China factory Regenerative Thermal Oxidizer - RTO

基本訊息

型號

RTO

類型

環境監測儀器

主要功能

廢氣去除

應用

化工

品牌

雷德桑特

清潔效率

99.8%

狀態

新的

商標

雷德桑特

運輸套餐

薄膜包裹

起源

中國浙江

產品描述

杭州瑞德森機械有限公司;,;有限公司；專業開發製造創新粉末冷卻造粒機械及相關工業廢氣處理設備。具有近20年的生產歷史；我們在中國20多個省份擁有良好的市場；部分產品出口沙烏地阿拉伯、新加坡、墨西哥、巴西，；西班牙，；美國，;俄羅斯和韓國； ETC。

規格：;

* 比現有設施更緊湊
* 營運成本低
* 設施使用壽命長
* 壓力無變化

目的：;

燃燒揮發性有機化合物（VOC）的節能係統；利用熱量產生廢氣；採用陶瓷蓄熱材料（催化劑）收集99.;8%以上的廢氣餘熱；表面積大，壓力損失低；

應用：；

1.;塗裝乾燥工藝
2.;金屬印刷工藝
3.;纖維乾燥過程
4.;膠帶工藝
5.;廢棄物處理工藝
6.;半導體製造工藝
7.;抽煙，;糖果和烘焙過程
8.;石化過程；
9.;醫藥和食品製造過程；
10.;其他VOC產生過程

優點：；

* 比現有設施更緊湊
* 壓力無變化
* 熱回收率高（95%以上）；
* 完善的VOC處理（99.;8%以上）；
* 設施使用壽命長
* 營運成本低
* 可製作圓形或四邊形

一般描述與特點：；

1.;工作原理
透過旋轉旋轉閥連續改變流量的操作方法

2.;過程壓力變化
由於旋轉閥的旋轉，風向會發生順序變化，因此壓力不會變化

3.;投資成本
約 70% 的床型

4.;安裝空間
它是單一容器，因此結構緊湊，需要的安裝空間較小。

5.;維護
由於旋轉閥是唯一的 1 個移動部件，因此易於維護。
旋轉閥由於旋轉速度低，密封件很少磨損；

6.;穩定
在此過程中沒有風險，因為即使旋轉閥出現故障，它也始終打開。

7.;處理效率
即使長時間運行，密封件也很少磨損，處理效率得以維持；

地址：浙江省杭州市經濟開發區振新中路3號

業務類型: 製造商/工廠, 貿易公司

業務範圍：化工、電氣電子、製造加工機械、安全防護

管理系統認證：ISO 9001

主要產品：造粒機、刨片機、造粒機、造粒機、化學造粒機、Vocs

公司簡介：杭州瑞德森機械有限公司，前身為杭州新特塑膠機械廠，是一家專業生產創新塑膠回收機械的企業。憑藉近20年的經驗，我們在國內20個省市自治區擁有良好的市場，部分產品出口到印尼、俄羅斯、越南等。管材撕碎回收生產線、連續退火鍍錫機、QX型PET、PE及皮殼清洗生產線、SDP雙軌塑膠回收破碎機、SJ熱切造粒機組、PVC管（五葉）生產線、PVC異型材產品門窗生產線、水中顆粒生產線以及塑膠和回收粉碎機。我們獲得了5項技術專利。

本公司注重技術改造，引進國內外先進技術，不斷開發新產品。我們的宗旨是挑戰高品質，提供最好的產品。我們正在努力實現我們的口號。讓客戶滿意是我們永恆的追求。

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我們也真誠歡迎您來本公司洽談業務、洽談業務。為進一步拓展市場與客戶，本公司以全新的經營理念－品質、榮譽、服務，以全新的品牌姿態迎接國內外客戶。我們正在尋找 ISO 90001 管理品質系統來滿足客戶的要求！

蓄熱式熱氧化器

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.
熱回收： 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.

蓄熱式熱氧化器

蓄熱式熱氧化器如何處理系統中顆粒物的堆積？

蓄熱式熱氧化器 (RTO) 採用各種機制來處理系統中顆粒物的堆積。灰塵、煙灰或其他固體顆粒等顆粒物會隨著時間的推移而積累，並可能影響 RTO 的性能和效率。以下是 RTO 處理顆粒物堆積的一些方法：

