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الصفحة الرئيسية > الأخبار > مرشح الكيس النفاث النبضي النفاث: حل فعال للتحكم في الغبار الصناعي
مرشح الكيس النفاث النبضي النفاث: حل فعال للتحكم في الغبار الصناعي

إن مرشح الكيس النفاث النبضي هو جهاز عالي الكفاءة لجمع الغبار، يتميز بكفاءة إزالة الغبار تتجاوز 99%. تلتقط هذه المعدات الجسيمات الدقيقة بفعالية، وتتحكم في تركيز الغبار في الانبعاثات إلى أقل من 10 ملغم/م³، مما يضمن هواءً نظيفًا.

 

The bag dust collector is very adaptable. It can handle airflow rates from tens of thousands to hundreds of thousands of cubic meters per hour. This pulse jet dust collector is widely used in high-pollution industries. For example, it is essential in الفولاذ, الأسمنتوالمواد الكيميائية و الطاقة التوليد. وعلاوة على ذلك، فإنه يعمل كمجمع للمواد في عمليات مثل إنتاج الأسمنت وتصنيع أسود الكربون ومعالجة الأعلاف.

مرشح الكيس النفاث النبضي النفاث

الهيكل ومبدأ العمل

The pulse bag dust collector consists of several key components:

  • Cleaning System
  • Sealed Dust Collection Chamber
  • Main Frame
  • Dust Hopper
  • Operational Electrical Control System

Function of the Dust Filter Bags

During operation, dust-laden gas flows through the dust collector filter bags. The gaps between the filter fibers trap particles larger than the gap diameter. Dust adheres to the filter surface in this process, known as screening.

Initially, new أكياس الترشيح have larger fiber gaps, resulting in poor dust collection efficiency. Over time, a thick layer of dust accumulates on the filter surface, enhancing the screening effect. After the dust collection process, some residual dust remains on the surface and inside the filter bags. This allows the filter to maintain good dust collection efficiency. Materials like needle-punched felt or plush filter cloth form a dense, porous layer. This optimizes the screening effect and does not rely solely on the dust layer.

Dust Collection Process

The cleaning of the filter bags is achieved using compressed air. The cleaning system consists of an air storage tank, a blowing pipe, and an electromagnetic pulse control valve. Each row of filter bags has a blowing pipe equipped with a nozzle aimed at the center of the filter bag. Each blowing pipe has a pulse valve connected to the compressed air tank.

During the cleaning process, the electromagnetic valve opens the pulse valve, allowing compressed air to flow through the nozzle into the filter bag. The air, along with surrounding gas, enters the filter bag, causing it to vibrate and creating a reverse airflow from inside to outside, effectively removing dust from the outer surface of the filter bag.

The pulse jet cleaning method generates the most dust removal energy. It is a typical external cleaning method that has strong cleaning capability and minimizes residual dust in the filter bag fibers. Filter bags are usually made from felt or needle-punched fabrics. The pulse jet action causes noticeable deformation of the filter bags, generating significant stress. Therefore, the filter material must have high tensile strength. Additionally, frequent friction between the filter bags and their support frame requires durable materials, such as wear-resistant or woven filter bags.

أنواع طرق التنظيف

Bag filters can be classified into three categories based on their cleaning methods:

  1. Mechanical Vibration Type
    This type has a simple structure and reliable operation, but its cleaning efficiency is low and it can easily damage filter bags. Therefore, this cleaning method is used less frequently.

  2. Reverse Jet Type
    This type can be further divided into chamber reverse jet and nozzle reverse jet.

    • Chamber Reverse Jet: This design uses a chamber structure to introduce clean air from the atmosphere or dust collection system into different bag chambers for cleaning. However, its cleaning efficiency is low, and the investment cost is high.
    • Nozzle Reverse Jet: This type uses a high-pressure fan or compressor to provide reverse airflow for cleaning through a moving nozzle. Although it has strong cleaning capability, it is complex and costly, with a high risk of damaging the filter bags.

  3. Pulse Jet Type
    This type can be classified based on the pressure of the injected air into low pressure (below 0.25 MPa), medium pressure (0.25 MPa to 0.5 MPa), and high pressure (above 0.5 MPa). It can also be divided into rotary pulse jet and inline pulse jet types.

    • Rotary Pulse Jet: This type uses a modular structure and can perform online or offline cleaning. It has fewer pulse valves and operates reliably, but its complexity requires strict installation and maintenance.
    • Inline Pulse Jet: Also known as tube jet pulse dust collectors, the blowing pipes are fixed within the collector's upper shell. Each pulse valve’s blowing pipe typically has multiple nozzles aimed at the filter bags below, allowing for efficient pulse jet cleaning. Its advantages include a simple structure, fewer moving parts, low failure rates, and reliable operation. It can flexibly design the distribution of filter bags according to process requirements, resulting in low operating costs. It also ensures sufficient cleaning pressure at the bottom of the filter bags using compressed air. Overall costs are low, and chamber-type bag dust collectors can achieve online maintenance. However, this type requires more pulse valves.

