mud pump 3 hp free sample

2023-05-21 21:22:12

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Explore a wide variety of 3hp mud pump on Alibaba.com and enjoy exquisite deals. The machines help maintain drilling mud circulation throughout the project. There are many models and brands available, each with outstanding value. These 3hp mud pump are efficient, durable, and completely waterproof. They are designed to lift water and mud with efficiency without using much energy or taking a lot of space.

The primary advantage of these 3hp mud pump is that they can raise water from greater depths. With the fast-changing technology, purchase machines that come with the best technology for optimum results. They should be well adapted to the overall configuration of the installation to perform various operations. Hence, quality products are needed for more efficiency and enjoyment of the machines" full life expectancy.

Alibaba.com offers a wide selection of products with innovative features. The products are designed for a wide range of flow rates that differ by brand. They provide cost-effective options catering to different consumer needs. When choosing the right 3hp mud pump for the drilling project, consider factors such as size, shape, and machine cost. More powerful tools are needed when dealing with large projects such as agriculture or irrigation.

Alibaba.com provides a wide range of 3hp mud pump to suit different tastes and budgets. The site has a large assortment of products from major suppliers on the market. The products are made of durable materials to avoid corrosion and premature wear during operations. The range of products and brands on the site assures quality and good value for money.

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The DAE Pumps Submersible Slurry Pumps are designed for an extensive range of applications. With their robust designs, submersible slurry pumps move slurry, sand, and other material with ease. Heavy-duty submersible slurry pumps from DAE Pumps are capable of pumping solids up to2112 GPM with as much as 102 HP. DAE Pumps submersible slurry pumps are available in a wide range of models in 3-inch, 4-inch, 6-inch, and 8-inch sizes.

Our non-clogging submersible slurry pumps are the toughest in the industry and have the largest apertures to facilitate the handling of slurry with the most challenging solids. The high-efficiency high chrome agitator lifts up to 2.5-inch settled solids. The robust design uses heavy-duty bearings to withstand shocks and overloads and a double silicon carbide mechanical seal for duty application.

DAE Pumps robust submersible slurry pumps are made to perform. The unique sealing system and modular design make them the most flexible pumps on the market. Easy to use and maintain, these pumps provide the optimum maintenance solution and can be easily fitted at the job site. These heavy-duty submersible slurry pumps offer a motor protection system with a built-in starter and optional automatic level control. The hardened high-chrome impellers and adjustable wear-resistant rubber diffuser feature ensure durability in the toughest environments.

At DAE Pumps, we have a complete range of high-quality submersible slurry pumps made for dewatering and dredging the most abrasive media, like sand, with high solid content in quarries and mining operations. The user-friendly design and easy-to-use submersible sand and slurry pumps are why they are the preferred choice for submersible pumps.

Submersible slurry pumps and submersible sand pumps offer the highest in quality and strength over other submersible pumps. They are capable of moving large amounts of sand and slurry with ease and without clogging. DAE Pumps submersible sand and slurry pumps withstand the abrasive material that passes through them on a consistent basis and provide the power to move the material. The following is to help understand pump specifications for selecting the right submersible slurry pump or sand pump for you. A DAE Pumps representative is also available.

The size of the submersible pump is important when connecting the discharge end. The hose or pipe that connects to the pump should match the discharge or the pump. If fitting an adjustment to the end of the submersible slurry pump, the fitting can only work when goes downward in size, not upward. Typically, the pump size limits the gallons per minute a submersible slurry pump is capable of pumping. The larger the pump size, the more allowable volume, and solids sizes.

The power of the electrical submersible slurry pump is determined by the motor size in horsepower. The more horsepower, the more material it can move (volume), and the higher the head of which it can pump. When moving sand and slurry, it is important to take horsepower into consideration. As sand and slurries can be heavy, this causes friction that slows down the movement of the material. If there is too much friction and the submersible sand pump is not powerful enough to push the sand or slurry, the material will start to settle in the hose or piping, and not deliver to the final destination.

