China manufacturer Regenerative/Recuperative Thermal Oxidizer (RTO)

Основна информация.

Модел NO.

Невероятен RTO

Тип

Инсинератор

Икономия на енергия

100

Easy for Operation

100

Висока ефективност

100

Less Maintenance

100

Търговска марка

Бямазинг

Транспортен пакет

Overseas Wooden

Спецификация

180*24

Произход

Китай

Код по ХС

8416100000

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 is the role of heat recovery in a regenerative thermal oxidizer?

Heat recovery plays a crucial role in the operation of a regenerative thermal oxidizer (RTO) by improving its energy efficiency and reducing fuel consumption. The primary function of heat recovery in an RTO is to capture and transfer heat from the treated exhaust gases to the incoming untreated gases, minimizing the need for additional external heating.

Here’s a closer look at the role of heat recovery in an RTO:

• Energy Efficiency: RTOs are designed to achieve high thermal efficiency by utilizing the heat recovery principle. The heat recovery system consists of heat exchangers or beds filled with ceramic media, such as structured ceramic blocks or random ceramic saddles. These beds alternate between the exhaust gas flow and the incoming untreated gas flow.
• Heat Transfer Process: During operation, the hot exhaust gases from the industrial process flow through one bed of the heat exchanger, transferring heat to the ceramic media. The media absorbs the heat, and the temperature of the exhaust gases decreases. Simultaneously, the cooler incoming untreated gas flows through the other bed, where it absorbs the heat stored in the media, preheating the gas before it enters the combustion chamber.
• Bed Switching: The direction of gas flow through the beds is periodically switched using valves or dampers. This switching operation allows the RTO to alternate between different beds, ensuring continuous heat recovery and thermal oxidation of the pollutants. By efficiently recovering and reusing heat from the exhaust gases, the RTO reduces the amount of external fuel needed to maintain the required operating temperature.
• Reduction in Fuel Consumption: The heat recovery mechanism in an RTO significantly reduces the fuel consumption compared to other types of oxidizers. The preheating of the incoming untreated gas stream reduces the energy required to raise the temperature of the gas to the combustion temperature, resulting in lower fuel usage and operational costs.
• Economic and Environmental Benefits: Heat recovery in RTOs offers economic benefits by reducing energy costs and improving the overall sustainability of the facility. By minimizing fuel consumption, heat recovery contributes to a lower carbon footprint and helps meet environmental goals by reducing greenhouse gas emissions associated with the combustion process.

The effectiveness of heat recovery in an RTO depends on factors such as the design of the heat exchanger, the choice of ceramic media, the flow rates of the exhaust gases and incoming untreated gas, and the temperature differential between the two streams. Proper sizing and optimization of the heat recovery system are essential to ensure efficient heat transfer and maximize energy savings.

Overall, heat recovery is a key component in the design of an RTO, allowing for improved energy efficiency, reduced fuel consumption, and environmental sustainability.

How do regenerative thermal oxidizers compare to biofilters in terms of performance?

Regenerative thermal oxidizers (RTOs) and biofilters are both widely used technologies for the treatment of air pollutants, but they differ in their operating principles and performance characteristics. Here’s a comparison of RTOs and biofilters in terms of their performance:

It is important to note that the selection of the appropriate technology depends on various factors such as the specific pollutants to be treated, process conditions, regulatory requirements, and site-specific considerations. Consulting with environmental engineers or air pollution control experts can help determine the most suitable technology for a particular application.

In summary, RTOs and biofilters offer different performance characteristics, with RTOs excelling in high removal efficiencies, versatility, and suitability for high-flow and high-concentration applications, while biofilters are effective for odorous compounds, have low energy consumption, and generally lower capital costs.

Are regenerative thermal oxidizers effective in reducing air pollution?

Regenerative thermal oxidizers (RTOs) are highly effective in reducing air pollution and have been widely recognized as one of the most efficient air pollution control technologies. Here are the reasons why RTOs are effective in reducing air pollution:

1. High Destruction Efficiency: RTOs are known for their high destruction efficiency, typically exceeding 99%. They effectively destroy volatile organic compounds (VOCs), hazardous air pollutants (HAPs), and other harmful emissions present in industrial exhaust streams. The combustion process within the RTO chamber ensures that the pollutants are chemically oxidized into less harmful byproducts, such as carbon dioxide and water vapor.

2. Comprehensive Pollutant Removal: RTOs are designed to handle a wide range of pollutants, including VOCs, HAPs, and odorous compounds. They can effectively capture and eliminate a broad spectrum of contaminants emitted from various industrial processes. This comprehensive pollutant removal capability makes RTOs suitable for diverse industries, including chemical manufacturing, printing, pharmaceuticals, and food processing.

3. Regulatory Compliance: RTOs play a crucial role in helping industrial facilities achieve and maintain compliance with environmental regulations. By efficiently reducing air pollution, RTOs ensure that the emissions from industrial processes meet the required air quality standards set by regulatory authorities. This compliance helps protect the environment and public health while avoiding potential penalties and legal issues.

4. Energy Recovery: RTOs incorporate a regenerative heat recovery system, which improves their energy efficiency. The system captures and preheats the incoming process air by utilizing the heat energy from the outgoing exhaust stream. This energy recovery mechanism significantly reduces the overall energy consumption of the RTO, making it an environmentally friendly and cost-effective solution for air pollution control.

5. Reliability and Longevity: RTOs are known for their reliability and long operational life. They are designed with robust construction materials and proven engineering principles. The absence of complex moving parts and the self-sustaining nature of the thermal oxidation process contribute to the longevity and consistent performance of RTOs. With proper maintenance and periodic inspections, RTOs can provide effective pollution control for many years.

6. Versatility and Scalability: RTOs offer versatility and scalability to meet the specific needs of different industries. They can handle varying flow rates, pollutant concentrations, and process exhaust volumes. RTOs can be customized and engineered to accommodate specific process requirements, ensuring optimal performance and adaptability in different industrial settings.

7. Continuous Operation: RTOs can operate continuously without interruption, provided that the necessary maintenance and inspections are conducted. This continuous operation allows for consistent air pollution control, ensuring that emissions are consistently treated and minimized throughout the industrial process.

In summary, regenerative thermal oxidizers are highly effective in reducing air pollution. Their high destruction efficiency, comprehensive pollutant removal capabilities, energy recovery features, regulatory compliance, reliability, versatility, scalability, and continuous operation make them a preferred choice for industries seeking effective and sustainable solutions for air pollution control.

editor by Dream 2024-05-08