China best Rto Bed Type/Chamber Type Rto Regenerative Thermal Oxidizer

Maklumat Asas.

Model NO.

RTO yang menakjubkan

taip

Insinerator

Kecekapan Tinggi

100

Penjimatan Tenaga

100

Penyelenggaraan Rendah

100

Operasi Mudah

100

Tanda dagangan

Bjamazing

Pakej Pengangkutan

Luar negara

Spesifikasi

111

asal usul

China

Kod HS

2221111

Penerangan Produk

RTO

Pengoksida Terma Penjanaan Semula

Berbanding dengan pembakaran pemangkin tradisional,; pengoksida haba langsung,; RTO mempunyai merit kecekapan pemanasan yang tinggi,; kos operasi yang rendah,; dan keupayaan untuk merawat gas buangan kepekatan rendah fluks besar.; Apabila kepekatan VOC tinggi,; kitar semula haba sekunder boleh direalisasikan,; yang akan mengurangkan kos operasi.; Kerana RTO boleh memanaskan gas sisa mengikut tahap melalui penumpuk haba seramik,; yang boleh membuat gas buangan dipanaskan sepenuhnya dan retak tanpa sudut mati (kecekapan rawatan> 99%);,; yang mengurangkan NOX dalam gas yang meletihkan,; jika ketumpatan VOC >1500mg/Nm3,; apabila gas buangan mencapai kawasan retak,; ia telah dipanaskan sehingga suhu retak oleh penumpuk haba,; penunu akan ditutup di bawah keadaan ini.;

RTO boleh dibahagikan kepada jenis ruang dan jenis berputar mengikut mod operasi perbezaan.; RTO jenis Rotary mempunyai kelebihan dalam tekanan sistem,; kestabilan suhu,; jumlah pelaburan,; dll

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Alamat: tingkat 8, E1, bangunan Pinwei, jalan Dishengxi, Yizhuang, ZheJiang, China

Jenis Perniagaan: Pengeluar/Kilang, Syarikat Perdagangan

Julat Perniagaan: Elektrik & Elektronik, Peralatan & Komponen Industri, Jentera Pembuatan & Pemprosesan, Metalurgi, Mineral & Tenaga

Pensijilan Sistem Pengurusan: ISO 9001, ISO 14001

Produk Utama: Rto, Talian Salutan Warna, Talian Galvanisasi, Pisau Udara, Alat Ganti untuk Talian Pemprosesan, Coater, Peralatan Bebas, Gulung Sink, Projek Ubahsuai, Blower

Pengenalan Syarikat: ZheJiang Amazing Science & Technology Co., Ltd ialah sebuah syarikat berteknologi tinggi yang berkembang maju, terletak di ZheJiang Economic and Technological Development Area(BDA). Berpegang kepada konsep Realistik, Inovatif, Fokus dan Cekap, syarikat kami menyediakan perkhidmatan terutamanya dalam industri rawatan gas sisa (VOC) dan peralatan metalurgi China dan juga seluruh dunia. Kami mempunyai teknologi canggih dan pengalaman yang kaya dalam projek rawatan gas buangan VOC, yang rujukannya telah berjaya digunakan untuk industri salutan, getah, elektronik, percetakan, dll. Kami juga mempunyai pengumpulan teknologi selama bertahun-tahun dalam penyelidikan dan pembuatan flat talian pemprosesan keluli, dan mempunyai hampir 100 contoh aplikasi.

Syarikat kami menumpukan pada penyelidikan, reka bentuk, pengilangan, pemasangan dan pentauliahan sistem rawatan gas sisa organik VOC dan projek merombak dan mengemas kini untuk penjimatan tenaga dan perlindungan alam sekitar barisan pemprosesan keluli rata. Kami boleh menyediakan pelanggan penyelesaian lengkap untuk perlindungan alam sekitar, penjimatan tenaga, peningkatan kualiti produk dan aspek lain.

Kami juga terlibat dalam pelbagai alat ganti dan peralatan bebas untuk garis salutan warna, garis galvanizing, garis penjerukan, seperti penggelek, pengganding, penukar haba, recuperator, pisau udara, peniup, pengimpal, penyamara ketegangan, pas kulit, sambungan pengembangan, ricih, penyambung , penjahit, penunu, tiub berseri, motor gear, pengurang, dsb.

