China best Rto- Regenerative Thermal Oxidizer

Maklumat Asas.

taip

Instrumen Pemantauan Alam Sekitar

Fungsi Utama

Penyingkiran Gas Sisa

Permohonan

Industri Kimia

Jenama

Raidsant

Kecekapan Bersih

99.8%

keadaan

baru

Tanda dagangan

Raidsant

Pakej Pengangkutan

Filem Dibalut

asal usul

ZheJiang China

Penerangan Produk

HangZhou Raidsant Machinery Co.;,; Ltd.; mengambil jurusan dalam membangunkan dan mengeluarkan mesin pelletizing penyejuk serbuk inovatif dan mesin rawatan gas sisa industri yang berkaitan.; Dengan sejarah pengeluaran hampir 20 tahun,; kami mempunyai pasaran yang baik di lebih daripada 20 wilayah di China,; dan beberapa produk kami telah dieksport ke Arab Saudi, Singapura, Mexico,; Brazil,;Sepanyol,; Amerika,; Rusia dan Korea,; dan lain-lain;

Spesifikasi:;

* Lebih padat daripada kemudahan sedia ada 
* Kos operasi rendah 
* Jangka hayat kemudahan yang panjang 
* Tiada perubahan tekanan

Tujuan:;

Sistem penjimatan tenaga yang membakar sebatian organik meruap (VOC); dan sisa gas dengan menggunakan haba,; dan ia mengumpul lebih 99.;8% haba buangan gas ekzos dengan menggunakan bahan penjana semula seramik (mangkin); dengan luas permukaan yang besar dan kehilangan tekanan rendah.;

Permohonan:;

1.; Proses pengeringan mengecat
2.; proses percetakan logam
3.; proses pengeringan gentian
4.; proses pita pelekat
5.; proses rawatan sisa
6.; proses pembuatan semikonduktor
7.; asap,; proses kuih-muih dan membakar
8.; proses petrokimia,; 
9.; proses pembuatan ubat dan makanan,; 
10.; proses penjanaan VOC yang lain

Kelebihan:;

 * Lebih padat daripada kemudahan sedia ada
 * Tiada perubahan tekanan
 * Kadar pemulihan haba tinggi (lebih 95%);
 * Rawatan VOC yang sempurna (lebih 99.;8%);
  * Jangka hayat kemudahan yang panjang
  * Kos operasi rendah
  * Boleh dibuat dalam bulatan atau segi empat

Penerangan Umum dan Ciri:; 

1.; Prinsip operasi
 Kaedah pengendalian yang menukar nyahcas secara berterusan dengan memutarkan Injap Putar

2.; Perubahan Tekanan Proses
  Tiada perubahan tekanan kerana arah angin berubah mengikut susunan mengikut putaran Injap Putar

3.; Kos Pelaburan
 Sekitar 70% daripada Jenis Katil

4.; Ruang Pemasangan
 Ia adalah kapal tunggal jadi ia padat dan memerlukan ruang pemasangan yang kurang.;

5.; Penyelenggaraan
 Mudah untuk menyelenggaranya kerana Rotary Valve adalah satu-satunya 1 bahagian yang bergerak.;
 Bahagian pengedap Rotary Valve jarang haus kerana ia berputar pada kelajuan rendah.;

6.; Kestabilan
Tiada risiko dalam proses kerana ia sentiasa dibuka walaupun Rotary Valve menghadapi masalah.;

7.; Kecekapan Rawatan
 Kecekapan rawatan dikekalkan kerana bahagian pengedap jarang haus walaupun ia dikendalikan untuk masa yang lama.;

Alamat: No.3, Jalan Tengah Zhenxin, Zon Pembangunan Ekonomi, HangZhou, ZheJiang

Jenis Perniagaan: Pengeluar/Kilang, Syarikat Perdagangan

Julat Perniagaan: Bahan Kimia, Elektrik & Elektronik, Jentera Pembuatan & Pemprosesan, Keselamatan & Perlindungan

Pensijilan Sistem Pengurusan: ISO 9001

Produk Utama: Pelletizer, Flaker, Pastillator, Granulator, Chemical Pelletizer, Vocs

