Syringe pumps ensure highly accurate volume delivery and consistent flow for small volumes (≤60 mL) of potent pharmacologic agents that are typically delivered at flow settings between 0.5 and 10 mL/hr. Syringe infusion pumps are used to administer intravenous (IV) fluids such as antibiotics, regional anaesthetics, antiarrhythmic medications, and chemotherapeutic agents.
....Aquarium with Filter and Air Pump
....The Water Pumps Assembly Testing Bench teaching unit is a modular group designed to perform complete functional tests on a series of 4 water pumps. Each pump is taken into consideration individually and with it the following characteristic data can be obtained:
Suction pressure
Power consumption
Delivery pressure
Speed
Flow rate
Oil Volumetric Pump Study Bench Teaching Aid Equipment Heat
....This auxiliary pump is intended to be used inconjunction with the basic Hydraulics Bench. This accessory comprises a variable speed pumpassembly and independent discharge manifold interconnected by flexible tubingwith quick release connectors. The pump speed is varied by an inverter drive. An independent discharge manifold incorporates apressure gauge and flow control valve prior to a discharge pipe with diffuser. A compound pressure gauge is mounted on the pump inlet and a pressuregauge is mounted on the pump outlet. Themotor speed, output voltage and motor current can be monitored on the inverterdisplay. The auxiliary pump is mounted on a support plinthdesigned to be positioned on the floor besides the hydraulics bench, adjustable feet allowing levelling.
....The Multiple Pump Learning System presents practical skills such as installing and operating series and parallel pumps with theoretical knowledge like measuring and graphing flow/pressure characteristics and calculating pump efficiency. Multiple Pump Learning System adds onto the by including an additional centrifugal pump and electric motor, which allows learners to study the functions and real world applications of series and parallel pumps.
The Multiple Pump Learning System includes an industrial-grade, close-mount centrifugal pump/ electric motor and a piping network. Turbines are used for high flow, low pressure transfer of fluids from one point to another, especially for applications where contamination is a concern, and air-operated diaphragm pumps are used to transfer fluids that are too viscous, corrosive, abrasive, or hot for other types of pumps. Once the Multiple Pump Learning System is completed, learners can continue to increase their knowledge of pump systems by advancing to the Turbine Pump Learning System and Diaphragm Pump Learning System. By supplying real-world components, proves why its the worlds leader in skills-based, interactive technical learning by allowing learners to practice on mechanisms theyd normally only find on the job, which develops both experience and confidence.
Features:
Industrial Quality Centrifugal Pump
Load Valve for performance measurement
Flexible Piping Network
C-Face Mount and Mechanical Seal.
In general, infusion pumps are used when the solution to be administered must be delivered with greater accuracy than can be provided through a manually adjusted gravity administration set. Infusion pumps are used to accurately deliver liquids through intravenous (IV) or epidural routes for therapeutic and/or diagnostic purposes. They are used in hospitals, in alternative care settings (e.g., homes, long-term care facilities, physicians' offices, outpatient infusion centres), and, occasionally, in emergency medical service vehicles. Volumetric single channel infusion pump, AC and battery powered including accessories.
....Electronic Injector Pump
....Lever Operated pump mounted on cover of drum.
Comes complete with 2-2 meter 0 high pressure hose fitted with accessories.
Working pressure up to 4000 PSI.
Pump has steel constructed cast head and solid steel pump chamber.
Quick & easy openable cover
Removable handle.
The Air-to-Water Heat Pump Operation Training Bench Unit is designed to allow students to gain both practical and theoretical knowledge of the operation of heat pumps.
The Air-to-Water Heat Pump Operation Training Bench Unit has been designed and manufactured to incorporate all current safety standards.
The refrigerant used complies with anti-pollution legislation.
An Air-to-Water Heat Pump Operation Training Bench for studying the use of heat pumps to transfer heat from one source at a certain temperature to another source at a higher temperature.
Experiments:
Plant start-up and system monitoring using the protection and safety devices incorporated into the training bench
Studying the operation of a heat pump.
Analysing system behaviour and reactions with the variation of:
Plotting the refrigeration cycle on a p-h diagram
Air flow rate at the evaporator
Water temperature in the tank
Thermostatic valve superheat.
Obtaining data readings and calculation of:
Ideal and actual coefficient of performance (C.O.P.)
Volumetric compression efficiency
Heat balances for the evaporator, condenser and compressor
Refrigerant mass flow.
