Application of New Frequency Converter in Refining and Chemical Plant

1 Overview In industrial enterprises, the motor is one of the most widely used and the largest number of electrical equipment. Currently, a large number of AC motors are working at a fixed speed, which has more and more can not meet the production process for automation requirements. At the same time, its operation in low power factor and low efficiency conditions, the power is a huge waste. Due to the increasingly fierce market competition in the petrochemical industry, new requirements have been put forward on the type, quality and quantity of petrochemical products in our factory. In order to meet the requirements of these processes, the original drive motor, increase the inverter system. This can not only smoothly change the amount of material delivered to meet the requirements of the production process, but also achieved the effect of energy saving. In our factory often line, often used in the second inverter system, both the power source is to change the process parameters of the implementing agencies, it replaces the original implementing agencies - control valve, making media transmission process control has undergone changes. 2 energy-saving operation of variable speed drive In the actual production process, the load of various types of pumps are greater than the actual choice of production flow, and in actual operation, the required flow is often much smaller than the design flow, if The motor used can not speed control, usually only by regulating the valve to control the flow, the result in the valve will cause great energy loss. If you do not valve regulation, but let the motor speed operation, then, when the required flow decreases, the motor speed decreases, the energy consumed will be significantly reduced. H (n1) and H (n2) are the curves of Q = f (H) when speed regulation, and R1 and R2 show the pipeline resistance curve when valve is adjusted. Valve control, due to reduce the flow, turn off the valve, so that the valve friction becomes larger, Q2 → Q1, A → B, HA → HB power control valve P1 by 0HBBQ1 said. When the speed control, Q2 → Q1, A → C, HA → HC speed control power consumption P2 by 0HCCQ1 said that if P1> P2 means that when the speed control power consumption is less than the power consumption when the valve throttle. P = rQH Pump shaft power Q Flow H Head r Liquid heavy PB-PC = Q1 (HB-HC) r when operating at points B and C. This is the amount of energy saved. For the pump load, there is the following expression: Q1 / Q2 = n1 / n2 H1 / H2 = (n1 / n2) 2 P1 / p2 = (n1 / n2) 3 It can be seen from the above formula that when the speed drops by 1/2, Down 1/2, the pressure dropped 1/4, the power down 1/8, that power and speed into the third power relations decline. If you do not close the valve, but the motor speed down, then with the pump output pressure decreases, the same flow in the case of transmission, the original consumption of the valve on the power can be completely avoided. Not installed in the inverter, the pump outlet flow control by the outlet valve regulation. Small flow, by closing the valve control, increased pump pressure, so that some of the energy consumed in the export valve. Using the inverter, you can reduce the pump speed, the pump head is also reduced accordingly, the motor output power is also reduced, thus eliminating the original consumption in the pump outlet valve on the pipe pressure. 3 Inverter system control scheme I plant the Changbian pump B109 and Chang II pump B114 motor power were 75kW and 55kW, speed 2982 rev / min, rated voltage 380V, rated current of 132A and 103A respectively, the rated outlet flow Respectively 28.520M3 / h and 20M3 / h. Under normal working load, the motor is working at the rated speed of 2982rpm, the speed can not be adjusted. In order to keep the flow stable, the method of controlling the outlet valve is used to control, that is, the differential pressure transmitter detects the flow signal to the PID regulator, and then the PID regulator outputs the 4-20mA control signal to control the opening of the outlet regulating valve Control outlet flow and keep the flow stable. The actual operation of the original system, there are the following problems: (1) large throttling, the throttle valve outlet pump is close to half the rated flow, waste a lot of electricity. (2) low control accuracy, large fluctuations in outlet flow (about 3%). (3) motor work at rated speed, output power consumption. (4) motor noise, pump and pipeline valve pressure, can easily lead to leakage. According to the above system requirements of the system, we designed the inverter system to follow the following principles: a, to maintain a stable outlet flow; b, outlet flow control accuracy of 0.5%; c, the motor speed range should be 0 ~ 2982 rpm / Min; d, according to the working characteristics of the pump, the system design should be based on the principle of constant torque; e, energy saving; f, system design using frequency and dual frequency switch to ensure the continuity of production and reliability, G, the use of two DCS output contacts, all the way to control the original control valve, all the way to control the inverter, the inverter fault status, DCS can automatically identify the frequency of the fault signal, and then switch to the control valve to regulate the flow. When the inverter is in normal operation, the control valve is in the fully open position. Following the above principle, after the research and comparison, we