security and environmental protection device, the flare igniter can be used to make the harmful gas ignited and burned to prevent it pollute environment. The flare ignition device, apart from being used in the refinery and gas distribution station, can be matched with Mud Gas Separator.


Monday, December 22, 2014

Looking for Trailer mounted mud tank manufacturer in USA

GN solids America is looking for trailer mounted mud tank manufacturers in USA, if you are the applicable supplier, pls contact us at 6710 windfern road, Houston, TX 77040 or call at 713 320 3868. What we are looking for is a long term cooperation partner who works as our customized mud tanks suppliers in the States.
GN solids control, the headquarter of GN solids America, is a specialist of oil & gas drilling solids control system and HDD mud recycling system, we sold hundreds of mud tank system to our clients in 60 countries in the world, we provide customized design based on your particular requirements. But in USA, we do not produce mud tank system, only the equipments, (we have 8 shale shakers, 2 mud cleaners in Houston warehouse), we need a mud tank manufacture as our partner to provide a complete package to our clients.
Except for mud tanks manufacture, we also need electric control cabinet supplier for our drilling cuttings decanter centrifuge and vertical cuttings dryer, both for rated speed and variable frequency drive. We have 4 models of decanter centrifuge in our Houston office, GNLW363BG( rated speed, 14 inch bowl), GNLW363BG-VFD ( VFD, 14 inch bowl), GNLW453VFD( VFD, 18 inch bowl), GNLW553VFD(VFD, 22 inch bowl), all of them for rent or sale. We provide decanter centrifuges with electric motors and control panels under different standards, like IEC ex, ATEX, UL. If you are a qualified electric control cabinet manufacture around Houston, pls contact our buyer at 713 320 3868.
We provide both GNCD930( rated speed) vertical cuttings dryer and GNCD930-VFD ( variable speed) verti-G dryer in America market, we will show the vertical G dryer at OTC 2015 in Houston, welcome to visit GN solids control at OTC.

Generally speaking, GN solids America need suppliers for trailer mounted mud tank, electric control cabinets, gear box, bearings, shaker screens, welcome to contact our buyers.

Friday, December 12, 2014

The problems and solutions about shaker screen

Shaker screen blinding takes place while particles of solids being screened embed in a screen hole. This usually appears while drilling fine sands , for instance, in the Gulf of Mexico. The right after sort order is observed in the course of screen blinding.

1.  When a brand-new screen is set up, the circulation drilling fluid drops through the screen for a short distance.
2.  After a period of time, the fluid endpoint moves to the end of the shale shaker.
3.  In a very short time this happens, the screens are changed to get rid of the fast discharge of drilling mud from the end of the shaker.
4.  Soon after the screens have been washed, fine grains of sand which are lodged on the screen's surface can be discovered. The surface area of the screen will resemble fine sand paper because of the sand particles lodged in the openings.

One common approach to the problem to screen blinding is to change to a finer or coarser screen that the one being blinded. This strategy is effective if the sand which is being drilled has a narrow size distribution. Another method is to change to are rectangular-shaped screen, although rectangular screens can also blind with multiple grains of sand.

Blinding – the “plastering” of a soft material over and in the mesh, rendering it blocked. Remedy wash with high pressure fluid using the base fluid of the drilling fluid. If this fails, fit coarser screens temporarily.
Plugging – the blocking of the mesh by a particle (usually sand)  fitting into the pore throat of the mesh. Remedy - wash with high pressure fluid using the base fluid of the drilling fluid. This is best done from beneath the screen . It is often successful to place a fine screen on to reduce the “near size” plugging.

GN Solids Control Amercia can provide high quality shake screen and other drilling equipment, if you want more information, you can contact us freely.

