China Standard Regenerative Thermal Oxidizer (RTO)

Maklumat Asas.

Model NO.

RTO

Kaedah Pemprosesan

Pembakaran

Punca Tarikan

Kawalan Pencemaran Udara

Tanda dagangan

RUIMA

asal usul

China

Kod HS

84213990

Penerangan Produk

Pengoksida Terma Penjanaan Semula (RTO);
Teknik pengoksidaan yang paling banyak digunakan pada masa kini untuk
Pengurangan pelepasan VOC,; sesuai untuk merawat pelbagai pelarut dan proses.; Bergantung pada isipadu udara dan kecekapan penulenan yang diperlukan,; RTO datang dengan 2,; 3,; 5 atau 10 bilik.;

Kelebihan
Pelbagai VOC untuk dirawat
Kos penyelenggaraan yang rendah
Kecekapan Terma Tinggi
Tidak menjana sebarang pembaziran
Boleh disesuaikan untuk kecil,; aliran udara sederhana dan besar
Pemulihan Haba melalui pintasan jika kepekatan VOC melebihi titik auto-terma

Auto-terma dan Pemulihan Haba:;
Kecekapan Terma > 95%
Titik auto-terma pada 1.;2 – 1.;7 mgC/Nm3
Julat aliran udara dari 2,; 000 hingga 200,; 000m3/j

Kemusnahan VOC yang tinggi
Kecekapan penulenan biasanya melebihi 99%

Address: No 3 North Xihu (West Lake) Dis. Road, Xihu (West Lake) Dis., HangZhou, ZheJiang , China

Business Type: Manufacturer/Factory

Business Range: Manufacturing & Processing Machinery, Service

Management System Certification: ISO 14001, ISO 9001, OHSAS/ OHSMS 18001, QHSE

Main Products: Dryer, Extruder, Heater, Twin Screw Extruder, Electrochemical Corrosion Protection Equ, Screw, Mixer, Pelletizing Machine, Compressor, Pelletizer

Company Introduction: The Res. Inst of Chem. Mach of the Ministry of Chemical Industry was founded in ZheJiang in 1958, and moved to HangZhou in 1965.

The Res. Inst of Automation Kementerian Industri Kimia telah diasaskan di HangZhou pada tahun 1963.

Pada tahun 1997, Res. Inst. Daripada Chem. Mach Kementerian Industri Kimia dan Res. Inst. Automasi Kementerian Industri Kimia telah digabungkan untuk menjadi Res. Inst of Chemical Machinery and Automation of Kementerian Industri Kimia.

Pada tahun 2000, Res. Inst of Chemical Machinery and Automation of Ministry of ChemicalIndustry menyelesaikan transformasinya kepada perusahaan dan didaftarkan sebagai CHINAMFG Instituteof Chemical Machinery and Automation.

Institut Tianhua mempunyai institusi subordinat berikut:

Pusat Penyeliaan dan Pemeriksaan Kualiti Peralatan Kimia di HangZhou, Wilayah ZheJiang

Institut Peralatan HangZhou di HangZhou, Wilayah ZheJiang;

Institut Automasi di HangZhou, Wilayah ZheJiang;

HangZhou Ruima Chemical Machinery Co Ltd di HangZhou, Wilayah ZheJiang;

HangZhou Ruide Drying Technology Co Ltd di HangZhou, Wilayah ZheJiang;

HangZhouLantai Plastics Machinery Co Ltd di HangZhou, Wilayah ZheJiang;

ZheJiang Airuike Automation Technology Co Ltd di HangZhou, Wilayah ZheJiang;

Institut Jentera Kimia dan automasi HangZhou United dan Institut Relau Industri Petrokimia HangZhou United diasaskan oleh Institut CHINAMFG dan Sinopec.

Institut Tianhua mempunyai kawasan pekerjaan seluas 80 000m2 dan jumlah aset 1 Yuan (RMB). Nilai keluaran tahunan ialah 1 Yuan (RMB).

