China factory Rto Bed Type/Chamber Type Rto Regenerative Thermal Oxidizer

Základní informace.

Model NO.

Úžasné RTO

Typ

Spalovna

Vysoká účinnost

100

Úspora energie

100

Low Maintenance

100

Easy Operation

100

Ochranná známka

Bjamazing

Přepravní balíček

Overseas

Specifikace

111

Původ

Čína

Kód HS

2221111

Popis produktu

RTO

Regenerační tepelný oxidátor

V porovnání s tradičním katalytickým spalováním; přímé tepelné okysličovadlo,; RTO má přednost ve vysoké účinnosti vytápění; nízké provozní náklady; a schopnost zpracovávat odpadní plyn s nízkou koncentrací velkého toku; Když je koncentrace VOC vysoká,; lze realizovat sekundární recyklaci tepla,; což výrazně sníží provozní náklady.; Vzhledem k tomu, že RTO může předehřívat odpadní plyn o úrovně prostřednictvím keramického akumulátoru tepla,; což by mohlo způsobit, že se odpadní plyn úplně zahřeje a popraská bez mrtvého rohu (účinnost čištění > 99 %);,;které snižují NOX ve výfukových plynech;; pokud je hustota VOC > 1500 mg/Nm3; když odpadní plyn dosáhne oblasti praskání; byla zahřátá na teplotu praskání pomocí tepelného akumulátoru; hořák bude za těchto podmínek uzavřen.;

RTO lze rozdělit na typ komory a rotační typ podle rozdílu provozního režimu.; Rotační typ RTO má výhody v systémovém tlaku,; teplotní stabilita; výše investice,; atd

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Adresa: 8 patro, E1, budova Pinwei, Dishengxi road, Yizhuang, ZheJiang, Čína

Typ podnikání: Výrobce/Továrna, Obchodní společnost

Rozsah podnikání: Elektrika a elektronika, Průmyslová zařízení a komponenty, Stroje na výrobu a zpracování, Metalurgie, Nerosty a energie

Certifikace systému managementu: ISO 9001, ISO 14001

Hlavní produkty: Rto, barevná lakovací linka, galvanizační linka, vzduchový nůž, náhradní díly pro zpracovatelskou linku, nanášecí stroj, nezávislá zařízení, dřezový válec, projekt renovace, dmychadlo

Představení společnosti: ZheJiang Amazing Science & Technology Co., Ltd je prosperující hi-tech společnost se sídlem v oblasti hospodářského a technologického rozvoje ZheJiang (BDA). V souladu s konceptem realistického, inovativního, zaměřeného a efektivního naše společnost slouží především průmyslu zpracování odpadních plynů (VOC) a metalurgickým zařízením Číny a dokonce i celého světa. Máme pokročilou technologii a bohaté zkušenosti s projektem zpracování odpadních plynů VOCs, jehož reference byla úspěšně aplikována v průmyslu nátěrových hmot, pryže, elektroniky, polygrafie atd. Máme také roky technologické akumulace ve výzkumu a výrobě plochých linka na zpracování oceli a má téměř 100 příkladů použití.

Naše společnost se zaměřuje na výzkum, návrh, výrobu, instalaci a zprovoznění systému čištění organických odpadních plynů VOCs a projekt modernizace a aktualizace pro úsporu energie a ochranu životního prostředí linky na zpracování ploché oceli. Můžeme zákazníkům poskytnout kompletní řešení pro ochranu životního prostředí, úsporu energie, zlepšování kvality produktů a další aspekty.

Zabýváme se také různými náhradními díly a nezávislými zařízeními pro barevnou lakovací linku, galvanizační linku, mořicí linku, jako je válec, spojka, tepelný výměník, rekuperátor, vzduchový nůž, dmychadlo, svářečka, vyrovnávač napětí, skin pass, dilatační spára, smyk, spárovačka , sešívačka, hořák, sálavá trubice, převodový motor, reduktor atd.

Can regenerative thermal oxidizers be used for abating hazardous air pollutants (HAPs)?

Yes, regenerative thermal oxidizers (RTOs) can be used effectively for abating hazardous air pollutants (HAPs). RTOs are widely recognized and employed as one of the most efficient and reliable technologies for the destruction of a wide range of volatile organic compounds (VOCs) and hazardous air pollutants.

Here are some key points regarding the use of RTOs for abating HAPs:

• High Destruction Efficiency: RTOs are known for their high destruction efficiency, which refers to their ability to effectively oxidize and destroy HAPs. The combustion chamber within the RTO is designed to maintain a sufficiently high temperature (typically above 1,400°F or 760°C) to ensure complete oxidation of the pollutants, including HAPs.
• Wide Applicability: RTOs can handle a wide range of HAPs and VOCs, including but not limited to benzene, toluene, xylene, chlorinated compounds, formaldehyde, and various other organic pollutants. Their versatility makes them suitable for diverse industrial applications where HAPs may be present.
• Retention Time: RTOs are designed with a sufficient residence or retention time within the combustion chamber. This allows the exhaust gases containing HAPs to spend enough time in the high-temperature zone, ensuring that HAPs are adequately treated and oxidized to harmless byproducts.
• Rekuperace tepla: The heat recovery system in an RTO, typically using ceramic media beds or heat exchangers, plays a crucial role in the destruction of HAPs. The heat recovery system helps maintain the required temperature and provides thermal energy to sustain the combustion process, ensuring effective destruction of HAPs even during variable operating conditions.
• Dodržování předpisů: RTOs are designed to meet stringent environmental regulations governing HAP emissions. By effectively destroying HAPs, RTOs help industries comply with air quality standards and emission limits set by regulatory agencies.
• Monitoring and Controls: RTOs are equipped with advanced monitoring and control systems that continuously monitor parameters such as temperature, pressure, and pollutant concentrations. These systems ensure the optimal performance of the RTO in treating HAPs and allow for adjustments and optimization as needed.