Monday, December 1, 2014

Augers Screw Conveyors for Waste Management System

In a complete waste management system in a drilling mud recycling,  besides the main equipment for treating the drilling cuttings like vertical cuttings dryers and decanter centrifuge, one equipment cannot be ignored, which is screw conveyor, or called as auger. This is ideal equipment for conveying the drilling cuttings from the solids control system to the first equipment.
Always there are 2 sets of screw conveyors needed, one is horizontal, for collecting the drilling cuttings from the solids control systems solids discharges. The other is a bit slope, to convey the cuttings into the waste management system. GN Solids Control provide such augers, and GNSC series augers have such benefits:
1.      GNSC screw conveyors are designed as 12ft sections, each section has same length. So it is easy for the end user to keep the spare parts. First section has the motor while the last section has the frame to hoist the screw. The sections in the middle could be disassembled per job site condition.
2.      GNSC screw conveyors use abrasive material for screws in order to ensure a longer service life.
3.      Connections between each section, the shells are connected with bolts, while at screws’ joints there are hanger bearings.
4.      There are covers used on the conveyors to avoid foreign bodies to enter the conveying system. Such application also good for safety control for operators.
5.      GN has another type of screw conveyor available, shell shaped like a hopper, that is used for receiving the materials from truck or something.
GN’s screw conveyors are always requested by customers together with GNLW363 decanter centrifuge and GNCD930 vertical cuttings dryers in a complete waste management system.
May you need such systems or equipments or just screw conveyor, pls feel free to contact us for quotation. Or you could visit our company near Beijing Airport.

Tuesday, November 25, 2014

Bowl – Conveyor Differential RPM and Torque


Differential RPM is the difference between the bowl RPM and the conveyor RPM. The differential is provided by the gearbox which transmits power from the bowl to the conveyor. Differential RPM is simply  calculated by dividing the bowl RPM by the gearbox ratio. Many desanders manufacturers provide a “backdrive” which can independentlyalter the RPM. Backdrive units are, in effect, hydraulic gear reductionsystems used to vary the speed of the conveyor relative to the bowl. Onbackdrive” units RPM depends upon the rotation of the gearbox pinionand the orientation of the flights on the conveyor. For these units RPM may be calculated by:
RPM = (Bowl RPM – Pinion Speed)/Gearbox Ratio

RPM is important because it determines the velocity at which solids areconveyed through a centrifuge. For example, a RPM of 50 and a flight pitchof 3 in. yields a conveyance velocity of 150 in./min. Another expression takes the flight pitch and number of leads on the conveyor into accountto describe the surface area of the bowl swept by the conveyor flightsper unit time. The faster the rate at which the area is swept, the greater the solids capacity.

This equation suggests that solids capacity can be increased by increasingthe RPM (lowering the gearbox ratio). Low swept area values couldindicate potential torque problems. For example, centrifuges with 130:1 orhigher gearbox ratios and centrifuges with 80:1 gearbox ratios with singlelead conveyors may be limited in flowrate by torque.Test data indicates that by increasing RPM reduces torque. Also, torquepressure as feed median particle size increases. Despite the common  beliefthat high RPM values agitate the pond and inhibit sedimentation, testresults indicate that the effect of RPM on solids removal efficiency is slight,provided sufficient differential exists to remove the solids.
If you want to get more imformation, you can visit http://gnsolidscontrol.com/.

Tuesday, November 18, 2014

Solids Control System for Environmental Friendly


Oil and Gas Industry

The oil & gas drilling industry is where GN initially launches our solids control equipment including shale shaker, mud cleaner, vacuum degasser and decanter centrifuge etc. Right now, GN has become an important manufacture to supply solids control equipment(http://www.gnsolidsamerica.com/) matching with different drilling rig in all over the world. GN recycled product ensure clean and free of cuttings and other contaminants in the drilling fluids. Therefore, we win a really good reputation within drilling contractors around the world

Mining Industry

In more recent years, GN linear motion shale shaker and fine screening with hydrocyclones combination have become more popular by gold mining and coal mining. Especially, GN 4 panel shaker is capable of processing their products with long term service. GN small decanter centrifuge is desirable for Canadian, Chile and other countries diamond drilling company. Our centrifuge effectively removes the unexpected solids and improves the rate of penetration.

Dredge Slurry Industry

GN solids control system is also applied for the dredge slurry projects to remove silt, sand, small gravel and debris. We can customize different of capacity systems to accommodate requirement of your project such as 1000GPM. 1500GPM, 2000GPM and 1000GPM. We equip with our advance shale shaker and mud cleaner to maximum remove particles and recovery the clean fluids for dredge slurry project

GN has been involved in many solids control project not only provide a pieces of equipment but provide a complete solution for your project. Contact with GN for you solids control project, we will provide a perfect solution for you.

Wednesday, November 5, 2014

How to Estimate the Effective Volume of A GN Tank

As GN is manufacturing more and more mud tanks every year, more and more customers from abroad are asking for GN Solids Control Co. to give his technical salutations for them. For a salesman, to understand know to calculate the effective of mud tanks in a fast way is very important. Customers will be impressed by a knowledgeable sale.