Special explanatory technical plates show each sectioned component explaining its operation with notes, drawings and technical data. The Set Of Sectioned Components For Liquid Pumping includes some of the most important components, used in water works, for fluid pumping, that is pumps of different types. The use of contrasting colours according to a pre-established code simplifies the informative process as well as the learning one. In sectionizing each component the best care has been taken to evidence all the interesting constructive detailed features.
....The Rotary Pumps is superior to any other with features such as Dual Directional Operation which allows the pump to both empty, as well as refill containers Pump body is study cast iron with precisely machined cast iron vanes for better draw & smoother delivery Pump seals are made from Hi Nitrile rubber fits 15 gallons (50 litres) to 55 gallons (205 liter) bung nut & steel discharge spout. Most popularly used pump worldwide.
....The Magnetic Pump Learning System curriculum explains the function, operation, installation, disassembly, inspection, and maintenance of a magnetic pump. The Magnetic Pump Learning System covers the magnetic pump, which uses a magnetic coupling to prevent direct contact between the motor drive shaft and the pump impeller. Additional topics include: how to properly align the magnetic coupling; how to troubleshoot problems; how to select the correct magnetic pump for an application; how to determine a pumps flow/pressure characteristics; and how each component of the pump factors into the overall operation. This feature eliminates any possibility of leakage or seepage and makes the magnetic pump an ideal selection for pumping hazardous chemicals that could harm the environment or for expensive liquids where it is important to reduce loss.
The Magnetic Pump Learning System includes a polypropylene housed, c-face mounted magnetic pump with a centrifugal impeller, a piping network, a magnetic coupling, and a relief valve. In fact, all of the included components are industrial-grade and will allow learners to gain immediate hands-on experience and practice that can apply to real-world mechanisms. The polypropylene housing is chemically resistant, which allows the magnetic pump to move fluids such as acids, alkalis, plating solutions, sterile solutions, and brine for applications in hospitals, chemical laboratories, and wineries. This commitment to providing learns with top-flight equipment is one reason why is the worlds leader in skills-based, interactive technical learning.
Features:
Magnetic Coupling Design
Mounting Compatible with Workstation
Industrial Quality Magnetic Pump.
Drop Forged from Selected Carbon Steel.
Ribbed Handle for Slip Free Griping.
Induction Hardened Jaws.
Available in Powder Coated and Dip Insulation Sleeve also.
The unit is supplied with manuals which describe all parts of the trainer, the installation and utilisation procedures, as well as many exercises with the relative results. The self-sufficient unit is composed of a reversible type reaction hydraulic machine. A dynamometric brake motor dynamometer allows to determine all the relevant characteristics of the machine. By reversing the flow, the machine can operate both as an axial pump and as a Kaplan turbine.
The Reversible Flow Axial Pump Kaplan Turbine Study Unit is available in two versions:
Computerized version unit
Basic unit in manual version.
Induction Hardened Jaws.
Ribbed Handle for Slip Free Griping.
Drop Forged from Selected Carbon Steel.
Available in With or Without Dip Sleeve.
Peristaltic Pump Learning System versatile pump keeps fluid uncontaminated as it moves through the system by utilizing a tubing system that prevents direct contact with the pumps working parts. The Peristaltic Pump Learning System also discusses peristaltic pump components, how to reduce pulsation, how to calculate and adjust the flow rate, and how to select proper tube sizes. The Peristaltic Pump Learning System covers the function, operation, and maintenance of peristaltic pumps, which are used in a variety of applications within the chemical, food, pharmaceutical, and biotechnological industries. As an example, peristaltic pumps are used to filter and circulate blood throughout the body during heart surgery.
The Peristaltic Pump Learning System industrial-grade components are the same as those used in the field, so learners will gain experience and practice on actual, real-world mechanisms. The Peristaltic Pump Learning System features a foot-mounted peristaltic pump with polycarbonate housing and steel pump head, a maintenance key tool, and a piping network. Once completed, learners can proceed to additional pumps like the Piston Pump and the Gear Pump. Gear pumps transfer fluids under pressure and are used in hydraulic systems, pressure washing, and liquid recirculation. Piston pumps are used in water, soap, and detergent applications to produce high pressure fluid flow.
Features:
Industrial Quality Peristaltic Pump
Quick Connect Piping Connections
Mounting Compatible with Workstation.
Lobe pumps are used for delivering highly viscous and highly abrasive media. In a lobe pump two non-contact pistons rotate in two cylindrical chambers. In contrast to rotodynamic pumps, a positive displacement pump moves the medium by means of closed conveying chambers. With each revolution, they deliver the same volume.
Learning Objectives And Experiments:
Power requirement, hydraulic power, pump efficiency
Recording of pump characteristics, system characteristics, operating point.