When selecting a submersible slurry or sand pump be sure to understand the volume of the material you are looking to move. Submersible pump specifications are typically based on pumping water. When pumping sand, slurry, and other solids, DAE Pumps industrial slurry pumps move between 15% to 30% solids. Therefore, the remaining 70% to 85% is water. While a 100 GPM sand pump can process about 15% material, thus 15 GPM of sand, a 100 GPM slurry pump can process about 30% material, thus 30 GPM of slurry. This all varies depending on how aggressive the operator is with the pump. Ensuring the correct power of a sand pump is essential for delivering sand the distance needed because sand is heavy and settles. Not enough power will leave sand in the hose and backup. Knowing the liquid viscosity is important for ensuring proper pumping. Ask DAE Pumps for assistance with a viscosity test to ensure accurate pump selection.

In addition to the amount of material you pump, you want to make sure there is a consistent inflow of water or fluid replacing liquid and material that is being pumped out for the proper operation. Lack of fluid is never good for submersible pumps.

Here are a couple of equations and examples to help figure out how much material a submersible slurry pump can move and approximately how long it will take to move your material.

The head is the height at which the pump can raise water. The weight of a gallon of water at room temperature is 8.33 lbs. If all that is being pumped is room temperature water, the height a submersible slurry pump could pump that water is the max head stated on the pump specifications. However, submersible slurry pumps and submersible sand pumps are pumping more than just room-temperature water. They are pumping sand, silt, rocks, mud, debris, and other types of slurries. These slurries have a different weight that is more than the weight of water. Thus, the head of a pump that is pumping slurries and sand is going to be less than the stated head on a pump.

The size of solids is that can pass through a submersible slurry pump are typically determined by the allowable area between the pump’s impeller and the volute. Submersible pumps are designed with more or less separation for the type of material they are intended to handle. Those with more separation are submersible slurry pumps because they can process larger materials. The submersible pump with less separation is a drainage pump that does not move many solids.

Your dewatering needs are our top priority. Our electrical submersible pumps support all your dewatering application needs for drainage, slurry, and sludge. Visit our dewatering applications section to learn more about various types of dewatering needs.

The non-clogging Miramar Submersible Slurry Pumps are the toughest and have the largest apertures to facilitate the handling of slurry with the most challenging solids. The high-efficiency high chrome agitator lifts settled solids up to 2.5-inches. The robust design uses heavy-duty bearings to withstand shocks and overloads and a double silicon carbide mechanical seal for duty application. The Miramar Slurry Pumps offer 3-inch, 4-inch, and 6-inch models, with the ability to move up to 2112 GPM.

DAE Pumps Miramar L430 Submersible Slurry Pumps are built to move abrasive materials with solids up to 0.8-inches. With a 3-inch discharge, these slurry pumps process material at 247 GPM up to 47-feet via a 5 HP motor. This 60Hz pump is available in 460V.

The Miramar L430 is made of aluminum alloy for high corrosion resistance and the high-chrome (55HRC) impellers provide great wear resistance. The wide base is designed for stability while standing in thick material.

The low-cost DAE Pumps Tampa 337 provides ideal suction and movement of solids up to 1-inch through a 3-inch discharge. The ergonomic Tampa 337 submersible slurry pumps transfer solids and liquids at a flow rate of up to 343 GPM and with 5 HP. Read More…

DAE Pumps Tampa 355 provides reliable suction and movement of solids up to 1-inch through a 3-inch discharge. The ergonomic Tampa 355 submersible slurry pumps transfer solids and liquids at a flow rate of up to 449 GPM and with 5 HP. Read More…

The durable and efficient DAE Pumps Tampa 437 provides improved suction and movement of solids up to 1-inch through a 4-inch discharge. The ergonomic Tampa 437 submersible slurry pumps transfer solids and liquids at a flow rate of up to 476 GPM and with 5 HP. Read More…

3The Lansing 340 submersible slurry pump is solid and easy to move slurry, water, or any other material. DAE Pumps’ heavy-duty, submersible slurry pumps can handle up to 2112 GPM solids. They also have a maximum power output of 102 horsepower. DAE Pumps Submersible Drainage Pumps are available in many sizes, including3-inch,4-inch,6-inch, and8-inch.

The Lansing 340 submersible slurry pump has a 4kW or 5.5HP, and it is non-clogging and can handle the most challenging solids. The high-efficiency, high chrome agitator, is capable of lifting 2.5-inch solids. For duty use, the sturdy design incorporates heavy-duty bearings for shocks and overloads.

The rugged DAE Pumps Miramar L540 Submersible Slurry Pumps process abrasive materials with solids up to 1-inch. These durable slurry pumps with 4-inch discharge move material at 308 GPM up to 57-feet via a 7 HP motor. This 60Hz pump is available in 460V.

