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Common pump model code LG ----- high-rise building to the water pump DL ------ multi-stage vertical water pump BX ------- fire fixed dedicated pump ISG ------ single-stage vertical Pipeline pump IS ------- single-stage horizontal water pump DA1 ------- multi-stage horizontal water pump QJ ------- Submersible pump Model Meaning: 40LG12-15 40 - Import and export diameter (mm) LG-high-rise building feed pump (high speed) 12- flow (m3 / h) 15- single-stage head (M) 200QJ20-108 / 8 200 --- said frame number 200 QJ --- Submersible pump 20 - Flow 20m3 / h 108 --- Head 108M 8 --- Series 8 The basic structure of the pump: motor, coupling, pump head (body) and the base (horizontal). The main parameters of the pump are: flow, with Q said that the unit is M3 / H, L / S. Head, said H, the unit is M. For clean water pumps, the necessary NPSH (M) parameters are important, especially for suction type water supply equipment. Submersible pumps, rated current parameter (A) is very important, especially when used in frequency conversion water supply equipment. Motor's main parameters: motor power (KW), speed (r / min), rated voltage (V), rated current (A). Coupling pump head (body _) Horizontal frame pump knowledge quiz What is the flow? What alphabet is used? How many units of measurement? How to convert? How to convert into weight and formula? A: The volume of liquid discharged by the pump per unit time is called the flow rate, and the flow rate is expressed by Q. The unit of measurement is: m3 / h, l / s, L / s = 3.6 m3 / h = m3 / min = 60L / min G = QÏG is the weight Ï is the liquid specific gravity Example: a pump flow 50 m3 / h, when pumping the hourly weight? The specific gravity of water Ï is 1000 kg / m3. Solution: G = Qp = 50 × 1000 (m3 / h • kg / m3) = 50000kg / h = 50t / h What is the head? What alphabet is used? What unit of measurement? And pressure conversion and formula? A: The weight per unit weight of liquid obtained by the pump is called lift. Pump head including the suction stroke, approximately pump outlet and inlet pressure difference. Head with H said, in meters (m). The pressure of the pump is expressed by P in units of Mpa (MPa), H = P / Ï, H = 1kg / cm2 / 1000kg / m3 if P is 1kg / (1000 kg / m 3) = (10000 kg / m 2) / 1000 kg / m 3 = 10 m 1Mpa = 10 kg / cm 2 H = (P2-P1) / Ï (P2 = outlet pressure P1 = inlet pressure) effectiveness? What is the formula? A: The ratio of pump effective power to shaft power. η = Pe / P Pump power usually refers to the input power, that is, the prime mover to the shaft power, it is also known as shaft power, with P said. Effective power is: pump head and mass flow and acceleration of the product of gravity. Pe: Ïg QH (W) or Pe = γQH / 1000 (KW) Ï: Density of the liquid pumped by the pump (kg / m3) γ: Gravimetric pumped liquid of the liquid γ = Ïg (N / s) Mass flow Qm = ÏQ (t / h or kg / s) What is the rated flow, rated speed, rated head? A: According to the pump performance parameters set pump performance design, and to achieve the best performance, as the pump rated performance parameters, usually refers to the product catalog or sample the specified parameter values. Such as: 50-125 flow rate of 12.5 m3 / h for the rated flow, head lift 20m rated head speed of 2900 rev / min is the rated speed. What is the NPSH? What is suction stroke? The respective units of measure that letters? A: The pump at work at the impeller inlet at a certain vacuum pressure will produce vapors, vaporized bubbles in the impact of the liquid particle impact on the impeller and other metal surface erosion, and thus destroy the impeller and other metals, this time the vacuum Pressure is called vaporization pressure, NPSH refers to the pump intake at the unit weight of liquid excess energy than the vaporization pressure. Units marked with meters, with (NPSH) r. Suction stroke is required NPSH Δh: That is, the degree of vacuum that the pump allows liquid to be sucked in, that is, the allowable installation height of the pump, in meters. Stroke = standard atmospheric pressure (10.33 meters) - NPSH - safe amount (0.5 meters) Standard atmospheric pressure can depress the pipeline vacuum height of 10.33 meters. For example: a pump required NPSH is 4.0 meters, suction Δh? Solution: Δh = 10.33-4.0-0.5 = 5.83 meters What is the pump characteristic curve? Including several aspects? What is the role? A: The curve representing the relationship between the main performance parameters is usually referred to as the performance curve or characteristic curve of the centrifugal pump. In essence, the performance curve of the centrifugal pump is an external manifestation of the movement of the liquid in the pump and is obtained by the actual measurement. The characteristic curves include: QH, Q-Q, QN, Q- (NPSH) r, and the performance curve is Pump any point of flow, can be found in the curve of a group of its head, power, efficiency and NPSH value, this group of parameters is called the working state, referred to as working conditions or conditions point, the centrifugal pump The most efficient point of the condition known as the best condition point, the best condition point is generally the design condition point. General centrifugal pump rated parameters that the design conditions point and the best conditions coincide or very close. Operating in the practice of selecting efficiency range, that is, energy conservation, but also to ensure the normal pump work, so understand the performance parameters of the pump is very important. What is the pump's full performance test bench? A: The equipment capable of accurately testing the full performance parameters of a pump with precision instruments is the full-performance test bench. National standards for the B-level accuracy. The flow rate is measured with a precision worm gear flowmeter and the head is measured with a precision pressure gauge. Suction with a precision vacuum gauge measurement. Power measured with a precision shaft power machine. Speed ​​with tachometer. Efficiency according to the measured value: n = rQ102 calculation.
lithium batteries are a class of batteries made of lithium metal or lithium alloy as positive/negative electrode materials and using a non-aqueous electrolyte solution. lithium batteries can be broadly divided into two categories: lithium metal batteries and lithium ion batteries.
Lithium metal batteries: These batteries contain lithium in the metallic state and are usually non-rechargeable. Due to the very active chemical properties of lithium metal, its processing, preservation and use have very high environmental requirements.
Lithium-ion batteries: These batteries do not contain lithium in the metallic state and can be recharged. Lithium-ion batteries mainly rely on the movement of lithium ions between the positive and negative electrodes to work, and when charging, lithium ions are removed from the positive electrode and embedded into the negative electrode through the electrolyte; The opposite is true for electrical discharge. Lithium-ion batteries have a voltage range of 2.8V to 4.2V, typical voltage is 3.7V, lower than 2.8V or higher than 4.2V will cause damage to the battery risk.
The invention of the lithium battery can be traced back to 1912, by Gilbert N. Lewis proposed and studied lithium metal batteries. Lithium-ion batteries, on the other hand, were started in the 1970s by M. S. Whittingham. With the development of science and technology, lithium battery has become the mainstream, especially in portable electronic equipment widely used.