have chosen the Toshiba A5P inverter. The inverter has advanced technology, complete functions, compact structure, high reliability, designed for pump and fan load design. FRH: Frequency setting; ACC / DEC: Acceleration / deceleration control circuit; A / D: A / D conversion; V / F: Vfb conversion; BD: Base drive circuit; CPU: Microprocessor; LED: Display circuit The main circuit of the inverter is a typical "AC-DC-AC" SPWM voltage type main circuit. Frequency converter control circuit: Frequency given FRH (ie speed given) through the ACC and DED acceleration and deceleration control circuit into a frequency and voltage reference signal, respectively, through the A / D converter circuit and the V / F function generator circuit, and then Into the CPU, the formation of SPWM pulse, IGBT control signals to drive the IGBT, so that the voltage is constant, the frequency of constant AC, after the inverter, into a voltage and frequency adjustable AC. A5P inverter control system using the entire computer sampling, calculation, real-time control, accident alarm and display. 4 Inverter system operation In 1997 July, I plant in the usual line pump and often two pump motor installed Toshiba A5P inverter, the operating conditions and frequency comparison, as follows: (1) the motor operating parameters and Comparison of Energy Conservation Power Saving Power = ((39.16 × 0.82 × 380) - (16.3 × 0.9 × 168) × 1.73 = 16846 (W) Power Saving Rate = ((39.16 × 0.82 × 380) - (16.3 × 0.9 × 158) )) / (39.16 × 0.82 × 380) = 79% Power saving = (44.6 × 0.8 × 380) - (20 × 0.9 × 121) × 1.73 = 19688 (W) Power saving rate = (44.6 × 0.8 × 380) - (20 × 0.9 × 121)) / (44.6 × 0.8 × 380) = 83% As can be seen from the comparison table, the use of frequency converter can meet the production needs, but also a lot of energy. (2) Comparison of control accuracy In the same process conditions, the use of frequency and frequency operation, draw the pump outlet flow fluctuation curve. Pump frequency control, the flow control accuracy is very high, the recorder recorded curve is a very smooth record line. 5 Application Effect and Economic Benefit Analysis Since the inverter was put into operation, it has reliable operation, high degree of automation, remarkable energy-saving effect and good economic benefits. (1) Steady process control: Due to the high-precision adjustment of the inverter, the high-speed transmission of the regulating signal reduces the hysteresis caused by the previous instrument control, so that the system control accuracy is improved, the pressure is stable, and the product quality is improved. (2) Significant energy saving effect: Year-by-year calculation of 8,000 hours, pump 114/1 Energy Savings: Power Savings Rate × Motor Power Frequency × Working Hours = 79% × 21.11 kW × 8000 hours = 133415 kWh Pumps 109/2 years Power Savings: Power Savings × Motor Power Frequency × Working Hours = 83% × 23.45 kW × 8000 hours = 155,708 kWh Total Savings for Pump 114/1 and Pump 109/2: Power Savings × Price = 289123 × 0.50 = 144561 Yuan inverter transformation costs 150,000 yuan, so just one year or so, you can recover the investment. (3) reduce the amount of maintenance: As the outlet valve is fully open, the motor running at reduced speed, making the pipe pressure drops, reducing the leakage of process equipment, reducing machine wear and tear, reducing the motor temperature rise, equipment maintenance cycle extension. Because the frequency changer replaces the control valve, has solved the high control valve breakdown to produce the influence, causes the measuring appliance maintenance quantity to reduce. (4) The system has realized the soft start: Because the frequency changer has the soft starting function, reduced the impact to the electric wire netting. 6 Inverter applications should pay attention to the problem (1) with the inverter must meet the requirements of the process, in a particular environment, the old device of the pump due to head, flow restrictions, the inverter may not be applicable, and not Variable working conditions of the pump should not be used. Can not be stereotyped copy, but from the process conditions, the parameters of the pump itself may be. (2) Inverter speed regulation, the need for electrical, instrumentation, technology, equipment and various professionals in close cooperation in order to ensure the safe operation of the inverter. Engineering and technical personnel in the installation of investment before the relevant professionals to be trained. (3) most of the production equipment, instrumentation valves are mostly used off valve. After using the inverter, the wind is changed to open the wind regulation, you need to pay attention to avoid accidents.

Stabilizer

It can slow down the reaction, maintain chemical balance, reduce surface tension, prevent light, thermal decomposition or oxidative decomposition. it mainly includes lead salts, metal soaps, organic tin, organic antimony, organic rare earths, pure organic compounds. Thermal stabilizers commonly used in industry mainly include lead salts, metal soaps, organic tin, organic antimony, organic rare earths, pure organic compounds, etc.

1.1 Organotin
(1) Excellent transparency The biggest advantage of organotin stabilizers is that they have excellent transparency. The use of organotin stabilizers in PVC formulations can produce crystalline products. Because of this, organic tin can be used in bottles, containers, corrugated boards, various types of rigid packaging containers, hoses, profiles, films, etc.