DAE Pumps Tampa 455 provides greater suction and movement of solids up to 1-inch through a 4-inch discharge. The ergonomic Tampa 455 submersible slurry pumps transfer solids and liquids at a flow rate of up to 594 GPM and with 7.5 HP. Read More…

4The Lansing 460 submersible slurry pump is solid and easy to move slurry, water, or any other material. DAE Pumps’ heavy-duty, submersible slurry pumps can handle up to 2112 GPM solids. They also have a maximum power output of 102 horsepower. DAE Pumps Submersible Drainage Pumps are available in many sizes, including3-inch,4-inch,6-inch, and8-inch.

The Lansing 60 submersible slurry pump has a 6kW or 8HP, and it is non-clogging and can handle the most challenging solids. The high-efficiency, high chrome agitator, is capable of lifting 2.5-inch solids. For duty use, the sturdy design incorporates heavy-duty bearings for shocks and overloads.

The reliable DAE Pumps Tampa 475 provides increased suction and movement of solids up to 1-inch through a 4-inch discharge. The ergonomic Tampa 475 submersible slurry pumps transfer solids and liquids at a flow rate of up to 655 GPM and with 10 HP. Read More…

Offering the same high-quality, the DAE Pumps Miramar L640 Submersible Slurry Pumps move abrasive materials with solids up to 1-inch. With a 4-inch discharge, these heavy-duty slurry pumps process material at 440 GPM up to 75-feet via a 12 HP motor. This 60Hz pump is available in 460V.

The heavy-duty DAE Pumps Miramar L740 Submersible Slurry Pumps transfer abrasive materials with solids up to 1-inch. With a 4-inch discharge, the Miramar L740 slurry pumps move material at 616 GPM up to 85-feet via a 15 HP motor. This 60Hz pump is available in 460V.

The efficient DAE Pumps Tampa 4110 provides enhanced suction and movement of solids up to 1-inch through a 4-inch discharge. The ergonomic Tampa 4110 submersible slurry pumps transfer solids and liquids at a flow rate of up to 819 GPM and with 15 HP. Read More…

DAE Pumps Miramar L840 Submersible Slurry Pumps move abrasive materials with solids up to 1-inch. With a 4-inch discharge, these reliable slurry pumps process material at 660 GPM up to 98-feet via a 20 HP motor. This 60Hz pump is available in 460V.

DAE Pumps Galveston 3304 pumps with a combined strainer with a partially open stand and agitator allows for ideal suction and movement of solids up to 1.5-inches with a 4-inch discharge. The Galveston 3304 submersible slurry pumps transfer solids and liquids at a flow rate of up to 792 GPM and with 30 HP. Read More…

The high power 4-inch DAE Pumps Miramar L940 Submersible Slurry Pumps move abrasive materials with solids up to 1.5-inches. These 4-inch discharge submersible slurry pumps move liquids and solids at 880 GPM up to 171-feet via a 50 HP motor. This 60Hz pump is available in 460V.

The DAE Pumps Tampa 6110 provides high suction and movement of solids up to 1.4-inches through a 6-inch discharge. The ergonomic Tampa 6110 submersible slurry pumps transfer solids and liquids at a flow rate of up to 977 GPM and with 15 HP. Read More…

The Lansing 690 submersible slurry pump is solid and easy to move slurry, water, or any other material. DAE Pumps’ heavy-duty, submersible slurry pumps can handle up to 2112 GPM solids. They also have a maximum power output of 102 horsepower. DAE Pumps Submersible Drainage Pumps are available in many sizes, including3-inch,4-inch,6-inch, and8-inch.

The Lansing 690 submersible slurry pump has a 9kW or 12HP, and it is non-clogging and can handle the most challenging solids. The high-efficiency, high chrome agitator, is capable of lifting 2.5-inch solids. For duty use, the sturdy design incorporates heavy-duty bearings for shocks and overloads.

