Китай Горещи продавани Rto/Регенеративен термичен окислител

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.

What are the limitations of regenerative thermal oxidizers?

While regenerative thermal oxidizers (RTOs) are widely used for air pollution control, they do have certain limitations that should be considered. Here are some key limitations of RTOs:

• High Capital Cost: RTOs typically have higher capital costs compared to other air pollution control technologies. The complexity of the regenerative heat exchanger system, which enables high energy efficiency, can contribute to the higher upfront investment required for RTO installation.
• Space Requirements: RTOs generally require a larger footprint compared to some other air pollution control devices. The presence of regenerative heat exchangers, combustion chambers, and associated equipment necessitates adequate space for installation. This can be a limitation for industries with limited available space.
• High Energy Consumption during Startup: RTOs require a certain amount of time and energy to reach their optimal operating temperature during startup. This initial energy consumption can be relatively high, and it is important to consider this aspect when planning the operational schedule and energy management of an RTO system.
• Limitations in Handling Low Concentration VOCs: RTOs may have limitations in effectively treating low concentration volatile organic compounds (VOCs). If the VOC concentrations in the exhaust gas are too low, the energy required to maintain the necessary temperature for oxidation may be higher than the energy released during the combustion process. In such cases, other air pollution control technologies or pre-concentration techniques may be more suitable.
• Particulate Matter Control: RTOs are not specifically designed for controlling particulate matter emissions. While they may provide some incidental removal of fine particulate matter, their removal efficiency for particulates is generally lower compared to dedicated particulate control devices such as fabric filters (baghouses) or electrostatic precipitators.
• Chemically Corrosive Gases: RTOs may not be suitable for treating exhaust gases containing highly corrosive compounds. The high temperatures within the RTO can accelerate corrosion of materials, and the presence of corrosive gases may require additional corrosion-resistant materials or alternative air pollution control technologies.

Despite these limitations, RTOs remain an effective and widely used technology for the destruction of gaseous pollutants in various industrial applications. It is important to evaluate the specific requirements, characteristics of the exhaust gases, and environmental regulations when considering the implementation of an RTO system.

How do regenerative thermal oxidizers handle particulate matter buildup in the system?

Regenerative thermal oxidizers (RTOs) employ various mechanisms to handle particulate matter buildup in the system. Particulate matter, such as dust, soot, or other solid particles, can accumulate over time and potentially affect the performance and efficiency of the RTO. Here are some ways RTOs handle particulate matter buildup:

• Pre-filtration: RTOs can incorporate pre-filtration systems, such as cyclones or bag filters, to remove larger particulate matter before it enters the oxidizer. These pre-filters capture and collect the particles, preventing them from entering the RTO and reducing the potential for buildup.
• Self-Cleaning Effect: RTOs are designed to have a self-cleaning effect on the heat exchange media. During the operation of the RTO, the flow of hot exhaust gases through the media can cause the particles to burn or disintegrate, minimizing their accumulation. The high temperatures and turbulent flow help maintain clean surfaces on the media, reducing the risk of significant particulate buildup.
• Purge Cycle: RTOs typically incorporate purge cycles as part of their operation. These cycles involve introducing a small flow of clean air or gas into the system to purge any residual particulate matter. The purge air helps dislodge or burn off any particles adhering to the media, ensuring their continuous cleaning.
• Periodic Maintenance: Regular maintenance is essential to prevent excessive particulate matter buildup in the RTO. Maintenance activities may include inspecting and cleaning the heat exchange media, checking and replacing any worn-out gaskets or seals, and monitoring the system for any signs of particulate accumulation. Regular maintenance helps ensure optimal performance and minimizes the risk of operational issues associated with particulate matter buildup.
• Monitoring and Alarms: RTOs are equipped with monitoring systems that track various parameters such as pressure differentials, temperatures, and flow rates. These systems can detect any abnormal conditions or excessive pressure drops that may indicate particulate matter buildup. Alarms and alerts can be triggered to notify operators, prompting them to take appropriate action, such as initiating maintenance or cleaning procedures.

It is important to note that the specific strategies employed to handle particulate matter buildup may vary depending on the design and configuration of the RTO, as well as the characteristics of the particulate matter being treated. RTO manufacturers and operators should consider these factors and implement appropriate measures to ensure the effective management of particulate matter in the system.

By incorporating pre-filtration, utilizing the self-cleaning effect, implementing purge cycles, conducting regular maintenance, and employing monitoring systems, RTOs can effectively handle and mitigate particulate matter buildup, maintaining their performance and efficiency over time.

What are the benefits of using a regenerative thermal oxidizer?

A regenerative thermal oxidizer (RTO) is an advanced air pollution control technology used in industrial processes to remove volatile organic compounds (VOCs), hazardous air pollutants (HAPs), and other harmful emissions. The use of an RTO offers several benefits:

1. High Destruction Efficiency: RTOs are known for their high destruction efficiency, typically achieving over 99% destruction of VOCs and HAPs. This effectiveness ensures that the majority of harmful pollutants are eliminated, resulting in cleaner air emissions and compliance with environmental regulations.

2. Energy Efficiency: RTOs are designed to be energy-efficient systems. They utilize a regenerative process that recovers and preheats the incoming process air by capturing and transferring heat from the outgoing exhaust stream. This heat recovery mechanism significantly reduces the energy consumption of the system, making RTOs a cost-effective solution for air pollution control.

3. Cost Savings: The energy efficiency of RTOs translates into cost savings for industrial operations. By reducing fuel consumption and operating costs, businesses can achieve long-term financial benefits. Additionally, the high destruction efficiency of RTOs eliminates the need for additional downstream pollution control equipment, reducing capital and maintenance expenses.

4. Thermal Self-Sustainability: RTOs have the unique ability to sustain their operating temperature without the need for external fuel sources. Once the system reaches the desired operating temperature, the heat recovery process maintains the necessary thermal energy for oxidation. This self-sustainability reduces reliance on external fuel, enhances system reliability, and minimizes operational downtime.

5. Flexibility and Adaptability: RTOs are versatile and can be designed to accommodate a wide range of process exhaust volumes and pollutant concentrations. They can handle varying flow rates, inlet temperatures, and pollutant loadings, making them suitable for diverse industrial applications. RTOs can be customized to meet specific process requirements, ensuring optimal performance and adaptability.

6. Low Maintenance Requirements: RTOs are known for their low maintenance requirements. The absence of complex moving parts and the self-sustaining nature of the system contribute to minimal maintenance needs. Routine inspections, periodic checks, and basic preventive maintenance are usually sufficient to keep the RTO operating efficiently. This reduces downtime and maintenance costs for industrial facilities.

7. Environmental Compliance: By effectively removing VOCs, HAPs, and other pollutants, RTOs enable industrial facilities to achieve and maintain compliance with environmental regulations. This ensures that the emissions from the manufacturing or process operations meet the required air quality standards, protecting the environment and surrounding communities.

The benefits of using a regenerative thermal oxidizer, including high destruction efficiency, energy efficiency, cost savings, thermal self-sustainability, flexibility, low maintenance requirements, and environmental compliance, make it a preferred choice for many industries seeking effective and sustainable air pollution control solutions.

editor by CX 2024-04-15