預過濾： RTO 可以採用預過濾系統，例如旋風分離器或袋式過濾器，以在較大的顆粒物質進入氧化器之前將其去除。這些預過濾器捕獲並收集顆粒，防止它們進入 RTO 並減少積聚的可能性。
自潔效果： RTO 的設計目的是對熱交換介質具有自清潔作用。在 RTO 運作期間，熱廢氣流過介質會導致顆粒燃燒或分解，從而最大限度地減少顆粒的累積。高溫和湍流有助於保持介質表面清潔，並降低大量顆粒堆積的風險。
吹掃週期： RTO 通常將吹掃循環作為其操作的一部分。這些循環涉及將少量清潔空氣或氣體引入系統以清除任何殘留的顆粒物質。吹掃空氣有助於去除或燒掉任何黏附在介質上的顆粒，確保介質的持續清潔。
定期維護： 定期維護對於防止 RTO 中顆粒物堆積過多至關重要。維護活動可能包括檢查和清潔熱交換介質，檢查和更換任何磨損的墊圈或密封件，以及監控系統是否有任何顆粒積聚的跡象。定期維護有助於確保最佳性能，並最大限度地降低與顆粒物堆積相關的操作問題的風險。
監控與警報： RTO 配備了監控系統，可追蹤壓力差、溫度和流量等各種參數。這些系統可以檢測任何可能表明顆粒物堆積的異常情況或過度壓力降。可以觸發警報和警報來通知操作員，提示他們採取適當的行動，例如啟動維護或清潔程序。

值得注意的是，用於處理顆粒物堆積的具體策略可能會根據 RTO 的設計和配置以及所處理的顆粒物的特性而有所不同。 RTO製造商和營運商應考慮這些因素並採取適當的措施，以確保系統中顆粒物的有效管理。

透過結合預過濾、利用自清潔效應、實施吹掃循環、進行定期維護以及採用監控系統，RTO 可以有效處理和減少顆粒物積聚，從而長期保持其性能和效率。

蓄熱式熱氧化器

How do regenerative thermal oxidizers compare to other air pollution control devices?

Regenerative thermal oxidizers (RTOs) are highly regarded air pollution control devices that offer several advantages over other commonly used air pollution control technologies. Here’s a comparison of RTOs with some other air pollution control devices:

Comparison	蓄熱式熱氧化器 (RTO)	Electrostatic Precipitators (ESPs)	Scrubbers
Efficiency	RTOs achieve high VOC destruction efficiency, typically exceeding 99%. They are highly effective in destroying volatile organic compounds (VOCs) and hazardous air pollutants (HAPs).	ESPs are effective in collecting particulate matter, such as dust and smoke, but they are less effective in destroying VOCs and HAPs.	Scrubbers are efficient in removing certain pollutants, such as gases and particulate matter, but their performance may vary depending on the specific pollutants being targeted.
適用性	RTOs are suitable for a wide range of industries and applications, including high-volume exhaust gases. They can handle varying concentrations and types of pollutants.	ESPs are commonly used for particulate matter control in applications such as power plants, cement kilns, and steel mills. They are less suitable for VOC and HAP control.	Scrubbers are widely used for removing acid gases, such as sulfur dioxide (SO2) and hydrogen chloride (HCl), as well as certain odorous compounds. They are often employed in industries such as chemical manufacturing and wastewater treatment.
Energy Efficiency	RTOs incorporate heat recovery systems that allow for significant energy savings. They can achieve high thermal efficiency by preheating the incoming process air using the heat from the outgoing exhaust stream.	ESPs consume relatively low energy compared to other technologies, but they do not offer heat recovery capabilities.	Scrubbers generally consume more energy compared to RTOs and ESPs due to the energy required for liquid atomization and pumping. However, some scrubber designs may incorporate heat recovery mechanisms.
Space Requirements	RTOs typically require more space compared to ESPs and certain scrubber designs due to the need for ceramic media beds and larger combustion chambers.	ESPs have a compact design and require less space compared to RTOs and some scrubber configurations.	Scrubber designs vary in size and complexity. Certain scrubber types, such as packed bed scrubbers, may require a larger footprint compared to RTOs and ESPs.
維護	RTOs generally require regular maintenance of components such as valves, dampers, and ceramic media beds. Periodic media replacement may be necessary depending on the operating conditions.	ESPs require periodic cleaning of collection plates and electrodes. Maintenance activities involve the removal of accumulated particulate matter.	Scrubbers require maintenance of liquid circulation systems, pumps, and mist eliminators. Regular monitoring and adjustment of the chemical reagents used in the scrubbing process are also necessary.

It’s important to note that the selection of an air pollution control device depends on the specific pollutants, process conditions, regulatory requirements, and economic considerations of the industrial application. Each technology has its own advantages and limitations, and it’s essential to evaluate these factors to determine the most appropriate solution for effective air pollution control.

China factory Regenerative Thermal Oxidizer
editor by CX 2024-02-10