Китай Rto регенеративен термичен окислител с добро качество

Основна информация.

Модел NO.

Невероятен RTO

Тип

Инсинератор

Висока ефективност

100

Икономия на енергия

100

Ниска поддръжка

100

Лесна работа

100

Търговска марка

Бямазинг

Транспортен пакет

Зад граница

Спецификация

111

Произход

Китай

Код по ХС

2221111

Описание на продукта

RTO

Регенеративен термичен окислител

В сравнение с традиционното каталитично изгаряне; директен термичен окислител; RTO има предимствата на висока ефективност на отопление; ниски експлоатационни разходи; и способността за третиране на голям поток отпадъчни газове с ниска концентрация.; Когато концентрацията на ЛОС е висока,; може да се реализира вторично рециклиране на топлина; което значително ще намали оперативните разходи.; Тъй като RTO може предварително да загрява отпадъчния газ по нива чрез керамичен акумулатор на топлина; което може да накара отпадъчния газ да бъде напълно нагрят и напукан без мъртъв ъгъл (ефективност на третиране>99%);,;които намаляват NOX в отработения газ,; ако плътността на VOC >1500mg/Nm3,; когато отпадъчният газ достигне зоната на напукване; нагрят е до температура на напукване от топлинен акумулатор; при това условие горелката ще бъде затворена.;

RTO може да бъде разделен на камерен тип и ротационен тип според различния режим на работа.; Ротационен тип RTO има предимства в системното налягане; температурна стабилност,; сума на инвестицията; и т.н

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Адрес: 8 етаж, E1, сграда Pinwei, път Dishengxi, Yizhuang, ZheJiang, Китай

Тип бизнес: производител/фабрика, търговска компания

Бизнес диапазон: Електротехника и електроника, Индустриално оборудване и компоненти, Машини за производство и обработка, Металургия, Минерали и енергия

Сертифициране на системата за управление: ISO 9001, ISO 14001

Основни продукти: Rto, линия за цветно покритие, линия за поцинковане, въздушен нож, резервни части за производствена линия, машина за нанасяне на покритие, независимо оборудване, ролка за мивки, проект за обновяване, вентилатор

Представяне на компанията: ZheJiang Amazing Science & Technology Co., Ltd е процъфтяваща високотехнологична компания, разположена в зоната за икономическо и технологично развитие на ZheJiang (BDA). Придържайки се към концепцията за реалистични, иновативни, фокусирани и ефективни, нашата компания обслужва главно обработката на отпадъчни газове (ЛОС) промишлеността и металургичното оборудване на Китай и дори на целия свят. Разполагаме с напреднали технологии и богат опит в проекта за третиране на отпадъчни газове с летливи органични съединения, чието позоваване е успешно приложено в индустрията за покрития, каучук, електроника, печат и т.н. Също така имаме години натрупване на технологии в изследването и производството на плоски линия за обработка на стомана и притежава близо 100 примера за приложение.

Нашата компания се фокусира върху проучването, проектирането, производството, инсталирането и пускането в експлоатация на система за третиране на органични отпадъчни газове с ЛОС и проект за обновяване и актуализиране на енергоспестяване и опазване на околната среда на линия за обработка на плоска стомана. Ние можем да предоставим на клиентите цялостни решения за опазване на околната среда, енергоспестяване, подобряване на качеството на продуктите и други аспекти.

Ние също така се занимаваме с различни резервни части и независимо оборудване за линия за цветно покритие, линия за поцинковане, линия за ецване, като валяк, съединител, топлообменник, рекуператор, въздушен нож, вентилатор, заварчик, изравнител на опън, кожен проход, разширителна фуга, срязване, фуги , шевна машина, горелка, лъчиста тръба, редуктор, редуктор и др.

Can a regenerative thermal oxidizer be retrofitted into an existing facility?

Yes, regenerative thermal oxidizers (RTOs) can be retrofitted into existing facilities under certain conditions. Retrofitting an RTO involves integrating the system into the existing infrastructure and process flow of the facility to control emissions from industrial processes. However, the feasibility of retrofitting an RTO depends on several factors related to the facility and the specific requirements of the application.

