China Hot selling Industrial Ceramics Honeycomb Ceramic for Regenerative Thermal Oxidizers Rto & Rco

Základní informace.

Material

Cordierite

Aplikace

Industry, Food and Beverage, Medicine, Textile, Metallurgy

Typ

Ceramic Filter

Filter Connector

Flat Connector

Filtration Grade

ULPA Filter

Activated Carbon Filter Type

Bulk Type

Ochranná známka

SW

Přepravní balíček

Carton

Specifikace

50x50x50, 100x100x50, 595x260x95

Původ

Čína

Kód HS

3815120090

Popis produktu

Description:;
Carrier:; Ceramic honeycomb substrate (cordierite monolith); or metal honeycomb substrate (stainless steel crust and Fe-Cr-Al honeycomb body);.;

Technical Data:;
Material:;Cordierite,; mullite ceramics 
Size:;                                               
50x50x50,;100x100x50,;595x260x95
Working Temperature:;220°C-1100°C 
Channels:;Circular,; Square,; Rectangle
Cell Density:;                                     
50-400 CPSI                                      
Type:; Catalytic Converter
Usage:;
Catalytic Converter                                           
Application:;Enameled wire,; paint room,; waste gas treatment industry.;
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Regenerative Thermal/Catalytic Oxidizer (RTO/RCO); :;

Regenerated heat/catalytic oxidant (RTO/RCO);:; it is widely used in automotive coatings,; chemical industry,; electronic and electric manufacturing industry,; contact combustion system and other fields.;Ceramic honeycomb is designated as a structural regenerative medium for RTO/RCO.;
 

Advantage:;

1.; Various materials and specifications
2.; Products with different formulas can be customized according to customer requirements.;
3.; Small resistance loss
4.; Low thermal expansion coefficient
5.; Excellent crack resistance
6.; It can be customized to meet the emission standards of different countries.;
 

Aplikace:;

1.; It can be used as a heat exchanger in the RTO of the heat recovery device.;
2.; Can be used as a catalyst to purify automobile exhaust and motorcycle exhaust to remove odor.;
3.; Applicable to food service industry,; environmental protection industry,; metallurgy industry,; etc

Test Equipment:;

Particle size distribution tester
Aperture and specific surface meter
Metal distribution,; crystalline structure
Catalyst activity evaluation system

Production Equipment:;

Coating continuous microwave drying system
Slurry nanometer grinding preparation system
Slurry quantitative spraying system

RFQ:;

Q:;Are you a trading company or a manufacturer?

A:;We are professional manufacturer which has almost 20 years of experience in this industry.;

Q:;Can you produce according to the samples?

A:;Yes,;we can produce by your samples or technical drawings.;

Q:;Would it be possible for us to visit your factory?

A:;Sure,;we welcomed our customers visit our factory in any time.;

Q:;Will your company supply samples?

A:;Yes,;the sample expense will be deducted from the value of your order.;

Q:;What’s your payment terms?

A:;T/T,; L/C,; Western Union,; Money Gram,; are available for us.;

Q:;Delivery time for my order?

A:;Within 7-15 working days for your sample order; 20 working days for your bulk order( It depends on the models and quantity you are going to order);.;

Address: Room. 3902-2 TianAn CHINAMFG Town No. 228 Ling Lake Avenue, New Wu District, HangZhou City, ZheJiang Province, China.

Business Type: Manufacturer/Factory, Group Corporation

Business Range: Auto, Motorcycle Parts & Accessories, Chemicals, Industrial Equipment & Components, Manufacturing & Processing Machinery

Management System Certification: ISO 9001, ISO 14001, ISO 20000, IATF16949

Main Products: Honeycomb Catalytic, Three Way Catalytic, Chemical Catalytic, Exhaust Filter, Industrial Catalytic

Company Introduction: Established in 2003, Sheung Well International Corp. Is a professional enterprise specialized in developing, manufacturing, selling automotive vehicles, Universal fuel engine and industrial three-way catalyst and converters, four-way converters. With independent intellectual property rights, its technology has been approved by ISO9001, TS16949 quality and management systems.

Sheung Well is an all-round designer and manufacturer who has a innovative and quality managing team mainly consists of doctorates and masters. Based on its cutting edge technology, rich experience and modern production and quality management skills, CHINAMFG is providing customers with first-class products and services.

Oriented in market, with innovation as its soul, centralized in serving the society, CHINAMFG lays emphasis on developing technology and products of controlling Exhaust emissions and other industrial catalysts. By providing customers with technology and supports of new products, it is committed to becoming the word-class all-around enterprise in catalyst circle from home and abroad.

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.
• Rekuperace tepla: 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.
• Energetická účinnost: 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.

Can regenerative thermal oxidizers handle high-temperature exhaust streams?