Pengenalan Syarikat: HangZhou Raidsant Machinery Co., Ltd., sebelum ini dikenali sebagai Kilang Jentera Plastik HangZhou Xinte mengambil jurusan dalam menghasilkan jentera kitar semula plastik yang inovatif. Dengan pengalaman hampir 20 tahun, kami mempunyai pasaran yang baik di 20 wilayah di China, dan beberapa produk kami telah dieksport ke Indonesia, Rusia dan Vietnam, dsb. Produk utama kami termasuk DZ Type Pastillator, barisan kitar semula tayar sisa, Big Caliber Plastic Talian kitar semula mesin pencincang paip, mesin salutan timah penyepuhlindapan berterusan, PET jenis QX, Talian basuh PE & badan kapal, penghancur kitar semula plastik SDP dua rel, pemotongan panas SJ unit pembuatan butiran, barisan produk tiub PVC (cinquefoil), barisan produk bahan PVC berbentuk ganjil untuk pintu dan tingkap, barisan produk butiran dalam air dan Mesin pencincang untuk plastik dan kitar semula. Kami memperoleh 5 paten teknikal.

Syarikat kami memberi penekanan kepada pembinaan semula teknikal, mengimport teknologi canggih dari dalam dan luar negara, dan membangunkan produk baharu secara berterusan. Prinsip kami adalah mencabar untuk kualiti tinggi, menawarkan produk terbaik. Kami sedang berusaha untuk merealisasikan slogan kami. Memuaskan pelanggan kami adalah usaha kami yang kekal.

Kami sedang mencari pelanggan atau ejen luar negara. Jika anda berminat dengan cadangan kami, sila beritahu kami produk mana yang paling mungkin menarik minat anda atau pelanggan anda. Kami sepatutnya sangat berterima kasih jika anda memberi kami beberapa idea tentang prospek pasaran untuk produk kami. Kami berharap untuk mendengar maklumat yang menggalakkan daripada anda tidak lama lagi! Adalah menjadi matlamat kami bahawa kami berharap kami dapat membina hubungan yang baik dengan anda sekarang atau dalam masa terdekat. Sila jangan teragak-agak untuk menghubungi kami jika anda mempunyai sebarang pertanyaan atau permintaan.

Kami juga mengalu-alukan kedatangan anda ke syarikat kami untuk membincangkan perniagaan dan berunding dengan kami. Untuk meluaskan lagi pasaran dan pelanggan kami, syarikat kami mengalu-alukan pelanggan dari dalam dan luar negara dalam isyarat jenama baharu berdasarkan konsep pengurusan baharu sepenuhnya—kualiti, penghormatan, perkhidmatan. Kami sedang mencari sistem kualiti pengurusan ISO 90001 untuk memenuhi keperluan pelanggan kami!

Can regenerative thermal oxidizers be used for odor control in sewage treatment plants?

Regenerative thermal oxidizers (RTOs) are not commonly used for odor control in sewage treatment plants. While RTOs are effective in controlling gaseous pollutants, their application for odor control in wastewater treatment facilities has certain limitations and considerations.

Here are some key points to consider regarding the use of RTOs for odor control in sewage treatment plants:

• Nature of Odorous Compounds: Odors in sewage treatment plants are primarily caused by volatile organic compounds (VOCs) and sulfur compounds released during the treatment processes. RTOs are effective in treating VOCs, but they may not be specifically designed to address sulfur compounds, which can be challenging to control through thermal oxidation.
• Operating Temperature: RTOs require high operating temperatures for efficient pollutant destruction. However, the presence of sulfur compounds in sewage treatment plant emissions can lead to corrosion and fouling at elevated temperatures, potentially impacting the performance and lifespan of the RTO system.
• Complex Odor Mixture: Odors in sewage treatment plants are often complex mixtures of various compounds. RTOs are generally designed to treat specific target pollutants and may not be optimized for the treatment of the wide range of compounds present in sewage plant odors. A comprehensive odor control strategy typically involves multiple treatment techniques tailored to the specific odor profile.
• Alternative Odor Control Technologies: Sewage treatment plants typically employ a combination of dedicated odor control technologies such as biofilters, activated carbon adsorption systems, chemical scrubbers, or other specialized methods. These technologies are specifically designed for the removal of odorous compounds and are often more suitable and efficient for odor control in wastewater treatment facilities.
• Pematuhan dengan Peraturan: Odor emissions from sewage treatment plants are subject to regulatory requirements and local community sensitivities. Sewage treatment facilities need to comply with applicable regulations and implement effective odor control measures that are proven to be efficient in mitigating the specific odor issues associated with their operations.

In summary, while RTOs are effective for controlling gaseous pollutants, they are not commonly used as the primary odor control technology in sewage treatment plants. Sewage treatment facilities typically employ dedicated odor control technologies that are specifically designed for the removal of odorous compounds and can provide optimal performance and compliance with odor regulations.