Here are some considerations for retrofitting an RTO into an existing facility:

• Space Availability: RTOs typically require a significant amount of physical space for installation. It’s important to assess whether the facility has adequate space to accommodate the size and layout requirements of the RTO system. This includes considering the space needed for the RTO unit itself, associated ductwork, auxiliary systems, and access for maintenance.
• Process Integration: Retrofitting an RTO involves integrating the system into the existing industrial process. This integration may require modifications to the process flow, such as rerouting ductwork, adding or modifying exhaust points, or coordinating with existing pollution control equipment. The compatibility of the RTO with the existing process and the ability to seamlessly integrate the system should be evaluated.
• Auxiliary Systems: In addition to the RTO unit, auxiliary systems may be required for effective operation and compliance. These systems can include pre-treatment equipment such as scrubbers or filters, heat recovery units, monitoring and control systems, and stack emissions monitoring equipment. The availability of space and compatibility with existing infrastructure should be considered for accommodating these auxiliary systems.
• Utility Requirements: RTOs have specific utility requirements, such as the need for natural gas or electricity for heating the combustion chamber and operating the control system. The availability and capacity of utilities at the existing facility should be assessed to ensure they can meet the demands of the RTO system.
• Structural Considerations: The structural integrity of the facility should be evaluated to determine if it can support the additional weight of the RTO and associated equipment. This assessment may involve consulting with structural engineers and considering any necessary reinforcements or modifications.
• Regulatory Compliance: Retrofitting an RTO may require obtaining permits and complying with environmental regulations. It is essential to assess the applicable regulations and ensure that the retrofit meets the necessary compliance requirements for emissions control.

It is important to consult with experienced engineering firms or RTO manufacturers who can assess the specific requirements and constraints of the facility. They can provide detailed evaluations, feasibility studies, and design recommendations for retrofitting an RTO into an existing facility. Their expertise can help ensure that the retrofit is successful, cost-effective, and compliant with environmental regulations.

What are the typical construction materials used in regenerative thermal oxidizers?

Regenerative thermal oxidizers (RTOs) are constructed using various materials that can withstand the high temperatures, corrosive environments, and mechanical stresses encountered during operation. The choice of materials depends on factors such as the specific design, process conditions, and the types of pollutants being treated. Here are some typical construction materials used in RTOs:

• Heat Exchangers: The heat exchangers in RTOs are responsible for transferring heat from the outgoing exhaust gas to the incoming process air or gas stream. The construction materials for heat exchangers often include:
• Ceramic Media: RTOs commonly use structured ceramic media, such as ceramic monoliths or ceramic saddles. These materials have excellent thermal properties, high resistance to thermal shock, and good chemical resistance. Ceramic media provide a large surface area for efficient heat transfer.
• Metallic Media: Some RTO designs may incorporate metallic heat exchangers made from alloys such as stainless steel or other heat-resistant metals. Metallic media offer robustness and durability, particularly in applications with high mechanical stresses or corrosive environments.
• Combustion Chamber: The combustion chamber of an RTO is where the oxidation of pollutants takes place. The construction materials for the combustion chamber should be able to withstand the high temperatures and corrosive conditions. Commonly used materials include:
• Refractory Lining: RTOs often have refractory lining in the combustion chamber to provide thermal insulation and protection. Refractory materials, such as high-alumina or silicon carbide, are chosen for their high-temperature resistance and chemical stability.
• Steel or Alloys: The structural components of the combustion chamber, such as the walls, roof, and floor, are typically made of steel or heat-resistant alloys. These materials offer strength and stability while withstanding the high temperatures and corrosive gases.
• Ductwork and Piping: The ductwork and piping in an RTO transport the exhaust gas, process air, and auxiliary gases. The materials used for ductwork and piping depend on the specific requirements, but commonly used materials include:
• Mild Steel: Mild steel is often used for ductwork and piping in less corrosive environments. It provides strength and cost-effectiveness.
• Stainless Steel: In applications where corrosion resistance is crucial, stainless steel, such as 304 or 316 grades, may be used. Stainless steel offers excellent resistance to many corrosive gases and environments.
• Corrosion-Resistant Alloys: In highly corrosive environments, corrosion-resistant alloys like Hastelloy or Inconel may be employed. These materials provide exceptional resistance to a wide range of corrosive chemicals and gases.
• Insulation: Insulation materials are used to minimize heat loss from the RTO and ensure energy efficiency. Common insulation materials include:
• Ceramic Fiber: Ceramic fiber insulation offers excellent thermal resistance and low thermal conductivity. It is often used in RTOs to reduce heat loss and improve overall energy efficiency.
• Mineral Wool: Mineral wool insulation provides good thermal insulation and sound absorption properties. It is commonly used in RTOs to reduce heat loss and enhance safety.