DAE Pumps Tampa 6150 provides enhanced suction and movement of solids up to 1.4-inches through a 6-inch discharge. The ergonomic Tampa 6150 submersible slurry pumps transfer solids and liquids at a flow rate of up to 1136 GPM and with 20 HP. Read More…

The highly efficient DAE Pumps Tampa 6150-L provides even greater suction and movement of solids up to 1.4-inches through a 6-inch discharge. The ergonomic Tampa 6150-L submersible slurry pumps transfer solids and liquids at a flow rate of up to 1453 GPM and with 20 HP. Read More…

DAE Pumps Tampa 6220 provides ideal suction and movement of solids up to 1.2-inches through a 6-inch discharge. The ergonomic Tampa 6220 submersible slurry pumps transfer solids and liquids at a flow rate of up to 1268 GPM and with 30 HP. Read More…

DAE Pumps Galveston 3306 pumps with a combined strainer with a partially open stand and agitator allows for ideal suction and movement of solids up to 2.5-inches with a 6-inch discharge. The Galveston 3306 submersible slurry pumps transfer solids and liquids at a flow rate of up to 1848 GPM and with 30 HP. Read More…

DAE Pumps Galveston 3506 pumps with a combined strainer with a partially open stand and agitator allows for ideal suction and movement of solids up to 1.5-inches with a 6-inch discharge. The Galveston 3506 submersible slurry pumps transfer solids and liquids at a flow rate of up to 2112 GPM and with 50 HP. Read More…

DAE Pumps Galveston 3506-H pumps with a combined strainer with a partially open stand and agitator allows for ideal suction and movement of solids up to 1.5-inches with a 6-inch discharge. The Galveston 3506-H submersible slurry pumps transfer solids and liquids at a flow rate of up to 1848 GPM and with 50 HP. Read More…

DAE Pumps Miramar L1060 Submersible Slurry Pumps are built to move abrasive materials with solids up to 2.5-inches. With a 6-inch discharge, these slurry pumps process material at 1320 GPM up to 108-feet via a 60 HP motor. This 60Hz pump is available in 460V.

DAE Pumps Galveston 3756 pumps with a combined strainer with a partially open stand and agitator allows for ideal suction and movement of solids up to 1.5-inches with a 6-inch discharge. The Galveston 3756 submersible slurry pumps transfer solids and liquids at a flow rate of up to 2112 GPM and with 75 HP. Read More…

DAE Pumps Miramar L1160 Submersible Slurry Pumps offer the ultimate performance in slurry pumping. This top-of-the-line pump easily handles the most abrasive materials with solids up to 2.5-inches. This heavy-duty slurry pump with a 6-inch discharge transfers material at 2112 GPM up to 174-feet via a 101 HP motor. This 60Hz pump is available in 460V.

The Lansing 8150 submersible slurry pump is solid and easy to move slurry, water, or any other material. DAE Pumps’ heavy-duty, submersible slurry pumps can handle up to 2112 GPM solids. They also have a maximum power output of 102 horsepower. DAE Pumps Submersible Drainage Pumps are available in many sizes, including3-inch,4-inch,6-inch, and8-inch.

The Lansing 8150 submersible slurry pump has a 15kW or 20HP, and it is non-clogging and can handle the most challenging solids. The high-efficiency, high chrome agitator, is capable of lifting 2.5-inch solids. For duty use, the sturdy design incorporates heavy-duty bearings for shocks and overloads.

The reliable DAE Pumps Tampa 8220 provides the highest suction and movement of solids up to 1.4-inches through an 8-inch discharge. The ergonomic Tampa 8220 submersible slurry pumps transfer solids and liquids at a flow rate of up to 1664 GPM and with 30 HP. Read More…

DAE Pumps Galveston 3508 pumps with a combined strainer with a partially open stand and agitator allows for ideal suction and movement of solids up to 2.5-inches with an 8-inch discharge. The Galveston 3508 submersible slurry pumps transfer solids and liquids at a flow rate of up to 2112 GPM and with 50 HP. Read More…

DAE Pumps Galveston 3758 pumps with a combined strainer with a partially open stand and agitator allows for ideal suction and movement of solids up to 2.5-inches with an 8-inch discharge. The Galveston 3758 submersible slurry pumps transfer solids and liquids at a flow rate of up to 2112 GPM and with 75 HP. Read More…

The Lansing 8220 submersible slurry pump is solid and easy to move slurry, water, or any other material. DAE Pumps’ heavy-duty, submersible slurry pumps can handle up to 2112 GPM solids. They also have a maximum power output of 102 horsepower. DAE Pumps Submersible Drainage Pumps are available in many sizes, including3-inch,4-inch,6-inch, and8-inch.