(2) Extraordinary thermal stability In terms of thermal stability, there is no other type of thermal stabilizer that can surpass it. Therefore, it is the preferred stabilizer for rigid PVC, and some varieties have better performance in soft products. Suitable for all PVC homopolymers, such as emulsion, suspension and bulk PVC, as well as vinyl chloride copolymers, graft polymers and polymer blends.
(3) The product is non-toxic. Most organotin stabilizers are non-toxic, and the migration of organotin stabilizers in rigid PVC is minimal. Therefore, organotin stabilizers are the preferred heat stabilizers for PVC for food contact.
(4) Good compatibility. Organotin stabilizers have good compatibility with PVC, so there is generally no precipitation on the metal surface, such as lead salt stabilizers and metal soap stabilizer systems.
(5) Poor lubricity Sulfur-containing tin stabilizers have poor self-lubricity. Therefore, many commercially available sulfur-containing organotins are equipped with lubricants to prevent hot melt from adhering to processing equipment during processing.
(6) High cost Compared with other types of stabilizers, the overall performance of organotin stabilizers is closer to the ideal stabilizer. However, all organotin stabilizers, regardless of their structure, have the main disadvantage that their manufacturing cost is much higher than that of lead stabilizers or metal soap compounds. In recent years, by adopting new synthetic technology, or reducing its usage in formulas, its formula cost has been reduced. In the 1970s, foreign countries developed low-priced tin products, which reduced the tin content, which also reduced the price to a certain extent.
1.2 Lead salt
(1) l Excellent stability experiments proved that among the commonly used basic lead salts, the heat resistance of sulfite is better than that of sulfate, and the heat resistance of sulfate is better than that of phosphite. The tribasic lead sulfate, which is widely used in the PVC industry, has a higher effective lead content and shows better thermal stability than other products.
(2) Excellent insulation. Because lead salt is non-ionic and non-conductive, it is inert, which makes lead salt stabilizers widely used in wire and cable industries.
(3) Excellent weather resistance. Many salt compounds can act as white pigments and can show strong covering power, so they have strong weather resistance.
(4) Poor transparency Transparency is a problem related to weather resistance. When used in wires, cables and record materials, there is no need to care about transparency, because most of these products are white or very dark black.
(5) Inexpensive lead salt stabilizer is the lowest price among all stabilizers. Therefore, despite the continuous introduction of new stabilizers, lead salt stabilizers still dominate the stabilizer market after half a century. The composite lead salt introduced to solve the dust and dispersion problem has increased in price, but still maintains a competitive advantage with other types of stabilizers.
(6) The toxicity of the toxic lead salt stabilizer limits its application in many occasions with strict hygiene requirements. For example, many countries have revised the lead content standards in drinking water, and it is no longer possible to use lead salt in PVC water pipes.
(7) Poor dispersibility The dispersibility of salt lead is poor, but the newly launched one-package product is equipped with lubricants, which solves the dispersibility problem to a certain extent. Because of the above characteristics of lead salt stabilizers, they are especially suitable for high-temperature processing. They are widely used in various opaque hard and soft products and cable materials, such as various pipes, plates, indoor and outdoor profiles, foam plastics, artificial leather, and wires. Cables, records, welding rods, etc. The most important lead salt stabilizers are tribasic lead sulfate, dibasic lead phosphite, and dibasic lead stearate.
1.3 Organic antimony
(1) Better stability. The organic antimony stabilizer has basically the same color stability and lower melt viscosity as organotin at the same temperature. In the twin-screw extrusion process, the effect is particularly outstanding when used in combination with calcium stearate. .
(2) The price of organic antimony stabilizer is much lower than that of methyl tin or butyl tin. In addition, the amount of organic antimony used is relatively low, so the use of organic antimony can achieve a better performance/price balance.
(3) The product is non-toxic. In the United States, when a twin-screw extruder is used to manufacture PVC pipes, the PVC water supply pipe manufactured with a formula composed of antimony stabilizers, calcium stearate and other lubricants conforms to the U.S. NSF (National Sanitation Foundation) )Regulation.
(4) Poor transparency and light stability. The transparency of organic antimony compounds is not as good as organotin stabilizers, and it is also lower than the barium/fu and calcium/zinc metal soap system. It is close to lead salts and has poor light stability, so antimony is stable. The agent is mostly used for indoor products without color requirements. The antimony stabilizer itself is also required to be stored in an opaque container.
(5) Poor lubricity. Antimony stabilizers have poor lubricity. Therefore, its use must be combined with a large amount of lubricant without exception.
1.4 Metal soap
(1) The tin soap stabilizer Fu soap is the best type of metal soap. Its advantages are also reflected in the absence of initial coloring, and can produce colorless and transparent products; excellent light stability; it has the effect of preventing precipitation and adhesion. . However, because tin salt is toxic, there are strict regulations on its manufacture and use in the Labor Safety and Health Law. In recent years, the use of Fuzao has shown a downward trend.