Adakah pengoksida terma regeneratif bising semasa operasi?

Pengoksida terma regeneratif (RTO) boleh menghasilkan bunyi semasa operasi, tetapi paras hingar biasanya berada dalam had yang boleh diterima dan boleh diuruskan dengan berkesan. Bunyi yang dihasilkan oleh RTO bergantung kepada pelbagai faktor, termasuk reka bentuk khusus sistem, saiz dan jenis kipas atau peniup yang digunakan, dan halaju dan tekanan gas ekzos.

Berikut ialah beberapa pertimbangan mengenai bunyi yang dihasilkan oleh RTO:

• Langkah-langkah Kawalan Bunyi: Pengeluar RTO selalunya menggabungkan langkah kawalan hingar ke dalam reka bentuk sistem. Langkah-langkah ini mungkin termasuk penggunaan penyenyap atau bahan penyerap bunyi di lokasi strategik dalam RTO untuk meminimumkan perambatan hingar. Dengan melaksanakan langkah-langkah ini, hingar yang dijana oleh RTO boleh dikurangkan ke tahap yang boleh diterima.
• Lokasi dan Jarak: Lokasi RTO dalam kemudahan boleh memberi kesan kepada tahap bunyi yang dirasakan. Meletakkan RTO di kawasan yang jauh daripada reseptor sensitif, seperti ruang yang diduduki atau peralatan sensitif hingar, boleh membantu meminimumkan kesan hingar pada penghuni kemudahan atau harta benda yang berdekatan.
• Penutup dan Penebat: Pengurangan hingar tambahan boleh dicapai dengan memasukkan RTO dalam perumah kalis bunyi atau menggunakan bahan penebat untuk melembapkan bunyi. Kepungan atau penebat ini boleh membantu membendung dan menyerap bunyi yang dijana oleh RTO, mengurangkan kesannya terhadap persekitaran sekeliling.
• Pertimbangan Operasi: Penyelenggaraan yang betul dan pemeriksaan tetap RTO adalah penting untuk memastikan prestasi optimum dan meminimumkan penjanaan hingar. Komponen yang tidak berfungsi, galas yang haus atau kipas yang tidak seimbang boleh menyumbang kepada peningkatan tahap bunyi. Dengan menjalankan penyelenggaraan rutin dan menangani sebarang isu dengan segera, tahap bunyi boleh dikawal.
• Pematuhan Peraturan: Peraturan dan garis panduan bunyi mungkin berbeza bergantung pada bidang kuasa dan sektor perindustrian tertentu. Adalah penting untuk menilai dan mematuhi peraturan bunyi yang terpakai untuk memastikan bahawa operasi RTO memenuhi had bunyi yang diperlukan.

Secara keseluruhan, walaupun RTO boleh menghasilkan bunyi semasa operasi, pertimbangan reka bentuk yang sesuai, langkah kawalan hingar dan pematuhan terhadap peraturan yang berkenaan boleh membantu mengurangkan kesan bunyi. Berunding dengan pengeluar RTO, jurutera akustik atau perunding alam sekitar boleh memberikan cerapan dan pengesyoran yang berharga untuk mengurus bunyi yang berkaitan dengan operasi RTO.

Are regenerative thermal oxidizers safe to operate?

Regenerative thermal oxidizers (RTOs) are designed with safety considerations to ensure their safe operation. When properly installed, operated, and maintained, RTOs provide a high level of safety. Here are some key points regarding the safety of operating RTOs:

• Combustion and Fire Safety: RTOs are designed to safely combust and destroy volatile organic compounds (VOCs) and other pollutants in the exhaust stream. They incorporate various safety features to prevent the risk of uncontrolled fires or explosions. These features may include flame arrestors, temperature sensors, pressure relief devices, and automated shutdown systems to ensure safe operation in the event of abnormal operating conditions.
• Control and Monitoring Systems: RTOs are equipped with advanced control and monitoring systems that continuously monitor various parameters such as temperature, pressure, and flow rates. These systems provide real-time data to operators, allowing them to detect any deviations from normal operating conditions promptly. Alarms and safety interlocks are often included to alert operators and initiate appropriate actions in case of abnormal situations.
• Heat Recovery and Thermal Efficiency: RTOs are designed to maximize thermal efficiency by recovering and reusing heat generated during the oxidization process. This reduces the overall energy consumption and minimizes the risk of heat buildup within the system, contributing to safe operation and preventing excessive temperatures that could pose safety hazards.
• Equipment and Material Selection: RTOs are constructed using materials that can withstand the high temperatures and corrosive conditions encountered during operation. Heat-resistant materials, such as ceramic beds or metallic heat exchangers, are commonly used. Proper material selection ensures the integrity and longevity of the equipment, reducing the risk of failures or leaks that could compromise safety.
• Compliance with Standards and Regulations: RTOs must comply with applicable safety standards and regulations. These standards define specific requirements for the design, installation, operation, and maintenance of air pollution control systems, including RTOs. Compliance with these standards ensures that the RTOs meet the necessary safety criteria and helps safeguard the health and well-being of personnel and the surrounding environment.
• Operator Training and Maintenance: Adequate operator training and regular maintenance are crucial for safe RTO operation. Operators should receive comprehensive training on the system’s operation, safety procedures, and emergency response protocols. Additionally, routine maintenance and inspections help identify and address any potential safety concerns or equipment issues before they escalate.

While RTOs are generally safe to operate, it is essential to follow the manufacturer’s guidelines, maintain proper safety protocols, and adhere to applicable regulations to ensure safe and reliable operation.

Can a regenerative thermal oxidizer handle high-volume exhaust gases?

Yes, a regenerative thermal oxidizer (RTO) is capable of handling high-volume exhaust gases emitted from industrial processes. RTOs are designed to handle a wide range of flow rates, including high-volume exhaust streams. Here are the reasons why RTOs are suitable for handling high-volume exhaust gases:

1. Scalability: RTOs are highly scalable and can be designed to accommodate varying exhaust gas volumes. The size and capacity of an RTO can be customized to match the specific requirements of the industrial process. This scalability allows RTOs to handle high-volume exhaust gases effectively.

2. Modular Design: RTOs often feature a modular design that allows multiple units to be installed in parallel. This modular configuration enables the treatment of large exhaust gas volumes by operating multiple RTO units simultaneously. The modular approach provides flexibility and ensures efficient handling of high-volume exhaust gases.

3. Large Heat Exchange Surface: RTOs incorporate structured ceramic media beds that provide a large heat exchange surface area. The media beds efficiently transfer heat between the incoming and outgoing gas streams, facilitating the oxidation of VOCs. The large heat exchange surface area enables RTOs to effectively handle high-volume exhaust gases while maintaining the required combustion temperature.

4. Heat Recovery: RTOs are known for their energy-efficient operation due to their heat recovery capabilities. The heat recovery system within an RTO captures and preheats the incoming process air by utilizing the heat energy from the outgoing exhaust stream. This heat recovery mechanism minimizes the energy consumption required to maintain the combustion temperature, making RTOs well-suited for handling high-volume exhaust gases without significantly increasing energy costs.

5. Effective Flow Distribution: RTOs are engineered to ensure proper flow distribution within the system. The design includes appropriate ductwork, valves, and dampers to evenly distribute the exhaust gases across the ceramic media beds. Effective flow distribution prevents preferential flow paths and ensures that all exhaust gases receive sufficient residence time for complete VOC destruction, even in high-volume exhaust gas applications.

6. Advanced Control Systems: Modern RTOs are equipped with advanced control systems that optimize the performance of the system. These control systems monitor and regulate various parameters, including temperature, airflow, and valve sequencing. The control systems adapt to the fluctuating exhaust gas volumes and maintain the required combustion temperature, ensuring efficient handling of high-volume exhaust gases.

In summary, regenerative thermal oxidizers (RTOs) are capable of effectively handling high-volume exhaust gases. Their scalability, modular design, large heat exchange surface, heat recovery capabilities, effective flow distribution, and advanced control systems make RTOs well-suited for industrial processes that generate substantial exhaust gas volumes.

editor oleh Dream 2024-05-14