China factory Rto Regenerative Thermal Oxidizer

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 is the difference between a regenerative thermal oxidizer and a thermal oxidizer?

A regenerative thermal oxidizer (RTO) and a thermal oxidizer are both types of air pollution control devices used for the treatment of volatile organic compounds (VOCs) and other air pollutants. While they share the same purpose, there are distinct differences between the two technologies.

Here are the key differences between a regenerative thermal oxidizer and a thermal oxidizer:

• Operating Principle: The fundamental difference lies in the operating principle. A thermal oxidizer operates by using high temperature alone to oxidize and destroy pollutants. It typically relies on a burner or other heat sources to raise the temperature of the exhaust gases to the required level for combustion. In contrast, an RTO utilizes a regenerative heat exchanger system to preheat the incoming exhaust gases by capturing and transferring heat from the outgoing gases. This heat exchange mechanism significantly improves the overall energy efficiency of the system.
• Възстановяване на топлина: Heat recovery is a distinctive feature of an RTO. The regenerative heat exchanger in an RTO allows for the recovery of a significant amount of heat from the outgoing gases. This recovered heat is then used to preheat the incoming gases, reducing the energy consumption of the system. In a typical thermal oxidizer, heat recovery is limited or absent, resulting in higher energy requirements.
• Energy Efficiency: Due to the heat recovery mechanism, RTOs are generally more energy-efficient compared to traditional thermal oxidizers. The regenerative heat exchanger in an RTO allows for thermal efficiencies of 95% or higher, meaning that a significant portion of the energy input is recovered and utilized within the system. Thermal oxidizers, on the other hand, typically have lower thermal efficiencies.
• Operating Costs: The higher energy efficiency of RTOs translates into lower operating costs over the long term. The reduced energy consumption can result in significant savings in fuel or electricity expenses compared to thermal oxidizers. However, the initial capital investment for an RTO is generally higher than that of a thermal oxidizer due to the complexity of the regenerative heat exchanger system.
• Control of Pollutant Concentrations: RTOs are better suited for handling variable pollutant concentrations compared to thermal oxidizers. The regenerative heat exchanger system in an RTO allows for better control and adjustment of operating parameters to accommodate fluctuations in pollutant concentrations. Thermal oxidizers are typically less adaptable to varying pollutant loads.

In summary, the main differences between a regenerative thermal oxidizer and a thermal oxidizer lie in the operating principle, heat recovery capabilities, energy efficiency, operating costs, and control of pollutant concentrations. RTOs offer higher energy efficiency, better control of pollutant concentrations, and lower operating costs, but they require a higher initial investment compared to traditional thermal oxidizers.

Are regenerative thermal oxidizers safe to operate?

Regenerative thermal oxidizers (RTOs) are designed with safety considerations to ensure their safe operation. When properly installed, operated, and maintained, RTOs provide a high level of safety. Here are some key points regarding the safety of operating RTOs:

• Combustion and Fire Safety: RTOs are designed to safely combust and destroy volatile organic compounds (VOCs) and other pollutants in the exhaust stream. They incorporate various safety features to prevent the risk of uncontrolled fires or explosions. These features may include flame arrestors, temperature sensors, pressure relief devices, and automated shutdown systems to ensure safe operation in the event of abnormal operating conditions.
• Control and Monitoring Systems: RTOs are equipped with advanced control and monitoring systems that continuously monitor various parameters such as temperature, pressure, and flow rates. These systems provide real-time data to operators, allowing them to detect any deviations from normal operating conditions promptly. Alarms and safety interlocks are often included to alert operators and initiate appropriate actions in case of abnormal situations.
• Heat Recovery and Thermal Efficiency: RTOs are designed to maximize thermal efficiency by recovering and reusing heat generated during the oxidization process. This reduces the overall energy consumption and minimizes the risk of heat buildup within the system, contributing to safe operation and preventing excessive temperatures that could pose safety hazards.
• Equipment and Material Selection: RTOs are constructed using materials that can withstand the high temperatures and corrosive conditions encountered during operation. Heat-resistant materials, such as ceramic beds or metallic heat exchangers, are commonly used. Proper material selection ensures the integrity and longevity of the equipment, reducing the risk of failures or leaks that could compromise safety.
• Compliance with Standards and Regulations: RTOs must comply with applicable safety standards and regulations. These standards define specific requirements for the design, installation, operation, and maintenance of air pollution control systems, including RTOs. Compliance with these standards ensures that the RTOs meet the necessary safety criteria and helps safeguard the health and well-being of personnel and the surrounding environment.
• Operator Training and Maintenance: Adequate operator training and regular maintenance are crucial for safe RTO operation. Operators should receive comprehensive training on the system’s operation, safety procedures, and emergency response protocols. Additionally, routine maintenance and inspections help identify and address any potential safety concerns or equipment issues before they escalate.

While RTOs are generally safe to operate, it is essential to follow the manufacturer’s guidelines, maintain proper safety protocols, and adhere to applicable regulations to ensure safe and reliable operation.

Are regenerative thermal oxidizers environmentally friendly?

Regenerative thermal oxidizers (RTOs) are considered environmentally friendly air pollution control devices due to several reasons:

• High Efficiency in Pollutant Destruction: RTOs are highly efficient in destroying pollutants, including volatile organic compounds (VOCs) and hazardous air pollutants (HAPs). They typically achieve destruction efficiencies exceeding 99%. This means that the vast majority of harmful pollutants are converted into harmless byproducts, such as carbon dioxide and water vapor.
• Compliance with Emission Regulations: RTOs help industries comply with stringent air quality regulations and emission limits set by environmental agencies. By effectively removing pollutants from industrial exhaust streams, RTOs help reduce the release of harmful substances into the atmosphere, contributing to improved air quality.
• Minimal Secondary Pollutant Formation: RTOs minimize the formation of secondary pollutants. The high temperatures within the combustion chamber promote the complete oxidation of pollutants, preventing the formation of uncontrolled byproducts, such as dioxins and furans, which can be more harmful than the original pollutants.
• Energy Efficiency: RTOs incorporate heat recovery systems that improve energy efficiency. They capture and utilize the heat generated during the oxidation process to preheat the incoming process air, reducing the energy requirements for heating. This energy recovery feature helps minimize the overall environmental impact of the system.
• Reduction of Greenhouse Gas Emissions: By effectively destroying VOCs and HAPs, RTOs contribute to the reduction of greenhouse gas emissions. VOCs are significant contributors to the formation of ground-level ozone and are associated with climate change. By eliminating VOC emissions, RTOs help mitigate the environmental impact associated with these pollutants.
• Applicability to Various Industries: RTOs are widely applicable across different industries and processes. They can handle a wide range of exhaust volumes, pollutant concentrations, and variations in gas composition, making them versatile and adaptable to various industrial applications.

While RTOs offer significant environmental benefits, it’s important to note that their overall environmental performance depends on proper design, operation, and maintenance. Regular inspections, maintenance, and adherence to manufacturer’s guidelines are crucial to ensuring the continued effectiveness and environmental friendliness of RTOs.

editor by CX 2024-02-14