(2) Zinc soap stabilizerThe thermal stability of zinc-based stabilizer to PVC is extremely poor. The sample with zinc soap suddenly turns black when heated, that is, the so-called "Zine burning" phenomenon occurs, but it has the following advantages: The initial coloring is excellent; the effect of preventing fouling is good; it can improve the weather resistance; many zinc soaps are recognized as non-toxic stabilizers, so they can be used in non-toxic formulations with calcium soaps.
(3) Barium soap stabilizer Barium compounds have good thermal stability and good lubricity, but the red initial coloration occurs during processing, and it is easy to cause sticking to the roller.
(4) The stability of calcium soap stabilizer is poor, but it is recognized as a non-toxic additive in the world and has excellent lubricity.
(5) Other metal soap stabilizers used in the industry include magnesium stearate, file stearate, aluminum stearate, potassium stearate, etc., among which magnesium stearate is similar to calcium stearate and can be used Materials that are in contact with food; aluminum stearate is similar to zinc stearate, and is approved by the U.S. FDA and the Japanese Vinyl Chloride Food Hygiene Association for food packaging; Stearic Acid files and potassium stearate are also non-toxic products and belong to lead salts , Tin soap and barium soap substitute.
(6) The performance requirements of the composite metal soap stabilizer processing industry for stabilizers are various, and a single metal soap often cannot meet the use requirements, so the use of composite stabilizers has become a trend. A single metal soap compound is rarely used in the PVC industry, and it is usually a compound of several metal soaps. This compound is not a simple addition of properties, but takes advantage of the synergy between the components. The composite metal soap stabilizer generally includes the stabilizer main body (i.e. metal soap), solvent (organic solvent, plasticizer, liquid non-metal stabilizer, etc.), functional additives (auxiliary stabilizer, transparency modifier, light stabilizer, Lubricants, etc.). According to the form, it is divided into solid compound and liquid compound. According to the main component, it can be divided into calcium/zinc compound stabilizer, barium/fu compound stabilizer, barium/zinc compound stabilizer, etc. Among them, the calcium/zinc composite stabilizer has a pivotal role in replacing toxic metals because it is non-toxic.
1.5 Rare earth stabilizer
(1) Excellent thermal stability The thermal stability of rare earth stabilizers is better than traditional lead salt series and barium/zinc, barium/ho/zinc stabilizers. In some applications, rare earth stabilizers can partially or completely replace organotin.
(2) Good transparency. The refractive index of rare earth stabilizers is very close to that of PVC Resin, which can replace traditional organotin and be used in the field of products with higher transparency requirements.
(3) Excellent weather resistance. Rare earth elements can absorb 230-320nm ultraviolet light. Therefore, rare earth stabilizers have anti-photoaging effects and are suitable for outdoor products such as PVC corrugated boards and window materials.
(4) Excellent electrical insulation properties. Some rare earth multifunctional stabilizers can be used to replace lead salt stabilizers in cable material formulations, and their electrical insulation properties are comparable to lead salts.
(5) Non-toxic, safe and hygienic. Rare earth elements are low-toxic elements and have no toxic hazards to the human body in their production, processing, transportation and storage. Rare earth stabilizers are non-toxic products and can be used in food packaging and medical packaging products.
(6) The processing performance is slightly worse. In the case of a large amount of rare earth stabilizer, the roll release of the material is not ideal, and there is a tendency to press out. Generally, better results can be achieved by using stearic acid or calcium stearate in combination.
In summary, rare earth stabilizers can be used for water pipes, injection pipe fittings, window frame profiles, door panels, wire ducts, foam products, artificial leather, cable materials, soft and hard transparent products, food packaging materials, etc.
1.6 Auxiliary stabilizers Auxiliary stabilizers include phosphite, epoxy soybean oil, hindered phenols, etc., which mainly rely on the synergistic effect between metal stabilizers to improve the stabilizing effect, and are generally called co-stabilizers. In addition to compounds such as mesaminocrotonic acid ester, 2-phenyl saccharin, vein derivatives, and diketone can be used in combination with metal stabilizers to improve the effect of metal stabilizers, they also have a certain stabilizing effect. Such compounds are usually called pure organic stabilizers. With the development of PVC stabilizers today, the progress of metal stabilizers is relatively slow, and the research and development of auxiliary stabilizers are unprecedentedly active, which has constituted a major trend in the field of PvC stabilizers. Auxiliary stabilizers are rarely used alone, and are often used in conjunction with primary stabilizers to improve initial coloration or improve long-term stability.

Lead Salt Stabilizer, Compound Stabilizer,Pvc Stabilizer,Titanium Dioxide Anatase

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