The Lansing 8220 submersible slurry pump has a 22kW or 30HP, and it is non-clogging and can handle the most challenging solids. The high-efficiency, high chrome agitator, is capable of lifting 2.5-inch solids. For duty use, the sturdy design incorporates heavy-duty bearings for shocks and overloads.

DAE Pumps Miramar Submersible Slurry Pumps are economical equivalent pumps to Atlas Copco dewatering slurry pumps. The Miramar pumps offer the same high-quality material and performance as Atlas Copco WEDA series. Contact us today to find out more about how DAE Pumps can help you with all your dewatering and material moving needs.

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DAE Pumps dredging equipment is ideal for a variety of applications, including dredging dams, ports, marinas, rivers, canals, lakes, ponds, and more. Ensuring water quality and capacity are essential in hydroelectric and water supply dams, making DAE Pumps dredge pumps perfect for removing excess sand and silt. Clearing sediment and contaminates from riverbeds, channels, canals, and oceans help restore safe navigation and shoreline formations, and dredging lakes and ponds clean and remove contaminants and tailing. As ocean currents move sediments, the seafloor slowly rises, lowering the depth of marinas and ports. Dredging ensures safe access for boats and other water vessels.

Centrifugal pumps from DAE Pumps are perfectly suited for demanding process applications. Their heavy-duty construction ensures long-lasting performance in rugged conditions. The DAE Pumps knowledge and experience building top-of-the-line pumps make our centrifugal process pumps ideal in many markets and applications.

The durable DAE Pumps centrifugal pumps provide a proven ability to handle a variety of applications in the water and wastewater industries. These reliable instruments are perfect solutions for pumping chemicals used to treat water, irrigation, fountains, and much more.

For help selecting the most efficient pump for your project, call us at (760) 821-8112 or submit a request. Find the right pump size, volume, speed that you need. Get a FREE custom pump curve to ensure the right pump.

The motor or engine on a pump is as important as the pump itself. It is the driving force that makes the pump go. DAE Pumps offer a variety of motor choices: electric, diesel, and hydraulic.

Our close-coupled electric motors reduce the stress on motor bearings with a short shaft overhang and fan-cooled. Our submersible electric motors come completely enclosed with the most trusted watertight O-ring seals. Diesel engines offer self-priming features and easy to maintain capabilities. Hydraulic motors are powered by HPU or hydraulic power units and provide the utmost in capability and performance.

Frames and skids hold the pump and motor together to make a complete unit. The frame provides stability for the placement of the pump and motor with the intent of a permanent install or seldom movement. The DAE Pumps trailer brings mobility to centrifugal slurry pumps. The whole unit, skid included, is mounted onto a trailer for mobile accessibility. Many industries use centrifugal pumps for performing multiple applications, and they move from one location to another quite frequently. The trailer provides a tremendous advantage of being on wheels.

Centrifugal pumps come in many shapes and sizes. There are two main parts to a centrifugal pump; the pump and the motor/engine. The electric motor or a diesel engine converts the energy it creates into mechanical energy. This mechanical energy drives the pump and moves the water. The centrifugal slurry pumps pull water and other materials in through the inlet and pushes it out through the outlet/discharge.

The electric motor and diesel engine work relatively similarly. A motor consists of a fan and protective casing mounted at the back. Inside the motor is the stator. The stator holds copper coils. Concentric to this is the rotor and shaft. The rotor rotates, and as it spins, so does the pump shaft. The shaft runs the entire length of the motor and into the pump where it connects to the pump’s impeller.

There are a couple of variations to a centrifugal pump. Some models of centrifugal pumps have a separate shaft for the pump and the motor. The connection between the separated shafts is called the coupling. These coupled pumps will contain a bearing house with bearings. The pump shaft then continues into the pump casing. As it enters the casing it passes through a gland, packing, and the stuffing box, which combined to form a seal. The shaft then connects to the impeller. The impeller imparts centrifugal force onto the fluid that makes it to move liquids through a pipe or hose. The impeller is in the pump casing. The casing contains and directs the flow of water as the impeller pulls it in through the suction inlet and pushes it out through the discharge outlet.

At the pump casing, there is a channel for water to flow along, which is called the volute. The volute spirals around the perimeter of the pump casing to the outlet. This channel increases in diameter as it makes its way to the outlet. The shaft passes through the seals and into the pump casing, where it connects to the impeller.