It is important to note that the specific materials used in RTO construction may vary depending on factors such as the process requirements, temperature range, and corrosive nature of the gases being treated. Manufacturers of RTOs typically select appropriate materials based on their expertise and the specific application.

How efficient are regenerative thermal oxidizers in destroying volatile organic compounds (VOCs)?

Regenerative thermal oxidizers (RTOs) are highly efficient in destroying volatile organic compounds (VOCs) emitted from industrial processes. Here are the reasons why RTOs are considered efficient in VOC destruction:

1. High Destruction Efficiency: RTOs are known for their high destruction efficiency, typically exceeding 99%. They effectively oxidize VOCs present in the industrial exhaust streams, converting them into less harmful byproducts, such as carbon dioxide and water vapor. This high destruction efficiency ensures that the majority of VOCs are eliminated, resulting in cleaner emissions and compliance with environmental regulations.

2. Residence Time: RTOs provide a sufficiently long residence time for the combustion of VOCs. In the RTO chamber, the VOC-laden air is directed through a ceramic media bed, which acts as a heat sink. The VOCs are heated to the combustion temperature and react with the available oxygen, leading to their destruction. The design of RTOs ensures that the VOCs have ample time to undergo complete combustion before being released into the atmosphere.

3. Temperature Control: RTOs maintain the combustion temperature within a specific range to optimize VOC destruction. The operating temperature is carefully controlled based on factors such as the type of VOCs, their concentration, and the specific requirements of the industrial process. By controlling the temperature, RTOs ensure that the VOCs are efficiently oxidized, maximizing destruction efficiency while minimizing the formation of harmful byproducts, such as nitrogen oxides (NOx).

4. Heat Recovery: RTOs incorporate a regenerative heat recovery system, which enhances their overall energy efficiency. The system captures and preheats the incoming process air by utilizing the heat energy from the outgoing exhaust stream. This heat recovery mechanism minimizes the amount of external fuel required to sustain the combustion temperature, resulting in energy savings and cost-effectiveness. The heat recovery also helps maintain the high destruction efficiency of VOCs by providing a consistent and optimized operating temperature.

5. Catalyst Integration: In some cases, RTOs can be equipped with catalyst beds to further enhance VOC destruction efficiency. Catalysts can accelerate the oxidation process and lower the required operating temperature, improving the overall efficiency of VOC destruction. Catalyst integration is particularly beneficial for processes with lower VOC concentrations or when specific VOCs require lower temperatures for effective oxidation.

6. Compliance with Regulations: The high destruction efficiency of RTOs ensures compliance with environmental regulations governing VOC emissions. Many industrial sectors are subject to stringent air quality standards and emission limits. RTOs provide an effective solution for meeting these requirements by reliably and efficiently destroying VOCs, reducing their impact on air quality and public health.

In summary, regenerative thermal oxidizers (RTOs) are highly efficient in destroying volatile organic compounds (VOCs). Their high destruction efficiency, residence time, temperature control, heat recovery capabilities, optional catalyst integration, and compliance with regulations make RTOs a preferred choice for industries seeking effective and sustainable solutions for VOC abatement.

editor by Dream 2024-05-06