Regenerative thermal oxidizers (RTOs) are designed to handle high-temperature exhaust streams efficiently. They are capable of accommodating exhaust gases with elevated temperatures and effectively treating them for pollutant removal. Here are some key points regarding the handling of high-temperature exhaust streams in RTOs:

• Thermal Stability: RTOs are constructed using materials that can withstand high temperatures, typically ranging from 800 to 1,500 degrees Celsius (1,472 to 2,732 degrees Fahrenheit). The combustion chamber, heat exchangers, and other components are designed to maintain their structural integrity and thermal stability under these conditions.
• Rekuperace tepla: One of the primary advantages of RTOs is their ability to recover and reuse heat from the high-temperature exhaust streams. The heat exchangers within the RTO capture the thermal energy from the outgoing exhaust gases and transfer it to the incoming process air or gas stream. This heat recovery process improves the overall energy efficiency of the system and reduces the need for additional fuel consumption.
• Effective Combustion: RTOs are equipped with combustion chambers where the high-temperature exhaust gases are directed. In the combustion chamber, the pollutants in the exhaust stream are oxidized at high temperatures, typically above the autoignition temperature of the pollutants. This ensures effective destruction of the pollutants, even in high-temperature environments.
• Heat Exchange: RTOs utilize a regenerative heat exchange system, which allows for the efficient transfer of heat between the incoming and outgoing gas streams. The heat exchange media within the RTO alternately absorbs and releases heat, enabling the preheating of the incoming gases and cooling of the outgoing gases. This heat exchange process helps maintain the desired operating temperatures within the RTO while maximizing energy recovery.
• System Design Considerations: When handling high-temperature exhaust streams, proper system design is crucial. Factors such as the choice of materials, insulation, and thermal expansion considerations are taken into account to ensure safe and efficient operation at elevated temperatures. Additionally, temperature monitoring and control systems are implemented to maintain optimal operating conditions.

It is important to note that the specific temperature limits and capabilities of an RTO may vary depending on the design, materials used, and the specific requirements of the application. Consulting with experienced engineers or RTO manufacturers can provide valuable insights into the suitability of an RTO for handling a particular high-temperature exhaust stream.

Overall, RTOs are well-suited for handling high-temperature exhaust streams, offering effective pollutant destruction, heat recovery, and energy efficiency in industrial applications.

Jak funguje regenerační tepelný oxidátor?

Regenerační tepelný oxidátor (RTO) je pokročilé zařízení pro kontrolu znečištění ovzduší, které funguje prostřednictvím cyklického procesu k odstranění těkavých organických sloučenin (VOC), nebezpečných látek znečišťujících ovzduší (HAP) a dalších nečistot ve vzduchu z výfukových plynů. Zde je podrobné vysvětlení, jak RTO funguje:

1. Vstupní plénum: Výfukové plyny obsahující znečišťující látky vstupují do RTO přes vstupní komoru.

2. Lůžka tepelného výměníku: RTO obsahuje několik lůžek výměníků tepla naplněných médiem akumulujícím teplo, typicky keramickými materiály nebo strukturovaným těsněním. Lůžka výměníků tepla jsou uspořádána v párech.

3. Průtokové regulační ventily: Ventily pro řízení průtoku řídí proudění vzduchu a řídí směr výfukových plynů přes RTO.

4. Spalovací komora: Výfukové plyny, nyní nasměrované do spalovací komory, se zahřívají na vysokou teplotu, typicky mezi 1400 °F (760 °C) a 1600 °F (870 °C). Tento teplotní rozsah zajišťuje účinnou tepelnou oxidaci znečišťujících látek.

5. Ničení VOC: Vysoká teplota ve spalovací komoře způsobuje, že VOC a další nečistoty reagují s kyslíkem, což vede k jejich tepelnému rozkladu nebo oxidaci. Tento proces rozkládá znečišťující látky na vodní páru, oxid uhličitý a další neškodné plyny.

6. Rekuperace tepla: Horké, vyčištěné plyny opouštějící spalovací komoru procházejí výstupní komorou a proudí loži výměníku tepla, které jsou v opačné fázi provozu. Teplo akumulační média v ložích absorbují teplo z odcházejících plynů, které předehřívají přicházející výfukové plyny.

7. Přepínání cyklů: Po určitém časovém intervalu regulační ventily průtoku přepnou směr proudění vzduchu, což umožní loži výměníku tepla, která předehřívala přiváděné plyny, nyní přijímat horké plyny ze spalovací komory. Cyklus se poté opakuje a zajišťuje nepřetržitý a efektivní provoz.

Výhody regeneračního tepelného oxidátoru:

RTO nabízí několik výhod v průmyslové kontrole znečištění ovzduší:

1. Vysoká účinnost: RTO mohou dosáhnout vysoké účinnosti destrukce, typicky nad 95%, účinně odstraňovat širokou škálu znečišťujících látek.

2. Rekuperace energie: Mechanismus rekuperace tepla v RTO umožňuje významné úspory energie. Předehřev přiváděných plynů snižuje spotřebu paliva potřebnou pro spalování, díky čemuž jsou RTO energeticky účinné.

3. Efektivita nákladů: Ačkoli počáteční kapitálová investice do RTO může být významná, dlouhodobé úspory provozních nákladů díky obnově energie a vysoké účinnosti ničení z něj činí nákladově efektivní řešení po celou dobu životnosti systému.

4. Soulad s životním prostředím: RTO jsou navrženy tak, aby splňovaly přísné emisní předpisy a pomáhaly průmyslovým odvětvím dodržovat normy a povolení týkající se kvality ovzduší.

5. Všestrannost: RTO zvládnou širokou škálu objemů výfukových plynů a koncentrací znečišťujících látek, díky čemuž jsou vhodné pro různé průmyslové aplikace.

Celkově lze říci, že regenerační tepelné oxidační zařízení funguje tak, že využívá rekuperaci tepla, vysokoteplotní spalování a cyklické řízení toku k účinné oxidaci znečišťujících látek a dosažení vysoké účinnosti destrukce při minimalizaci spotřeby energie.

editor by CX 2024-01-30