Institut Tianhua mempunyai kira-kira 916 pekerja, 75% daripada mereka adalah kakitangan profesional. Antaranya ialah 23 profesor, 249jurutera kanan, 226 jurutera. 29 profesor dan jurutera kanan menikmati subsidi khas negara, Kepada 5 orang gelaran Pakar Pertengahan Umur dan Muda dengan Sumbangan Cemerlang kepada RR China dianugerahkan

Are there any incentives or grants available for installing regenerative thermal oxidizers?

Yes, there are various incentives and grants available that can help offset the cost of installing regenerative thermal oxidizers (RTOs) and other emission control technologies. These incentives are typically offered by government agencies at the local, regional, and national levels to promote environmental sustainability, air quality improvement, and compliance with emissions regulations. However, the availability and specific details of these incentives may vary depending on the location and the specific program.

Here are some examples of incentives and grants that may be available:

• Energy Efficiency Grants: Many government agencies and utility companies offer grants and financial incentives to encourage energy efficiency measures, including the installation of energy-efficient equipment like RTOs. These grants can help offset a portion of the installation costs and may be based on factors such as energy savings, reduction in greenhouse gas emissions, or specific environmental objectives.
• Environmental Grant Programs: Some governmental organizations or environmental foundations provide grants specifically targeted at reducing emissions and improving air quality. These grants may be available for industries or businesses that invest in emission control technologies, such as RTOs, to help them comply with regulations and improve their environmental performance.
• Tax Incentives and Credits: Certain jurisdictions offer tax incentives or credits to businesses or industries that invest in environmentally friendly technologies. These incentives can significantly reduce the overall cost of installing an RTO. Examples include tax credits for energy-efficient equipment, accelerated depreciation allowances, or exemptions from sales tax on eligible equipment purchases.
• Industry-Specific Programs: Some industries or sectors may have specific grant programs or incentives tailored to their unique environmental challenges. These programs may provide financial assistance for emission control projects, including the installation of RTOs, within those industries.
• Research and Development Funding: Government agencies or research organizations often provide funding opportunities for the development and implementation of innovative emission control technologies. Businesses or research institutions involved in developing advanced RTO designs or improving RTO efficiency may be eligible for research grants or funding support.

To explore the availability of incentives and grants for installing RTOs, it is recommended to contact local environmental agencies, energy efficiency programs, or business development organizations. These entities can provide information on specific incentive programs, eligibility criteria, application procedures, and any deadlines or limitations associated with the grants.

It’s important to note that incentive programs may change over time, and their availability may depend on factors such as funding allocations and government policies. Therefore, it is advisable to stay updated with the latest information and consult with relevant authorities to determine the current incentives available for installing RTOs.

Are regenerative thermal oxidizers suitable for controlling emissions from printing presses?

Yes, regenerative thermal oxidizers (RTOs) can be suitable for controlling emissions from printing presses. Printing presses can emit volatile organic compounds (VOCs) and other air pollutants during the printing process, which need to be properly controlled to comply with environmental regulations and ensure air quality. Here are some key points regarding the suitability of RTOs for controlling emissions from printing presses:

• Kawalan pelepasan: RTOs are designed to achieve high destruction efficiencies for VOCs and hazardous air pollutants (HAPs). These pollutants are oxidized within the RTO at high temperatures, typically above 95% efficiency, converting them into carbon dioxide (CO₂) and water vapor. RTOs effectively control and reduce emissions from printing presses.
• Compatibility: RTOs can be integrated into the exhaust system of printing presses, capturing and treating the emissions before they are released into the atmosphere. The RTO is typically connected to the exhaust stack of the printing press, allowing the VOC-laden air to pass through the oxidizer for treatment.
• High Flow Rates: Printing presses can generate significant exhaust volumes due to the printing process. RTOs are designed to handle high flow rates and can accommodate the varying exhaust volumes of printing presses. This ensures effective treatment of emissions even during peak production periods.
• Kapasiti Terma: RTOs have the thermal capacity to handle the temperature variations in printing press emissions. The printing process can result in varying exhaust temperatures, and RTOs are designed to operate effectively within a wide range of temperature conditions.
• Energy Efficiency: RTO menggabungkan sistem pertukaran haba yang membolehkan pemulihan dan penggunaan semula tenaga haba. Penukar haba dalam RTO menangkap haba daripada gas ekzos yang keluar dan memindahkannya ke aliran udara atau gas proses masuk. Proses pemulihan haba ini meningkatkan kecekapan tenaga keseluruhan sistem dan mengurangkan keperluan untuk penggunaan bahan api tambahan.
• Pematuhan dengan Peraturan: Printing press emissions are subject to regulatory requirements for air quality and emissions control. RTOs are capable of achieving the necessary destruction efficiencies and can help printing press operators comply with environmental regulations. The use of RTOs demonstrates a commitment to sustainable practices and responsible management of air emissions.