Liquid engulfs the impeller, and when it rotates, the fluid within the impeller also spins and is forced outward to the volute. As the fluid moves outwards, off of the impeller, it creates a region of low pressure that pulls more water in through the suction inlet. The fluids enter the eye of the impeller and are trapped there between the blades. As the impeller rotates, it imparts kinetic energy or velocity onto the liquid. By the time the liquid reaches the edge of the impeller, it is moving at a very high speed. This high-speed liquid flows into the volute where it hits the wall of a pump casing. This impact converts the velocity into potential energy or pressure. More fluid follows behind this developing a flow.

The thickness of the impeller and the rotational speed affects the volume flow rate of the pump and the diameter of the impeller, and the rotational speed increases the pressure it can produce.

Net Positive Suction Pressure or NPSH is associated with pump suction. At the end of this acronym are two other letters NPSHR and NPSHA. The R is the required NPSH. Each pump tests for this value. At DAE Pumps, we provide a pump operation chart with all our specs. The R-value is a warning or danger point. As the fluid enters the pump and flows into the impeller’s eye, it experiences a lot of energy due to the friction, giving a pressure drop. At certain conditions, the fluids flowing through this section can reach a boiling point. Once this happens, cavitation may occur.

The last letter in NPSHA stands for Available. The net positive suction pressure available depends on the installation of the pump and should be calculated. NPSHA takes into consideration things like insulation types, elevation, liquid temperature, liquid boiling point, much more. Available pressure should always be higher than the required value. For example, if the NPSHA is 12 for the pump requiring an NPSHR of 4 then the pump should be okay. However, a pump that required an NPSHR of 15 than the available NPSH is insufficient, and cavitation will occur.

DAE Pumps provides custom pump curves per the information you provide. Including as much information about the project allow us to best match a pump with your needs, so the centrifugal pump you get is ideal for the project.

Cavitation in pumps is the deterioration of the pump’s metal due to the overheating of water. Cavitation destroys the pump’s impeller and casing that lead to replacing parts and the pump altogether.

Water can turn from a liquid state into steam or gas and boils at around 100 degrees Celsius at sea level. However, at a higher elevation, water boils at a lower temperature because of atmospheric pressure. If this pressure is less than the vapor pressure of the liquid that is pumping, then the water can reach a boiling point. When this happens, cavitation occurs.

During cavitation, air particles within the water expand, and as they reach the boiling point, they collapse in on themselves very rapidly. As they collapse, they start to damage the impeller and pump casing. This damage removes small parts of metal from the surface, and if this keeps occurring, then it will eventually destroy the pump. Therefore, you must ensure the Available pressure is higher than the Required pressure of the pump.

DAE Pumps provides a full spectrum of centrifugal slurry pumps and accessories for completing all your tough dredging projects.We provide turnkey solutions with complete centrifugal slurry pump systems that includeslurry hoses, slurry flow meters, power units,and more.Choose from multiple sizes of slurry hoses for the transferring of materials, wireless flow meters for measuring the flow rate in gallons per minute of liquid, and power units for operation.Parts are always in stock and available for immediate shipping to anywhere in the US and the world.

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- either it is the static lift from one height to an other or the total head loss component of the system - and can be calculated like Ph(kW) = q ρ g h / (3.6 106)

The shaft power - the power required transferred from the motor to the shaft of the pump - depends on the efficiency of the pump and can be calculated as Ps(kW) = Ph(kW)/ η (3)

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Pressure PumpsLeading Wholesale Trader of mud pump bt 32.2 tssp ( 5 hp ), mud pump bt 611 tssp ( 15 hp ), mud pump bt 43.7 tssp ( 7.5 hp ), mud pump bt 700 sspf ( 1 hp ) and self priming automatic pump ( bt 50 spap / 0.5 hp ) from Pune.

Dewatering pumps are centrifugal pumps installed in a building that is situated below the groundwater level, to reduce the water level and then maintain it at this level. One example is in underground mining in which water penetrating into the adits is pumped up to the surface.

Self-priming pumps are used in various industrial and commercial facilities, from steel mills, power plants, and sewage treatment facilities to wineries, breweries, and more. Common applications include: Pumping water, fuels, clear or gray water, raw sewage, industrial wastewater, and more. Liquid transfer systems.

