Customized Supplier for Seawater Flakt Ice Machine for Armenia Factories
Seawater Flakt Ice Machine Application fields Sea water flake ice machine are widely used in the ocean fish, sea food preservation, sea water making ice directly. The more and more user give up the traditional ice cream brick cooling way, but choose the more convenient and quick, more economic sea water flake ice machine. Design, Technology, Material Sea water flake ice machine, manufactured with 316L stainless steel, corrosion-resistant Material. Special treatment surface, installed directly...
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Seawater Flakt Ice Machine for Armenia Factories, We welcome new and old customers from all walks of life to contact us for future business relationships and mutual success.
Seawater Flakt Ice Machine
Sea water flake ice machine are widely used in the ocean fish, sea food preservation, sea water making ice directly. The more and more user give up the traditional ice cream brick cooling way, but choose the more convenient and quick, more economic sea water flake ice machine.
Design, Technology, Material
Sea water flake ice machine, manufactured with 316L stainless steel, corrosion-resistant
Material. Special treatment surface, installed directly on the ship, the vibrating angel up to 35 degree. Use sea water to make flake ice, and the ice fall down to the cabin directly. Due to the machine works continuously, the load of vessels can be reduced dramatically, also, fuel costs can be largely saved.
This serial product are applicable for sea water
Refrigerants system: Fluorine system/Ammonia system
Thickness of flake ice: 1.5~2.2mm
Applicable working condition: Ambient temp: 0~550C, water temp: -2~450C
Standard working condition: Ambient temp: 250C, water temp: 180C, evaporating temp: -200C
Power supply: Standard power: 380V-3P-50HZ, also can do according to customer special requirement as like 3 phase 60HZ, 200/220V, 400V, 440V
Construction details in the description of the movie:
small generator homemade lighting a 230 V led bulb 7 W, E27, using two rotating neodynyum spheres – one inside the coil
WARNING: HIGH VOLTAGE! This video is only for entertainment purposes. If you rely on the information portrayed in this video, you assume the responsibility for the results.
a sciencecetoolbar approach for homemade generators.
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In 1774, Priestley repeated Scheele’s experiments using a 12-inch-wide glass “burning lens”, he focused sunlight on a lump of reddish mercuric oxide in an inverted glass container. The gas emitted, he found, was “five or six times as good as common air.” (1) In succeeding tests, it caused a flame to burn intensely and kept a mouse alive about four times as long as a similar quantity of air.
sometimes you can discover things more important then the researched one.
Any change in the magnetic environment of a coil of wire will cause a voltage (emf) to be “induced” in the coil. No matter how the change is produced, the voltage will be generated. The change could be produced by changing the magnetic field strength, moving a magnet toward or away from the coil, moving the coil into or out of the magnetic fieeld. – Farady’s Law
small generator homemade
“Generator – normally this term is used to describe an alternator which creates AC power using electromagnetism.
In the most basic sense a generator/dynamo is one magnet rotating while inside the influence of another magnet’s magnetic field. You cannot see a magnetic field, but it is often illustrated using lines of flux. In the illustration above lines of magnetic flux would follow the lines created by the iron filings.
The generator/dynamo is made up of stationary magnets (stator) which create a powerful magnetic field, and a rotating magnet (rotor) which distorts and cuts through the magnetic lines of flux of the stator. When the rotor cuts through lines of magnetic flux it makes electricity.
The generator differs from the dynamo in that it produces AC power. Electrons flow in in both directions in AC power. It wasn’t until the 1890s that engineers had figured out how to design powerful motors, transformers and other devices which could use AC power in a way that could compete with DC power.
While the alternator uses commutators, the generator uses a slip ring with brushes to tap the power off of the rotor. Attached to the slip ring are graphite or carbon “brushes” which are spring loaded to push the brush onto the ring. This keeps power consistently flowing. Brushes get worn down over time and need to be replaced.
Since the time of Gramme in the 1860s it was figured out that the best way to build a dynamo/generator was to arrange magnetic coils around a wide circle, with a wide spinning armature
Due to Faraday’s Law of Induction if you take a wire and move it back and forth in a magnetic field, the field pushes on electrons in the metal. Copper has 27 electrons, the last two in the orbit are easily pushed on to the next atom. This movement of electrons is electrical flow.
The magnets are usually not made of natural magnetite or a permanent magnet (unless it is a small generator), but they are copper or aluminum wire coiled around an iron core. Each coil must be energized with some power to make it into a magnet. This coil around iron is called a solenoid. Solenoids are used instead of natural magnetite because the solenoid is MUCH more powerful. A small solenoid can create a very strong magnetic field.
Dynamo is an older term used to describe a generator that makes direct current power. DC power sends electrons in only one direction. The problem with a simple generator is that when the rotor rotates it eventually turns completely around, reversing the current. Early inventors didn’t know what to do with this alternating current, alternating current is more complex to control and design motors and lights for. Early inventors had to figure a way to only capture the positive energy of the generator, so they invented a commutator. The commutator is a switch that allows current to only flow in one direction.”
Aluminium extrusion cooling quenching system
1. To meet the requirements of different alloy in cooling and ensure high mechanical property.
2. To avoid deformation and ensure the dimensional precision.
3. High productivity and high efficiency.
4. Energy saving and low production cost.
5. Easy operation and smooth running.
6. Easy maintenance and long life design.
Guangdong Save Aluminium Equipment Co, Ltd is specialized in R&D for the aluminium extrusion technology and related machinery. We are the first professional quenching system manufacturer for aluminium extrusion line in china.
We own a huge contingent of technicians with an overall 30% engineer team who dedicated to ensure our technical strength, including extrusion techniques, automatic control, mechanical design and manufacture, hydraulic technology and engineering thermodynamics.
Machinery service at home and overseas is available. Once equipment is installed, we adjust it, train your personnel to operate it, and get it into service quickly. After installation, we follow up to make sure equipment is performing at peak efficiency and that you are completely satisfied.
An authorized third party is entrusted to monitor and inspect our production line.
Order replacement parts any day of the week, any time with out 24-hour parts hotline, more than 80% of component replacement parts are available for delivery the next day or sooner. If equipment goes down, help is available immediately with SAVE’s HMI support. Service is free during standard business hours, with additional assistance available 24/7. We’ll run diagnostics on your system via HMI and walk you through any repairs.
Guangdong Save Aluminium Equipment Co, Ltd.
Add: Muyuan Industrial Park, Shishan Town, Nanhai District, Foshan, Guangdong province, China