مؤكسد حراري متجدد Rto من نوع السرير/نوع الغرفة Rto عالي الجودة من الصين

معلومات اساسية.

نموذج رقم.

RTO مذهلة

يكتب

محرقة

كفاءة عالية

100

توفير الطاقة

100

صيانة منخفضة

100

سهولة التشغيل

100

العلامة التجارية

بجامازينج

حزمة النقل

في الخارج

مواصفة

111

أصل

الصين

رمز النظام المنسق

2221111

وصف المنتج

رتو

مؤكسد حراري متجدد

بالمقارنة مع الاحتراق الحفزي التقليدي، فإن المؤكسد الحراري المباشر؛ يتميز RTO بكفاءة تسخين عالية، وتكلفة تشغيل منخفضة، والقدرة على معالجة غاز النفايات منخفض التركيز وتدفق كبير؛ عندما يكون تركيز المركبات العضوية المتطايرة مرتفعًا، يمكن تحقيق إعادة تدوير الحرارة الثانوية، مما يقلل بشكل كبير من تكلفة التشغيل؛ لأن RTO يمكنه تسخين غاز النفايات مسبقًا بمستويات من خلال مجمع الحرارة الخزفي، مما قد يجعل غاز النفايات ساخنًا تمامًا ومتشققًا بدون زاوية ميتة (كفاءة المعالجة> 99٪)؛ مما يقلل من أكاسيد النيتروجين في غاز العادم؛ إذا كانت كثافة المركبات العضوية المتطايرة> 1500 مجم / متر مكعب؛ عندما يصل غاز النفايات إلى منطقة التكسير، يتم تسخينه إلى درجة حرارة التكسير بواسطة مجمع الحرارة، سيتم إغلاق الموقد في هذه الحالة.

يمكن تقسيم RTO إلى نوع الغرفة والنوع الدوار وفقًا لاختلاف وضع التشغيل. يتمتع النوع الدوار RTO بمزايا في ضغط النظام، واستقرار درجة الحرارة، ومقدار الاستثمار، وما إلى ذلك.

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العنوان: الطابق الثامن، E1، مبنى Pinwei، طريق Dishengxi، Yizhuang، ZheJiang، الصين

نوع العمل: مصنع/شركة تصنيع، شركة تجارية

نطاق العمل: الكهرباء والإلكترونيات، المعدات والمكونات الصناعية، آلات التصنيع والمعالجة، المعادن والطاقة

شهادة نظام الإدارة: ISO 9001، ISO 14001

المنتجات الرئيسية: Rto، خط طلاء الألوان، خط الجلفنة، سكين الهواء، قطع غيار لخط المعالجة، الطلاء، المعدات المستقلة، بكرة الحوض، مشروع التجديد، المنفاخ

مقدمة عن الشركة: شركة ZheJiang Amazing Science & Technology Co., Ltd هي شركة مزدهرة عالية التقنية، تقع في منطقة التنمية الاقتصادية والتكنولوجية في ZheJiang (BDA). تلتزم شركتنا بمفهوم الواقعية والإبداع والتركيز والكفاءة، وتخدم بشكل أساسي صناعة معالجة غازات النفايات (VOCs) والمعدات المعدنية في الصين وحتى العالم أجمع. لدينا تكنولوجيا متقدمة وخبرة غنية في مشروع معالجة غازات النفايات VOCs، والذي تم تطبيق مرجعه بنجاح في صناعة الطلاء والمطاط والإلكترونيات والطباعة وما إلى ذلك. لدينا أيضًا سنوات من تراكم التكنولوجيا في البحث وتصنيع خط معالجة الفولاذ المسطح، ونمتلك ما يقرب من 100 مثال للتطبيق.