So today we are willing to share some ways to calculate the effective volume of GN tank.
The GN tank’s effective volume is determined by three factors: one is the inner effective length, the other one is the inner width, and the last one is the height of corrugated board. So the volume equals to the product of these three factors.
When it comes to container type tanks, the effective length is the same as the actual length of the container. However, for a skid type tank, the effective length should be deducted by 500mm because we need to take the skid parts into consideration.
If a centrifugal pump is fixed on the skid, the effective length should be calculated in this way:
1. The centrifugal pump is fixed horizontally
When a pump is fixed horizontally, this means it is align with the length direction of the tank, so a pump with 37kw motor can be seen as taking the length of 2.5m, and powers above 45kw should be deducted by 2.8m for other pumps. Besides, if there are two paralleled pumps, the tank length should be deducted by an extra 300mm.
2. The centrifugal pump is fixed vertically
But if the pump is fixed vertically to the direction of tank’s length direction, 37kw motor will be calculated as 1m and 45kw motor (or above) will be treated as 1.3m.
There is also another case we should fully understand, sometimes we will design the mud tank into a inclined type. Generally speaking, power of motor within 37kw should be calculated as 3m³;45kw and 55kw motors should be calculated as 3.5 m³; and 75kw motors should be calculated as 4m³.
The main products of GN Solids Control is Decanter Centrifuge, Shale Shaker, Shaker Screen, Vertical Cuttings Dryer etc.

Related article: How to Change Belt Pulley for Fixed Speed Centrifuge

Monday, October 27, 2014

Dewatering System for Water Based Drilling Fluids

GN new designed dewatering unit for our client is customized design according to client’s particular project. We ever sold decanter centrifuges to a lot of clients for their dewatering system, but we did not provide the complete system design.
The whole system is devided into 3 parts: Part one solids control or called solids removal, part two dewatering unit, part three storage systems.
Part 1: Solids removal:
Double deck shale shaker GNZS706E-HB and mud cleaner GNZJ703E-3S
This part is to separate the big solids from the drilling fluids and less the solids content, so the fine solids will remain in the drilling fluids and be pumped to the dewatering unit.
Part 2: dewatering unit
This part is to add chemical powder into the drilling fluids for flocculation, then use the cutting machine to cut the big solids into small pieces, then use the screw pump to transfer to GN big bowl decanter centrifuge GNLW553VFD to separate the solids from water. Because water conservation has been a public concerned issue in the world, this dewatering unit has the functions below:
1)       Keep the drilling fluids balance by weight for better performance during drilling
2)       Less tank bottom for easy cleaning
3)       Less the cost for treating the water based drilling fluids
4)       Get more clean water for reuse or conservation
Part 3: storage of clean drilling fluids
These drilling fluids can be reused for drilling by mixing some chemicals.
Advantage of GN designed dewatering Unit:
1 Easy transportation: The equipments are fixed into a 20ft container size frame, so you can put it on the standard truck.
2 Suitable for both cold weather and hot weather: All the units are equipped into the 40ft container, which is rain proof, there is conditioner or fan inside the container to keep it cool. If you operate it in cold weather like Russia, you can close the door of the container.
For more info for this dewatering system, pls contact GN sales(http://www.gnsolidsamerica.com).
Related Article:

Dosing System for GN Mud System: http://drillingmudcleaner.com/vertical-cuttings-dryer-feeding-system/