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Synchronization, Commissioning and Commercial Operation 5.1.1 The SPD shall give the concerned RLDC/SLDC and SECI and also Buying Entity at least sixty (60) days’ advanced preliminary written notice and at least thirty (30) days’ advanced final written notice, of the date on which it intends to synchronize the Power Project to the Grid System.

STAFF ORIENTATION 4101 The Employer shall provide an appropriate orientation program for nurses newly employed. The orientation program shall include such essential information as policies, nursing procedures, the location of supplies and equipment, fire, safety and disaster plans. Where necessary, orientation shall be provided for nurses moving to a new area of practice. 4102 The Employer shall provide a program of inservice education for nurses pertinent to patient care. 4103 The Employer shall provide, access to reference materials as is required in relation to maintaining current knowledge of general nursing care. APPENDIX "A" - SALARIES A1. Effective April 1, 2013 - Monthly salaries include a 2% general increase. - Hourly salary is calculated as (monthly salary x 12) ÷ annual hours. Nurse Classification Annual Hours Start Year 1 Year 2 Year 3 Year 4 Year 5 Year 6 20 Year 1 Licensed Practical Nurse 2015 Hourly 25.198 26.022 26.836 27.825 28.732 29.745 30.804 31.420 Monthly 4,231.164 4,369.528 4,506.212 4,672.281 4,824.582 4,994.681 5,172.505 5,275.942 Annual 50,773.970 52,434.330 54,074.540 56,067.375 57,894.980 59,936.175 62,070.060 63,311.300 Nurse II 2015 Hourly 32.917 34.066 35.218 36.419 37.593 38.811 39.587 Monthly 5,527.313 5,720.249 5,913.689 6,115.357 6,312.491 6,517.014 6,647.317 Annual 66,327.755 68,642.990 70,964.270 73,384.285 75,749.895 78,204.165 79,767.805 Nurse II (20 Year Scale) 2015 Hourly 33.575 34.747 35.923 37.148 38.345 39.587 Monthly 5,637.802 5,834.600 6,032.070 6,237.768 6,438.765 6,647.317 Annual 67,653.625 70,015.205 72,384.845 74,853.220 77,265.175 79,767.805 Nurse III 2015 Hourly 34.168 35.321 36.523 37.697 38.787 39.975 41.201 42.025 Monthly 5,737.377 5,930.985 6,132.820 6,329.955 6,512.984 6,712.469 6,918.335 7,056.698 Annual 68,848.520 71,171.815 73,593.845 75,959.455 78,155.805 80,549.625 83,020.015 84,680.375 Nurse III (20 Year Scale) 2015 Hourly 34.851 36.027 37.254 38.451 39.563 40.775 42.025 Monthly 5,852.064 6,049.534 6,255.568 6,456.564 6,643.287 6,846.802 7,056.698 Annual 70,224.765 72,594.405 75,066.810 77,478.765 79,719.445 82,161.625 84,680.375 Nurse IV 2015 Hourly 35.340 36.649 37.959 39.387 41.024 42.612 44.273 45.158 Monthly 5,934.175 6,153.978 6,373.949 6,613.734 6,888.613 7,155.265 7,434.175 7,582.781 Annual 71,210.100 73,847.735 76,487.385 79,364.805 82,663.360 85,863.180 89,210.095 90,993.370 Nurse IV (20 Year Scale) 2015 Hourly 36.047 37.382 38.718 40.175 41.844 43.464 45.158 Monthly 6,052.892 6,277.061 6,501.398 6,746.052 7,026.305 7,298.330 7,582.781 Annual 72,634.705 75,324.730 78,016.770 80,952.625 84,315.660 87,579.960 90,993.370 Nurse V 2015 Hourly 37.305 38.733 40.369 41.957 43.690 45.388 47.157 48.100 Monthly 6,264.131 6,503.916 6,778.628 7,045.280 7,336.279 7,621.402 7,918.446 8,076.792 Annual 75,169.575 78,046.995 81,343.535 84,543.355 88,035.350 91,456.820 95,021.355 96,921.500 Nurse V (20 