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。
我們正在尋找海外客戶或代理商。如果您對我們的提案感興趣,請讓我們知道我們的哪種產品最有可能吸引您或您的客戶。如果您能給我們一些關於我們產品的市場前景的想法,我們將不勝感激。我們希望盡快收到您的有利訊息!我們的目標是希望現在或不久的將來能與您建立良好的關係。如果您有任何問題或要求,請隨時與我們聯繫。
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!
蓄熱式熱氧化器與催化氧化器相比如何?
蓄熱式熱氧化器 (RTO) 和催化氧化器都是用來控制工業製程空氣排放的有效技術。雖然它們的用途相似,但在操作、效率和適用性方面存在顯著差異。
以下是 RTO 和催化氧化劑之間的比較:
| 蓄熱式熱氧化器 (RTO) | 催化氧化劑 |
|---|---|
| 手術: | 手術: |
| RTO 透過高溫燃燒實現排放控制,無需使用催化劑。它們依賴熱氧化過程,其中廢氣中的 VOC 和其他污染物在高溫(通常在 1,400°F 至 1,600°F 之間)和過量氧氣存在的情況下被氧化。 | 與 RTO 相比,催化氧化劑利用催化劑(通常是貴金屬,例如鉑、鈀或銠)來促進 VOC 和其他污染物在較低溫度下的氧化。此催化劑降低了氧化反應所需的活化能,使其能夠在較低溫度(約 600°F 至 900°F)下發生。 |
| 效率: | 效率: |
| RTO 以其高熱效率而聞名。他們利用再生式熱交換器系統,將熱量從處理後的廢氣中回收並傳遞到進入的未處理氣體中,從而顯著降低燃料消耗。這種熱回收機制使 RTO 更加節能。 | 催化氧化器通常比 RTO 更節能,因為它們在較低的溫度下運作。催化劑促進氧化反應,使其在較低溫度下發生,從而減少加熱廢氣的能量需求。 |
| 適用性: | 適用性: |
| RTO 特別適合污染物濃度高或流量或污染物濃度變化較大的應用。它們通常用於控制化學製造、印刷、塗料和製藥等各行業的揮發性有機化合物 (VOC) 和有害空氣污染物 (HAP)。 | 在污染物濃度相對較低且相對恆定的應用中,通常優選催化氧化劑。它們對於汽車噴漆、印刷和食品加工等應用中的 VOC 控制非常有效,這些應用中 VOC 濃度可以更低且更一致。 |
| 限制: | 限制: |
| 由於其複雜的設計和熱回收系統,RTO 與催化氧化器相比具有更高的資本成本。它們還具有較高的工作溫度,這可能會限制它們在某些製程中的適用性或需要額外的熱回收系統。 | 催化氧化劑可能對廢氣中的毒物或污染物敏感,這些毒物或污染物會隨著時間的推移而使催化劑失去活性或降解。某些化合物,例如硫、有機矽或鹵代化合物,可能會毒害催化劑,降低其有效性並需要定期更換或再生催化劑。 |
在 RTO 和催化氧化器之間進行選擇時,必須考慮應用的特定要求,包括污染物濃度、流速、溫度要求和成本考量。諮詢環境工程專業人士或設備製造商可以協助確定最適合特定排放控制需求的技術。
What is the impact of regenerative thermal oxidizers on greenhouse gas emissions?
Regenerative thermal oxidizers (RTOs) play a significant role in reducing greenhouse gas emissions. They are effective in mitigating the release of volatile organic compounds (VOCs) and hazardous air pollutants (HAPs), which are major contributors to greenhouse gas emissions and air pollution. Here are some key points regarding the impact of RTOs on greenhouse gas emissions:
- VOC and HAP Destruction: RTOs are designed to achieve high destruction efficiencies for VOCs and HAPs. These pollutants, which are often emitted from industrial processes, are oxidized within the RTO at high temperatures, typically above 95% efficiency. By converting these pollutants into carbon dioxide (CO2) and water vapor, RTOs prevent their release into the atmosphere, thereby reducing greenhouse gas emissions.