العوامل المؤثرة في الكفاءة

Several factors influence the efficiency of pulse bag filters:

  • Dust Characteristics: The size and density of particles affect filtering performance.
  • Quality of Filtering Material: The quality of the material directly impacts overall performance.
  • Airflow Velocity: Proper settings can significantly improve capture rates.
  • Design: Well-planned inlet and outlet layouts help avoid inefficiencies.
  • Cleaning Method: Effective cleaning is crucial for maintaining filter bag performance.

أهمية الصيانة

Regular inspections are essential for achieving optimal operation of pulse bag dust collectors. Maintaining the dust collection chamber, tightening screws to prevent leaks, and regularly replacing worn seals all contribute to extending the lifespan of the equipment.

نظام تجميع الغبار أحادي النبضة مصمم لترشيح الغبار بكفاءة، ويتميز بتصميمه المدمج وميزاته التشغيلية
يستخدم هذا في مصنع الأسمنت مرشح الكيس النفاث النفاث النبضي في مصنع الأسمنت، مزود بسلالم للصيانة، بعيدًا عن المروحة وقناة العادم.

لماذا تختار داركو؟

في داركونحن ملتزمون بتصنيع آلات ومعدات الأسمنت عالية الجودة. نحن نركز على توفير حلول صديقة للبيئة، بما في ذلك المرشحات النفاثة النفاثة النفاثة المتقدمة. يشمل خط إنتاجنا ما يلي صوامع الأسمنت, أنظمة التحميل بالجملةو الصماماتكلها مصممة لتعزيز الكفاءة التشغيلية والاستدامة.

الخاتمة

لا غنى عن الفلتر الكيسي النفاث النبضي في البيئات الصناعية. فهو يضمن الهواء النظيف ويحمي الصحة العامة ويحسن جودة المنتج. من خلال اختيار معدات جمع الغبار المناسبة، فإنك تساهم بشكل كبير في الإنتاج النظيف والتنمية المستدامة، إذا كانت لديك أسئلة حول مرشح الأكياس النفاثة النبضية أو لديك أسئلة حول منتجاتنا، فلا تتردد في اتصل بنا!

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مرشح الكيس النفاث النبضي النفاث: حل فعال للتحكم في الغبار الصناعي

إن مرشح الكيس النفاث النبضي هو جهاز عالي الكفاءة لجمع الغبار، يتميز بكفاءة إزالة الغبار تتجاوز 99%. تلتقط هذه المعدات الجسيمات الدقيقة بفعالية، وتتحكم في تركيز الغبار في الانبعاثات إلى أقل من 10 ملغم/م³، مما يضمن هواءً نظيفًا.

 

The bag dust collector is very adaptable. It can handle airflow rates from tens of thousands to hundreds of thousands of cubic meters per hour. This pulse jet dust collector is widely used in high-pollution industries. For example, it is essential in الفولاذ, الأسمنتوالمواد الكيميائية و الطاقة التوليد. وعلاوة على ذلك، فإنه يعمل كمجمع للمواد في عمليات مثل إنتاج الأسمنت وتصنيع أسود الكربون ومعالجة الأعلاف.

مرشح الكيس النفاث النبضي النفاث

الهيكل ومبدأ العمل

The pulse bag dust collector consists of several key components:

  • Cleaning System
  • Sealed Dust Collection Chamber
  • Main Frame
  • Dust Hopper
  • Operational Electrical Control System

Function of the Dust Filter Bags

During operation, dust-laden gas flows through the dust collector filter bags. The gaps between the filter fibers trap particles larger than the gap diameter. Dust adheres to the filter surface in this process, known as screening.

Initially, new أكياس الترشيح have larger fiber gaps, resulting in poor dust collection efficiency. Over time, a thick layer of dust accumulates on the filter surface, enhancing the screening effect. After the dust collection process, some residual dust remains on the surface and inside the filter bags. This allows the filter to maintain good dust collection efficiency. Materials like needle-punched felt or plush filter cloth form a dense, porous layer. This optimizes the screening effect and does not rely solely on the dust layer.

Dust Collection Process

The cleaning of the filter bags is achieved using compressed air. The cleaning system consists of an air storage tank, a blowing pipe, and an electromagnetic pulse control valve. Each row of filter bags has a blowing pipe equipped with a nozzle aimed at the center of the filter bag. Each blowing pipe has a pulse valve connected to the compressed air tank.