Year Scale) 2015 Hourly 38.051 39.508 41.177 42.797 44.564 46.296 48.100 Monthly 6,389.397 6,634.052 6,914.305 7,186.330 7,483.038 7,773.870 8,076.792 Annual 76,672.765 79,608.620 82,971.655 86,235.955 89,796.460 93,286.440 96,921.500 Nurse Practitioner 2015 Hourly 42.515 45.635 47.511 49.385 51.408 52.437 Monthly 7,138.977 7,662.877 7,977.889 8,292.565 8,632.260 8,805.046 Annual 85,667.725 91,954.525 95,734.665 99,510.775 103,587.120 105,660.555 Nurse Practitioner (20 Year Scale) 2015 Hourly 43.365 46.548 48.461 50.373 52.437 Monthly 7,281.706 7,816.185 8,137.410 8,458.466 8,805.046 Annual 87,380.475 93,794.220 97,648.915 101,501.595 105,660.555 Weekend Worker Rates Annual Hours Start Year 1 Year 2 Year 3 Year 4 Year 5 Year 6 20 Year 1 Weekend Worker - Licensed Practical Nurse 2015 Hourly 28.977 29.925 30.861 31.999 33.042 34.206 35.425 36.133 Monthly 4,865.721 5,024.906 5,182.076 5,373.165 5,548.303 5,743.758 5,948.448 6,067.333 Annual 58,388.655 60,298.875 62,184.915 64,477.985 66,579.630 68,925.090 71,381.375 72,807.995 Weekend Worker - Nurse II 2015 Hourly 37.855 39.176 40.501 41.882 43.232 44.633 45.526 Monthly 6,356.485 6,578.303 6,800.793 7,032.686 7,259.373 7,494.625 7,644.574 Annual 76,277.825 78,939.640 81,609.515 84,392.230 87,112.480 89,935.495 91,734.890 Weekend Worker - Nurse II (20 Year Scale) 2015 Hourly 38.612 39.959 41.311 42.720 44.097 45.526 Monthly 6,483.598 6,709.782 6,936.805 7,173.400 7,404.621 7,644.574 Annual 77,803.180 80,517.385 83,241.665 86,080.800 88,855.455 91,734.890 Weekend Worker - Nurse III 2015 Hourly 39.293 40.619 42.002 43.352 44.605 45.971 47.381 48.329 Monthly 6,597.950 6,820.607 7,052.836 7,279.523 7,489.923 7,719.297 7,956.060 8,115.245 Annual 79,175.395 81,847.285 84,634.030 87,354.280 89,879.075 92,631.565 95,472.715 97,382.935 Weekend Worker - Nurse III (20 Year Scale) 2015 Hourly 40.079 41.431 42.842 44.219 45.497 46.891 48.329 Monthly 6,729.932 6,956.955 7,193.886 7,425.107 7,639.705 7,873.780 8,115.245 Annual 80,759.185 83,483.465 86,326.630 89,101.285 91,676.455 94,485.365 97,382.935 Weekend Worker - Nurse IV 2015 Hourly 40.641 42.146 43.653 45.295 47.177 49.003 50.914 51.932 Monthly 6,824.301 7,077.016 7,330.066 7,605.785 7,921.805 8,228.420 8,549.309 8,720.248 Annual 81,891.615 84,924.190 87,960.795 91,269.425 95,061.655 98,741.045 102,591.710 104,642.980 Weekend Worker - Nurse IV (20 Year Scale) 2015 Hourly 41.454 42.989 44.526 46.201 48.121 49.983 51.932 Monthly 6,960.818 7,218.570 7,476.658 7,757.918 8,080.318 8,392.979 8,720.248 Annual 83,529.810 86,622.835 89,719.890 93,095.015 96,963.815 100,715.745 104,642.980 Weekend Worker - Nurse V 2015 Hourly 42.900 44.543 46.425 48.251 50.244 52.196 54.230 55.315 Monthly 7,203.625 7,479.512 7,795.531 8,102.147 8,436.805 8,764.578 9,106.121 9,288.310 Annual 86,443.500 89,754.145 93,546.375 97,225.765 101,241.660 105,174.940 109,273.450 111,459.725 Weekend Worker - Nurse V (20 Year Scale) 2015 Hourly 43.758 45.434 47.353 49.216 51.249 53.240 55.315 Monthly 7,347.698 7,629.126 7,951.358 8,264.187 8,605.561 8,939.883 9,288.310 Annual 88,172.370 91,549.510 95,416.295 99,170.240 103,266.735 107,278.600 111,459.725 1 Eligibility for the 20 Year increment is determined in accordance w ith Article 2105.

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