- Carbon Neutrality: While RTOs do produce CO2 as a byproduct of the oxidation process, the net impact on greenhouse gas emissions is considered minimal. This is because the CO2 generated by the RTO is derived from the VOCs and HAPs, which are themselves carbon-based compounds. The combustion of these pollutants in the RTO represents the conversion of carbon from one form to another, rather than introducing new carbon into the atmosphere. As a result, the overall carbon footprint is often considered neutral.
- Energy Efficiency: RTOs are designed to maximize energy efficiency by utilizing regenerative heat exchange systems. These systems recover and reuse a significant portion of the thermal energy from the exhaust gases, reducing the need for additional fuel consumption. By operating with high energy efficiency, RTOs help reduce the overall energy demand and associated greenhouse gas emissions from the facility.
- Compliance with Regulations: RTOs are frequently used in industrial applications to meet regulatory requirements for emissions control. By implementing RTOs, industries can achieve compliance with stringent air quality regulations and reduce their greenhouse gas emissions. Governments and environmental agencies often encourage or mandate the installation of RTOs to promote sustainable practices and minimize the environmental impact of industrial activities.
It is important to note that the specific impact of RTOs on greenhouse gas emissions can vary depending on factors such as the type and concentration of pollutants being treated, the operating conditions of the RTO, and the overall energy efficiency of the facility. Additionally, it is crucial to properly operate and maintain RTOs to ensure optimal performance and emissions control.
Overall, RTOs contribute to the reduction of greenhouse gas emissions by effectively controlling and destroying VOCs and HAPs, promoting energy efficiency, and facilitating compliance with environmental regulations.
What are the key components of a regenerative thermal oxidizer?
A regenerative thermal oxidizer (RTO) typically consists of several key components that work together to achieve effective air pollution control. The main components of an RTO include:
- 1. Combustion Chamber: The combustion chamber is where the oxidation of the pollutants takes place. It is designed to withstand high temperatures and house the ceramic media beds that facilitate heat exchange and VOC destruction. The combustion chamber provides a controlled environment for the combustion process to occur efficiently.
- 2. Ceramic Media Beds: Ceramic media beds are the heart of an RTO. They are filled with structured ceramic materials that act as a heat sink. The media beds alternate between the inlet and outlet sides of the RTO, allowing for efficient heat transfer. As the VOC-laden air passes through the media beds, it is heated by the stored heat from the previous cycle, promoting combustion and VOC destruction.
- 3. Valves or Dampers: Valves or dampers are used to direct the airflow within the RTO. They control the flow of the process air and the direction of the exhaust gases during the different phases of operation, such as the heating, combustion, and cooling cycles. Proper valve sequencing ensures optimal heat recovery and VOC destruction efficiency.
- 4. Burner System: The burner system provides the necessary heat to raise the temperature of the incoming process air to the required combustion temperature. It typically uses natural gas or another fuel source to generate the heat energy needed for the destruction of VOCs. The burner system is designed to provide stable and controlled combustion conditions within the RTO.
- 5. Heat Recovery System: The heat recovery system enables energy efficiency in an RTO. It captures and preheats the incoming process air by utilizing the heat energy from the outgoing exhaust stream. The heat exchange occurs between the ceramic media beds, allowing for significant energy savings and reducing the overall operating costs of the RTO.
- 6. Control System: The control system of an RTO monitors and regulates the operation of various components. It ensures proper valve sequencing, temperature control, and safety interlocks. The control system optimizes the performance of the RTO, maintains the desired destruction efficiency, and provides necessary alarms and diagnostics for efficient operation and maintenance.
- 7. Stack or Exhaust System: The stack or exhaust system is responsible for releasing the treated and cleaned gases into the atmosphere. It may include a stack, ductwork, and any necessary emission monitoring equipment to ensure compliance with environmental regulations.
These key components work together in a coordinated manner to provide efficient air pollution control in a regenerative thermal oxidizer. Each component plays a critical role in achieving high VOC destruction efficiency, energy recovery, and compliance with environmental standards.
editor by CX 2024-02-28
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