Thursday, October 9, 2014

Centrifugal pump Mechanical seal

There mainly 3 sealing types for centrifugal pumps, like shear pump, sand pump, slurry pump, etc…
1) Asbestos packing
2) Arid seal
3) Mechanical seal
Mechanical seal is the best and most costive sealing type. It is reliable and with a longer lifetime.
The basic definition of Centrifugal pump Mechanical seal
Mechanical seal is the seal device for rotary machines. Like centrifugal pumps, centrifuges, reactor and a compressor equipment that can be used in mud mixing system. Because the transmission shaft passes through in the inside and outside of the equipment, so, the existence of a circumferential clearance between the shaft and the equipment, equipment of medium leakage outwards through the gap, if the equipment inside the pressure is lower than the atmospheric pressure, air to the equipment inside leakage, and therefore it must have a package to prevent leakage of the shaft. Many seal species, due to mechanical seal has the advantages of small amount of leakage and long service life and so on, so in today's world,  mechanical seal is sealed in the main shaft of the equipment. Mechanical seal is also called the face seal, in the relevant standards of the state is defined as: "by at least a pair of end faces perpendicular to the axis of rotation in the fluid pressure and the elasticity of compensation organizations (or magnetic) device function and coordination of auxiliary seals to keep integrating closely relative sliding form to prevent fluid leakage.
Summary of principles on Decanter Centrifuge Mechanical seal
Mechanical seal is by a pair of or number on the vertical axis for end face relative sliding in the fluid pressure and the compensation mechanism of elastic (or magnetic) under the action of combined with keep sticking auxiliary sealing and leakage resistance to seal device.
Common mechanical seal structure comprises a stationary ring (static ring) 1, rotating ring (dynamic ring) 2, 3 elastic components, a spring seat 4, fastening screw 5, a rotating ring auxiliary seal ring 6, and the static ring auxiliary seal ring 8 and other components, anti rotation pin 7 is fixed on the cover 9 to prevent static the rotation of the ring.
Rotating ring and the stationary ring is often also can according to whether they have the axial compensation capacity and is called the compensation loop or non compensation ring.

More information please visit: http://www.gnsolidsamerica.com

Friday, September 19, 2014

GN’s Decanter Centrifuge for Solids Control

Decanter Centrifuge is the final stage equipment in a complete solids control system. After being discharged from a desilter or a mud cleaner, drilling mud will be pumped into decanter centrifuge by a screw pump. A decanter centrifuge usually can separate solids with a diameter between 2 to 7 microns out.  As to a decanter centrifuge’s working principle, firstly I ‘d like to remind your of a bottle containing the mixture of sand and water, you will see that sand is settled on the bottom, while the water is suspended on it. That because the sand enjoys a higher sedimentation velocity than the water for its larger density. And then we should refer to a laundry-drier which is used to dry washed clothes by centrifugal force, and the bigger the centrifugal force is, the shorter time it will taker to dry clothes. Combine the two suggestions, you will know how a decanter centrifuge works. GN Solids America’s decanter centrifuge with a mid-speed can remove solids of 5 to 7 microns out, and GN’s high speed decanter centrifuge can separate solids of 2 to 5 microns out. Besides being the final equipment in a solids control system, GN’s decanter centrifuge can also be used in a drilling waste management system.

    GN’s decanter centrifuge has the following advantages and benefits.
First, as the first API certified solids control company in China, GN solids America also is certified by:Europe DNV CE, HSE, ISO9001, Russia TP&TC. And GN firstly built an USA based solid control company:GN Solids America.
Then,GN's decanter centrifuge adopts many a new designs. For example,tungsten carbide tiles are fixed on the screw to protect it from wear, and the tiles are easier to be replaced.

Definitely, GN’s decanter centrifuge will be your perfect choice.

Thursday, August 21, 2014

Shaker Completes Field Trial in America

Performance Report: GN-3 Triple-Deck Shale Shaker Screen Completes Field Trial in America
Challenge: The GN-3 Shaker underwent a field trial on a major operator land drilling site. The main trial objectives were to test the flow rate handling capacity and make a qualitative assessment of the solids handling and conveyance capacity of the GN-3 Shaker. Shaker screen life was also measured and compared to historical benchmarks.

Solution: The GN-3 Shale Shaker is a multi-deck shaker engineered to provide efficient solid separation. The Shaker Screen was set in a parallel configuration, meaning the bottom decks were running in parallel with each other and using the same mesh (for the majority of the test). For this trial, the GN-3 unit was installed between the shaker cutting tank and the first fluid storage silo. Tests were conducted on 12-8 and 6-in. sections.