تركز شركتنا على البحث والتصميم والتصنيع والتركيب والتشغيل لنظام معالجة غاز النفايات العضوية المتطايرة ومشروع تجديد وتحديث خط معالجة الفولاذ المسطح لتوفير الطاقة وحماية البيئة. يمكننا تزويد العملاء بالحلول الكاملة لحماية البيئة وتوفير الطاقة وتحسين جودة المنتج وغيرها من الجوانب.

نحن نشارك أيضًا في قطع الغيار المختلفة والمعدات المستقلة لخط طلاء الألوان، خط الجلفنة، خط التخليل، مثل الأسطوانة، المقرن، المبادل الحراري، جهاز الاسترداد، سكين الهواء، المنفاخ، اللحام، مستوي التوتر، ممر الجلد، مفصل التمدد، القص، الموصل، الخياطة، الموقد، الأنبوب المشع، محرك التروس، المخفض، إلخ.

How do regenerative thermal oxidizers comply with emissions regulations?

Regenerative thermal oxidizers (RTOs) are designed to help industries comply with emissions regulations and air quality standards. They employ several mechanisms to ensure compliance:

• Pollutant Destruction Efficiency: RTOs are engineered to achieve high destruction efficiencies for pollutants, typically exceeding 99%. This means that the vast majority of volatile organic compounds (VOCs) and hazardous air pollutants (HAPs) present in industrial exhaust streams are effectively destroyed, reducing their emissions to levels that meet or exceed regulatory requirements.
• Emission Monitoring and Reporting: RTOs often incorporate monitoring systems to measure and record various parameters, including pollutant concentrations, temperature, airflow rates, and pressure differentials. These systems enable operators to continuously monitor the performance of the RTO and ensure compliance with emissions regulations. The collected data can be used for reporting purposes to demonstrate compliance to regulatory authorities.
• Compliance with Emission Limits: RTOs are designed and operated to meet specific emission limits set by local, regional, and national regulatory agencies. These emission limits define the maximum allowable concentrations or mass emissions of pollutants that can be released into the atmosphere. RTOs are equipped with control mechanisms, such as combustion chambers, heat recovery systems, and monitoring devices, to achieve and maintain emission levels within the prescribed limits.
• Regulatory Standards and Certifications: RTOs are designed and manufactured in accordance with industry standards and guidelines, such as those set by environmental protection agencies and organizations. Compliance with these standards ensures that the RTOs meet specific criteria for performance, safety, and emissions control. Additionally, some RTO manufacturers may obtain certifications or approvals from regulatory bodies to validate their equipment’s compliance with emissions regulations.
• Periodic Inspections and Maintenance: Regular inspections, maintenance, and performance evaluations are essential to ensure ongoing compliance with emissions regulations. These activities help identify any potential issues or deviations from the required performance levels and allow for timely corrective actions. Proper maintenance practices, such as cleaning of heat exchangers, replacement of damaged components, and calibration of monitoring devices, contribute to maintaining the RTO’s effectiveness in emissions control.

It’s important to note that compliance with emissions regulations is a shared responsibility between the industry operating the RTO and the regulatory authorities overseeing environmental compliance. Industries must follow proper operating procedures, adhere to emission limits, and maintain the RTO in accordance with manufacturer’s guidelines and regulatory requirements to ensure continuous compliance.

Can regenerative thermal oxidizers handle corrosive exhaust gases?

Regenerative thermal oxidizers (RTOs) can be designed to handle corrosive exhaust gases effectively. However, the ability of an RTO to handle corrosive gases depends on several factors, including the choice of construction materials, operating conditions, and the specific corrosive nature of the exhaust gases. Here are some key points regarding the handling of corrosive exhaust gases in RTOs:

• Material Selection: The selection of appropriate construction materials is crucial when dealing with corrosive gases. RTOs can be constructed using materials that offer high resistance to corrosion, such as stainless steel, corrosion-resistant alloys (e.g., Hastelloy, Inconel), or coated materials. The choice of materials depends on the specific corrosive compounds present in the exhaust gases and their concentrations.
• Corrosion-Resistant Coatings: In addition to selecting corrosion-resistant materials, applying protective coatings can enhance the resistance of the RTO components to corrosive gases. Coatings such as ceramic coatings, epoxy coatings, or acid-resistant paints can provide an extra layer of protection against corrosion.
• Temperature Control: Maintaining appropriate operating temperatures in the RTO can help mitigate the corrosive effects of the exhaust gases. Higher temperatures can promote the decomposition of corrosive compounds, reducing their corrosive potential. Additionally, operating at higher temperatures can enhance the self-cleaning effect and prevent the accumulation of corrosive deposits on the surfaces.
• Gas Conditioning: Prior to entering the RTO, the exhaust gases can undergo gas conditioning processes to reduce their corrosive nature. This may involve pre-treatment methods such as scrubbing or neutralization to remove or neutralize corrosive compounds and reduce their concentration.
• Monitoring and Maintenance: Regular monitoring of the RTO performance and periodic maintenance are essential to ensure the effective handling of corrosive exhaust gases. Monitoring systems can track variables such as temperature, pressure, and gas composition to detect any deviations that may indicate corrosion-related issues. Proper maintenance, including cleaning and inspection of the components, helps identify and address any corrosion concerns in a timely manner.

It is important to note that the corrosiveness of exhaust gases can vary significantly depending on the specific industrial process and the pollutants involved. Therefore, when designing an RTO for handling corrosive gases, it is advisable to consult with experienced engineers or RTO manufacturers who can provide guidance on the appropriate design considerations and material selection.

By employing suitable materials, coatings, temperature control, gas conditioning, and maintenance practices, RTOs can effectively handle corrosive exhaust gases while ensuring their long-term performance and durability.

What industries commonly use regenerative thermal oxidizers?

Regenerative thermal oxidizers (RTOs) are widely used in various industries that generate volatile organic compounds (VOCs), hazardous air pollutants (HAPs), and other harmful emissions. Some of the industries that commonly use RTOs for air pollution control include:

• Chemical Manufacturing: RTOs are extensively employed in chemical manufacturing processes that produce solvents, paints, coatings, adhesives, and other chemical products. These industries often generate significant amounts of VOCs that require effective control and abatement.
• Printing and Packaging: The printing and packaging industry utilizes RTOs to control the emissions of VOCs and HAPs from ink drying, coating, and solvent-based processes. RTOs ensure compliance with environmental regulations while maintaining high-quality printing standards.
• Pharmaceuticals: Pharmaceutical manufacturing processes often involve the use of solvents and organic compounds, leading to the generation of VOCs. RTOs provide an effective solution for capturing and destroying these emissions, ensuring a safe and environmentally friendly production environment.
• Paint and Coatings: RTOs are commonly employed in paint and coatings manufacturing facilities to control VOC emissions during the curing and drying processes. By effectively destroying VOCs, RTOs help reduce the environmental impact of these industries while maintaining product quality.
• Furniture and Woodworking: The furniture and woodworking industry utilizes RTOs to control emissions from processes such as painting, staining, and varnishing. RTOs help remove VOCs and HAPs generated during these operations, promoting a healthier working environment and reducing the impact on surrounding communities.
• Food Processing: Certain food processing operations generate VOCs and odorous compounds. RTOs are used in these industries to capture and treat emissions from cooking, baking, frying, and other food-related processes. RTOs ensure compliance with air quality standards while minimizing the impact on food quality and safety.
• Chemical Storage and Handling: Facilities involved in the storage and handling of chemicals, such as bulk liquid terminals and chemical distribution centers, may utilize RTOs to control emissions from venting and vapor recovery systems. RTOs help mitigate the release of VOCs and HAPs during various storage and transfer operations.

These are just a few examples, and RTOs can be found in many other industries that generate VOCs and HAPs. RTOs provide a versatile and effective solution for air pollution control, ensuring compliance with environmental regulations and promoting sustainable industrial practices.

editor by CX 2024-03-05