It’s important to note that the specific design and configuration of an RTO may need to be tailored to the characteristics of the HAPs being treated. Factors such as the HAPs’ chemical composition, concentration, and other process-specific considerations may influence the selection and customization of the RTO system.

In summary, RTOs are highly effective and reliable technologies for abating hazardous air pollutants. Their high destruction efficiency, wide applicability, and compliance with regulations make them a preferred choice for industries seeking to mitigate the environmental impact of HAP emissions.

How do regenerative thermal oxidizers handle variations in pollutant composition?

Regenerative thermal oxidizers (RTOs) are designed to handle variations in pollutant composition effectively. RTOs are commonly used for treating volatile organic compounds (VOCs) and hazardous air pollutants (HAPs) emitted from various industrial processes. Here are some key points regarding how RTOs handle variations in pollutant composition:

• Thermal Oxidation Process: RTOs utilize a thermal oxidation process to eliminate pollutants. The process involves raising the temperature of the exhaust gas to a level where the pollutants react with oxygen and are oxidized to carbon dioxide (CO₂) and water vapor. This high-temperature oxidation process is effective in treating a wide range of pollutants, regardless of their specific composition.
• Wide Range of Pollutant Compatibility: RTOs are designed to handle a broad spectrum of pollutants, including VOCs and HAPs with varying chemical compositions. The high operating temperatures in the RTO, typically between 1400°F to 1600°F (760°C to 870°C), ensure that a wide range of organic compounds can be effectively oxidized, regardless of their molecular structure or chemical makeup.
• Residence Time and Dwell Time: RTOs provide sufficient residence time and dwell time for the exhaust gas within the oxidizer. The exhaust gas is directed through a heat exchange system, where it passes through ceramic media beds or heat exchange media. These media beds absorb the heat from the high-temperature combustion chamber and transfer it to the incoming exhaust gas. The extended residence time and dwell time ensure that even complex or less reactive pollutants have enough contact time with the elevated temperature to be effectively oxidized.
• Rekuperace tepla: RTOs incorporate heat recovery systems that maximize thermal efficiency. The heat exchangers within the RTO capture and transfer heat from the outgoing exhaust gas to the incoming process stream. This heat exchange process helps maintain the high operating temperatures required for effective pollutant destruction while minimizing the energy consumption of the system. The ability to recover and reuse heat also contributes to the RTO’s ability to handle variations in pollutant composition.
• Advanced Control Systems: RTOs employ advanced control systems to monitor and optimize the oxidation process. These control systems continuously monitor parameters such as temperature, flow rates, and pollutant concentrations. By adjusting the operating conditions in response to variations in pollutant composition, the control systems ensure optimal performance and maintain high destruction efficiencies.

In summary, RTOs handle variations in pollutant composition by utilizing a thermal oxidation process, accommodating a wide range of pollutants, providing sufficient residence time and dwell time, incorporating heat recovery systems, and employing advanced control systems. These features allow RTOs to effectively treat emissions with different pollutant compositions, ensuring high destruction efficiencies and compliance with environmental regulations.

Can regenerative thermal oxidizers reduce odor emissions?

Regenerative thermal oxidizers (RTOs) are effective in reducing odor emissions from industrial processes. While their primary purpose is to control and destroy volatile organic compounds (VOCs) and hazardous air pollutants (HAPs), they can also effectively mitigate odorous compounds.

Here’s how RTOs contribute to odor reduction:

• Oxidation of Odorous Compounds: RTOs operate at high temperatures, typically ranging from 1,400 to 1,800 degrees Fahrenheit (760 to 980 degrees Celsius). These elevated temperatures facilitate the complete oxidation of odorous compounds, breaking them down into harmless byproducts, such as carbon dioxide and water vapor. The thermal oxidation process ensures the destruction of odor-causing molecules.
• High Destruction Efficiency: RTOs are designed to achieve high destruction efficiencies, often exceeding 99%. This means that the vast majority of odorous compounds are effectively eliminated during the combustion process, resulting in a significant reduction in odor emissions.
• Retention Time: RTOs provide a sufficiently long retention time for the exhaust gases within the combustion chamber. This allows for thorough mixing and residence time necessary for the complete oxidation of odorous compounds. The extended contact time ensures that the odorous molecules have sufficient exposure to the high temperatures, resulting in their destruction.
• Control of VOCs: Many odorous compounds are also VOCs. By effectively controlling and destroying VOC emissions, RTOs indirectly reduce odor emissions as well. The comprehensive destruction of VOCs prevents their release into the atmosphere, thereby minimizing the associated odors.
• Monitoring and Optimization: Proper monitoring and optimization of RTO operation can further enhance odor reduction. By continuously monitoring the process parameters, such as temperature, airflow, and pollutant concentrations, adjustments can be made to optimize the performance of the RTO and ensure effective odor control.

It’s important to note that while RTOs are effective in reducing odor emissions, the specific odor compounds and their concentrations in the exhaust stream can influence the overall odor control efficiency. Additionally, proper design, operation, and maintenance of the RTO are crucial for achieving optimal odor reduction.

editor by CX 2024-04-04