The GN-3 unit was rigged up to take 100% of the flow from the bell nipple, with the three rig-owned units on standby, but isolated. The mud system was KPM, a KCl polymer system. 28 gumbo screens with 0.8 x 118 mm openings were used on the scalping deck and the middle and bottom decks were dressed with 84 XR screens. HC screens were later used in the section due to their superior performance in sticky clays. For the first 40 m (131 ft) drilled, the GN-3 unit was able to handle the complete flow rate of 2,500 L/min. At 40 m (131 ft), the screens partially blinded in unconsolidated sands and the total flow rate was reduced to 1,250 to 1,500 L/min. The GN-3 unit was able to handle 750-900 L/min of the total flow (60%). This result was historically better than previous wells, where flow was usually limited to <1,000 L/min in total due to excessive blinding across the three rig shakers. Once into the Breda, Rupel and Asse clay formations the flow rate was increased to 3,000 to 3,100 L.min in total, with the GN-3 unit treating 2,000 to 2,700 L/min (66 to 88% of total flow). Once into the lower Tertiary clays and Upper Cretaceous chalk, the GN-3 unit was able to treat up to 3,400 L/min (100% total flow) with 84/105 (need to specify HC or XR) mesh on the primary decks.
8?-in. section: After a successful cementation of the 9 in. casing and the installation of the BOP the section was started with the GN-3 unit rigged up. The scalping deck was dressed with 38 XL screens, while the middle and bottom decks were dressed with 165 XR and 165 HC screens, respectively. The shoe track was drilled out with the previous KPM water-based mud and then during the drilling out of the cement the well was displaced to 1.25 SG VCM. Once the mud was displaced, drilling of the fresh formation started. The mud system was VCM, a VERSACLEAN LTOBM system. From the beginning of the 8?-in. section the GN-3 unit was able to process the total flow rate from the well. The flow ranged from 1,600 L/min during rotary drilling mode, up to 2,200 L/min while drilling in sliding/steering mode. The GN-3 unit was positioned at the side of the 40 m3 rectangular cutting tank and with 100% of the flow and a dry discharge, the cuttings were stacked in a small area and potentially overflowing the cutting tank. Most of the time the cuttings were manipulated to the sides to keep the shaker running, but at night the third-party cuttings-moving equipment was not available so flow was occasionally switched to the rig shakers to spread the cuttings across the length of the tank.
6-in. section: The 7-in. liner was successfully cemented and BOP pressure-tested. The section was started with the GN-3 unit rigged up. During the drilling out of the cement the mud was weighted up to 1.55 SG. Once the Mud Desilter weight reached 1.55 SG an FIT was performed and drilling continued. The section was terminated early due to well-control problems requiring increasing mud weights, and finally requiring a liner to seal off a high pressure zone. The mud system was VCM., a VERSACLEAN LTOBM system. From the beginning of the 6-in. section, the GN-3 unit was able to process the total flow rate. The flow ranged from 500 L/min up to 900 L/min. The GN-3 unit was positioned at the side of the 40 m3 rectangular cuttings tank with 100% of the flow and a dry discharge; the cuttings were stacked in a small area and potentially overflowing the cutting tank. Most of the time the cuttings were manipulated to the sides to keep the shaker running, but at night the third party cuttings-moving equipment was not available so flow was occasionally switched to the rig shakers to spread the cuttings across the length of the tank.
4 in. section: After the successful running and cementation of 5 x 5 in. liner at a depth of 3,511 m (11,519 ft) the well was displaced to VCM mud with a weight of 1.0 SG. Following a positive flow check and leak off test, drilling ahead was permitted. Drilling ROP was recorded from 1 to 20 m/hr. One bit trip was required and a fresh bit finished the well rapidly at a TD of 3,705 m (12,155 ft). The scalping deck was dressed with 38 XL screens and the middle and bottom decks with 230 HC screens.
The GN-3 unit was able to process the total flow rate. The flow stayed at 500 L/min for the duration with rotary drilling mode as there was no MWD tool in the hole.
The GN-3 Shaker handled approximately 95% of the total fluid flow over the duration of the well. Primary objectives of the test were met or exceeded, including:

No major QHSE concerns under normal rig operations
Flowrate handling capacity was measured at up to 3,400 L/min in the 12?-in. section with 38/84 mesh screens. Capacity was 2,300 L/min in the 8?-in. section with 38/230 to270 screens.
A qualitative assessment of the solid handling and conveyance capacity showed excellent throughput characteristics Shaker screen life was measured and compared with historical benchmarks. The coarser meshes had screen(http://en.wikipedia.org/wiki/Screen) life extending to 120 hr operating, and the finer meshes showed life spans of up to 120 hr in some cases.

GN Solids America(USA) is a company provide Solids Control equipment such as Shale Shaker Screen, Mud Desilter, if you need more information please contact us.