China Professional Rto/Regenerative Thermal Oxidizer

Základní informace.

Model NO.

Úžasné RTO

Typ

Spalovna

Low Maintenance

100

Easy Operation

100

Úspora energie

100

Vysoká účinnost

100

Ochranná známka

Bjamazing

Přepravní balíček

Overseas

Specifikace

111

Původ

Čína

Kód HS

2221111

Popis produktu

RTO

Regenerační tepelný oxidátor

Compared with traditional catalytic combustion, direct thermal oxidizer, RTO has the merits of high heating efficiency, low operation cost, and the ability to treat large flux low concentration waste gas. When VOCs concentration is high, secondary heat recycle can be realized, which will greatly reduce the operation cost. Because RTO can preheat the waste gas by levels through ceramic heat accumulator, which could make the waste gas to be completely heated and cracked with no dead corner(treatment efficiency>99%),which reduce the NOX in the Exhausting gas, if the VOC density >1500mg/Nm3, when the waste gas reach cracking area, it has been heated up to cracking temperature by heat accumulator, the burner will be closed under this condition.

RTO can be devided into chamber type and rotary type according to difference operation mode. Rotary type RTO has advantages in system pressure, temperature stability, investment amount, etc

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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.

What is the cost of installing a regenerative thermal oxidizer?

The cost of installing a regenerative thermal oxidizer (RTO) can vary significantly depending on several factors. These factors include the size and capacity of the RTO, the specific requirements of the application, site conditions, and any additional customization or engineering needed. However, it’s important to note that RTOs are generally considered a significant capital investment due to their complex design and high-performance capabilities.

Here are some cost considerations associated with installing an RTO:

• RTO Size and Capacity: The size and capacity of the RTO, typically measured in terms of exhaust flow rate and pollutant concentration, are important cost factors. Larger RTOs capable of handling higher exhaust volumes and pollutant concentrations generally have higher upfront costs compared to smaller units.
• Engineering and Customization: The engineering and customization requirements for integrating the RTO into the existing industrial process can impact the installation cost. This includes factors such as ductwork modifications, electrical connections, and any necessary process integration to ensure proper functioning of the RTO within the overall system.
• Site Preparation: The site where the RTO will be installed may require preparation to accommodate the equipment. This can involve constructing foundations, providing adequate space for the RTO and associated components, and ensuring proper access for installation and maintenance.
• Auxiliary Systems and Equipment: In addition to the RTO itself, there may be auxiliary systems and equipment required for effective operation. This can include pre-treatment systems, such as scrubbers or filters, heat recovery units, monitoring and control systems, and stack emissions monitoring equipment. The cost of these additional components should be considered in the overall installation cost.
• Installation Labor and Equipment: The cost of labor and equipment required for the installation process, including crane services and specialized contractors, should be factored into the overall cost. The complexity of the installation and any specific site challenges can influence these costs.
• Permits and Compliance: Obtaining necessary permits and complying with regulatory requirements can involve additional costs. This includes fees for environmental permits, engineering studies, emissions testing, and compliance documentation.

Due to the many variables involved, it is challenging to provide a specific cost range for installing an RTO. It is recommended to consult with reputable RTO manufacturers or engineering firms, who can assess the specific requirements of the application and provide detailed cost estimates based on the project scope.

Can regenerative thermal oxidizers be used for treating emissions from pharmaceutical processes?

Yes, regenerative thermal oxidizers (RTOs) can be effectively used for treating emissions from pharmaceutical processes. Pharmaceutical manufacturing processes often generate volatile organic compounds (VOCs) and hazardous air pollutants (HAPs) that need to be controlled to comply with environmental regulations and ensure air quality. Here are some key points regarding the use of RTOs for treating emissions from pharmaceutical processes:

• Kontrola emisí: RTO jsou navrženy tak, aby dosahovaly vysoké účinnosti ničení VOC a HAP. Tyto znečišťující látky se oxidují v RTO při vysokých teplotách, typicky nad účinností 95%, a přeměňují je na oxid uhličitý (CO₂) and water vapor. This ensures effective control and reduction of emissions from pharmaceutical processes.
• Kompatibilita procesu: RTOs can be integrated into the exhaust systems of various pharmaceutical processes, capturing and treating the emissions before they are released into the atmosphere. The RTO is typically connected to the process equipment or exhaust stack, allowing the VOC-laden air to pass through the oxidizer for treatment.
• Flexibilita: RTOs offer flexibility in handling a wide range of operating conditions and pollutants. Pharmaceutical processes can vary in terms of flow rates, temperature, and composition of emissions. RTOs are designed to accommodate these variations and provide effective treatment even under fluctuating conditions.
• Rekuperace tepla: RTO obsahují systémy výměny tepla, které umožňují rekuperaci a opětovné využití tepelné energie. Výměníky tepla v RTO zachycují teplo z odcházejících výfukových plynů a předávají je do vstupního procesního vzduchu nebo proudu plynu. Tento proces rekuperace tepla zlepšuje celkovou energetickou účinnost systému a snižuje potřebu dodatečné spotřeby paliva.
• Dodržování předpisů: Pharmaceutical processes are subject to regulatory requirements for air quality and emissions control. RTOs are capable of achieving the necessary destruction efficiencies and can help pharmaceutical manufacturers comply with environmental regulations. The use of RTOs demonstrates a commitment to sustainable practices and responsible management of air emissions.

It is important to note that the specific design and configuration of the RTO, as well as the characteristics of the pharmaceutical emissions, should be considered when implementing an RTO for a specific application. Consulting with experienced engineers or RTO manufacturers can provide valuable insights into the proper sizing, integration, and performance requirements for treating emissions from pharmaceutical processes.

In summary, RTOs are a suitable and effective technology for treating emissions from pharmaceutical processes, providing high destruction efficiencies, compatibility with various processes, flexibility in handling operating conditions, heat recovery, and compliance with environmental regulations.

Regenerative Thermal Oxidizer vs. Thermal Oxidizer

When comparing a regenerative thermal oxidizer (RTO) to a conventional thermal oxidizer, there are several key differences to consider:

1. Operation:

A regenerative thermal oxidizer operates using a cyclical process that involves heat recovery, while a thermal oxidizer typically operates in a continuous mode without heat recovery.

2. Heat Recovery:

One of the primary distinctions between the two systems is the heat recovery mechanism. An RTO utilizes heat exchanger beds filled with ceramic media or structured packing to recover heat from the outgoing gases and preheat the incoming gases, resulting in energy savings. In contrast, a thermal oxidizer does not incorporate heat recovery, leading to higher energy consumption.

3. Efficiency:

RTOs are known for their high destruction efficiency, typically above 95%, which enables effective removal of volatile organic compounds (VOCs) and other pollutants. Thermal oxidizers, on the other hand, may have slightly lower destruction efficiencies depending on the specific design and operating conditions.

4. Energy Consumption:

Due to the heat recovery mechanism, RTOs generally require less energy for operation compared to thermal oxidizers. The preheating of incoming gases in an RTO reduces the fuel consumption required for combustion, making it more energy-efficient.

5. Cost-effectiveness:

While the initial capital investment for an RTO can be higher than that of a thermal oxidizer due to the heat recovery components, the long-term operational cost savings through energy recovery and higher destruction efficiencies make RTOs a cost-effective solution over the lifespan of the system.

6. Environmental Compliance:

Both RTOs and thermal oxidizers are designed to meet emissions regulations and help industries comply with air quality standards and permits. However, RTOs typically offer higher destruction efficiencies, which can enhance environmental compliance.

7. Versatility:

RTOs and thermal oxidizers are both versatile in terms of handling a wide range of process exhaust volumes and pollutant concentrations. However, RTOs are often preferred for applications where high destruction efficiencies and energy recovery are critical.

Overall, the key distinctions between a regenerative thermal oxidizer and a thermal oxidizer lie in the heat recovery mechanism, energy consumption, efficiency, and cost-effectiveness. RTOs offer superior energy recovery and higher destruction efficiencies, making them an attractive option for industries that prioritize energy efficiency and environmental compliance.

editor by CX 2023-10-15