During the cleaning process, the electromagnetic valve opens the pulse valve, allowing compressed air to flow through the nozzle into the filter bag. The air, along with surrounding gas, enters the filter bag, causing it to vibrate and creating a reverse airflow from inside to outside, effectively removing dust from the outer surface of the filter bag.

The pulse jet cleaning method generates the most dust removal energy. It is a typical external cleaning method that has strong cleaning capability and minimizes residual dust in the filter bag fibers. Filter bags are usually made from felt or needle-punched fabrics. The pulse jet action causes noticeable deformation of the filter bags, generating significant stress. Therefore, the filter material must have high tensile strength. Additionally, frequent friction between the filter bags and their support frame requires durable materials, such as wear-resistant or woven filter bags.

أنواع طرق التنظيف

Bag filters can be classified into three categories based on their cleaning methods:

  1. Mechanical Vibration Type
    This type has a simple structure and reliable operation, but its cleaning efficiency is low and it can easily damage filter bags. Therefore, this cleaning method is used less frequently.

  2. Reverse Jet Type
    This type can be further divided into chamber reverse jet and nozzle reverse jet.

    • Chamber Reverse Jet: This design uses a chamber structure to introduce clean air from the atmosphere or dust collection system into different bag chambers for cleaning. However, its cleaning efficiency is low, and the investment cost is high.
    • Nozzle Reverse Jet: This type uses a high-pressure fan or compressor to provide reverse airflow for cleaning through a moving nozzle. Although it has strong cleaning capability, it is complex and costly, with a high risk of damaging the filter bags.

  3. Pulse Jet Type
    This type can be classified based on the pressure of the injected air into low pressure (below 0.25 MPa), medium pressure (0.25 MPa to 0.5 MPa), and high pressure (above 0.5 MPa). It can also be divided into rotary pulse jet and inline pulse jet types.

    • Rotary Pulse Jet: This type uses a modular structure and can perform online or offline cleaning. It has fewer pulse valves and operates reliably, but its complexity requires strict installation and maintenance.
    • Inline Pulse Jet: Also known as tube jet pulse dust collectors, the blowing pipes are fixed within the collector's upper shell. Each pulse valve’s blowing pipe typically has multiple nozzles aimed at the filter bags below, allowing for efficient pulse jet cleaning. Its advantages include a simple structure, fewer moving parts, low failure rates, and reliable operation. It can flexibly design the distribution of filter bags according to process requirements, resulting in low operating costs. It also ensures sufficient cleaning pressure at the bottom of the filter bags using compressed air. Overall costs are low, and chamber-type bag dust collectors can achieve online maintenance. However, this type requires more pulse valves.

العوامل المؤثرة في الكفاءة

Several factors influence the efficiency of pulse bag filters:

  • Dust Characteristics: The size and density of particles affect filtering performance.
  • Quality of Filtering Material: The quality of the material directly impacts overall performance.
  • Airflow Velocity: Proper settings can significantly improve capture rates.
  • Design: Well-planned inlet and outlet layouts help avoid inefficiencies.
  • Cleaning Method: Effective cleaning is crucial for maintaining filter bag performance.

أهمية الصيانة

Regular inspections are essential for achieving optimal operation of pulse bag dust collectors. Maintaining the dust collection chamber, tightening screws to prevent leaks, and regularly replacing worn seals all contribute to extending the lifespan of the equipment.

نظام تجميع الغبار أحادي النبضة مصمم لترشيح الغبار بكفاءة، ويتميز بتصميمه المدمج وميزاته التشغيلية
يستخدم هذا في مصنع الأسمنت مرشح الكيس النفاث النفاث النبضي في مصنع الأسمنت، مزود بسلالم للصيانة، بعيدًا عن المروحة وقناة العادم.

لماذا تختار داركو؟

في داركونحن ملتزمون بتصنيع آلات ومعدات الأسمنت عالية الجودة. نحن نركز على توفير حلول صديقة للبيئة، بما في ذلك المرشحات النفاثة النفاثة النفاثة المتقدمة. يشمل خط إنتاجنا ما يلي صوامع الأسمنت, أنظمة التحميل بالجملةو الصماماتكلها مصممة لتعزيز الكفاءة التشغيلية والاستدامة.

الخاتمة

لا غنى عن الفلتر الكيسي النفاث النبضي في البيئات الصناعية. فهو يضمن الهواء النظيف ويحمي الصحة العامة ويحسن جودة المنتج. من خلال اختيار معدات جمع الغبار المناسبة، فإنك تساهم بشكل كبير في الإنتاج النظيف والتنمية المستدامة، إذا كانت لديك أسئلة حول مرشح الأكياس النفاثة النبضية أو لديك أسئلة حول منتجاتنا، فلا تتردد في اتصل بنا!

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