What are the startup and shutdown time requirements for a regenerative thermal oxidizer?

The startup and shutdown time requirements for a regenerative thermal oxidizer (RTO) can vary depending on several factors, including the specific design of the RTO, the size of the system, and the operating conditions. Here are some key points regarding the startup and shutdown time requirements for an RTO:

• Startup Time: The startup time for an RTO typically refers to the time it takes for the system to reach its operating temperature and stabilize for effective emission control. The startup time can range from several hours to several days, depending on the size of the RTO, the thermal capacity of the heat exchange media, and the desired operating temperature. During startup, the RTO gradually heats up the heat exchange beds or media using a burner system or other heating mechanisms until the desired temperature is reached.
• Shutdown Time: The shutdown time for an RTO refers to the time it takes to safely cool down the system and bring it to a complete stop. The shutdown time can also vary and may range from several hours to several days. During shutdown, the flow of exhaust gas is stopped, and the RTO initiates a cooling process to lower the temperature of the heat exchange media. Cooling mechanisms such as air or water may be used to expedite the cooling process and ensure safe operation.
• System Requirements: The specific startup and shutdown time requirements for an RTO are often determined by the process requirements, operational needs, and regulatory compliance. Some applications may require faster startup and shutdown times to accommodate frequent process changes, while others may prioritize energy efficiency and opt for longer startup and shutdown times to allow for heat recovery and minimize fuel consumption.
• Control Systems: Advanced control systems are typically employed to monitor and control the startup and shutdown processes of an RTO. These systems ensure that the temperature ramp-up and ramp-down rates are within safe limits and that the system operates efficiently and reliably during these phases.

It is essential to consult with RTO manufacturers or experienced engineers to determine the specific startup and shutdown time requirements for a particular RTO based on its design, size, and intended application. They can provide guidance on optimizing the startup and shutdown processes to meet the operational and regulatory needs while ensuring the safe and efficient operation of the RTO.

In summary, the startup and shutdown time requirements for an RTO can vary depending on factors such as system design, size, and operational considerations. Startup times can range from hours to days, while shutdown times can also vary. These requirements are tailored to meet the specific needs of the process and ensure effective emission control while maintaining operational safety.

Regenerative Thermal Oxidizer vs. Thermal Oxidizer

When comparing a regenerative thermal oxidizer (RTO) to a conventional thermal oxidizer, there are several key differences to consider:

1. Operation:

A regenerative thermal oxidizer operates using a cyclical process that involves heat recovery, while a thermal oxidizer typically operates in a continuous mode without heat recovery.

2. Heat Recovery:

One of the primary distinctions between the two systems is the heat recovery mechanism. An RTO utilizes heat exchanger beds filled with ceramic media or structured packing to recover heat from the outgoing gases and preheat the incoming gases, resulting in energy savings. In contrast, a thermal oxidizer does not incorporate heat recovery, leading to higher energy consumption.

3. Efficiency:

RTOs are known for their high destruction efficiency, typically above 95%, which enables effective removal of volatile organic compounds (VOCs) and other pollutants. Thermal oxidizers, on the other hand, may have slightly lower destruction efficiencies depending on the specific design and operating conditions.

4. Energy Consumption:

Due to the heat recovery mechanism, RTOs generally require less energy for operation compared to thermal oxidizers. The preheating of incoming gases in an RTO reduces the fuel consumption required for combustion, making it more energy-efficient.

5. Cost-effectiveness:

While the initial capital investment for an RTO can be higher than that of a thermal oxidizer due to the heat recovery components, the long-term operational cost savings through energy recovery and higher destruction efficiencies make RTOs a cost-effective solution over the lifespan of the system.

6. Environmental Compliance:

Both RTOs and thermal oxidizers are designed to meet emissions regulations and help industries comply with air quality standards and permits. However, RTOs typically offer higher destruction efficiencies, which can enhance environmental compliance.

7. Versatility:

RTOs and thermal oxidizers are both versatile in terms of handling a wide range of process exhaust volumes and pollutant concentrations. However, RTOs are often preferred for applications where high destruction efficiencies and energy recovery are critical.

Overall, the key distinctions between a regenerative thermal oxidizer and a thermal oxidizer lie in the heat recovery mechanism, energy consumption, efficiency, and cost-effectiveness. RTOs offer superior energy recovery and higher destruction efficiencies, making them an attractive option for industries that prioritize energy efficiency and environmental compliance.

editor by CX 2024-02-07