It is important to note that the specific design and configuration of the RTO, as well as the characteristics of the printing press emissions, should be considered when implementing an RTO for a printing press application. Consulting with experienced engineers or RTO manufacturers can provide valuable insights into the proper sizing, integration, and performance requirements for controlling emissions from printing presses.

In summary, RTOs are a suitable technology for controlling emissions from printing presses, providing high destruction efficiencies, compatibility with printing press exhaust systems, handling high flow rates and temperature variations, energy efficiency through heat recovery, and compliance with environmental regulations.

Bagaimanakah pengoksida terma regeneratif berfungsi?

A regenerative thermal oxidizer (RTO) operates through a cyclical process that involves several key steps. Here’s a detailed explanation of how an RTO works:

1. Plenum Masuk: Gas ekzos yang mengandungi bahan pencemar memasuki RTO melalui plenum masuk.

2. Katil Penukar Haba: RTO mengandungi berbilang katil penukar haba yang diisi dengan media penyimpanan haba, biasanya bahan seramik atau pembungkusan berstruktur. Katil penukar haba disusun secara berpasangan.

3. Injap Kawalan Aliran: Injap kawalan aliran mengarahkan aliran udara dan mengawal arah gas ekzos melalui RTO.

4. Kebuk Pembakaran: Gas ekzos, kini diarahkan ke dalam kebuk pembakaran, dipanaskan pada suhu tinggi, biasanya antara 1400°F (760°C) dan 1600°F (870°C). Julat suhu ini memastikan pengoksidaan haba yang berkesan bagi bahan pencemar.

5. Kemusnahan VOC: The high temperature in the combustion chamber causes the volatile organic compounds (VOCs) and other contaminants to react with oxygen, resulting in their thermal decomposition or oxidation. This process breaks down the pollutants into water vapor, carbon dioxide, and other harmless gases.

6. Pemulihan Haba: Gas-gas panas dan tulen yang meninggalkan kebuk pembakaran melalui plenum alir keluar dan mengalir melalui katil penukar haba yang berada dalam fasa operasi yang bertentangan. Media penyimpanan haba di dalam katil menyerap haba daripada gas yang keluar, yang memanaskan gas ekzos yang masuk.

7. Penukaran Kitaran: Selepas selang masa tertentu, injap kawalan aliran menukar arah aliran udara, membenarkan katil penukar haba yang memanaskan gas masuk kini menerima gas panas daripada kebuk pembakaran. Kitaran kemudian berulang, memastikan operasi berterusan dan cekap.

Kelebihan pengoksida terma regeneratif:

RTO menawarkan beberapa kelebihan dalam kawalan pencemaran udara industri:

1. Kecekapan Tinggi: RTO boleh mencapai kecekapan pemusnahan yang tinggi, biasanya melebihi 95%, dengan berkesan menyingkirkan pelbagai jenis bahan pencemar.

2. Pemulihan Tenaga: Mekanisme pemulihan haba dalam RTO membolehkan penjimatan tenaga yang ketara. Pemanasan awal gas yang masuk mengurangkan penggunaan bahan api yang diperlukan untuk pembakaran, menjadikan RTO cekap tenaga.

3. Keberkesanan kos: Walaupun pelaburan modal awal untuk RTO boleh menjadi ketara, penjimatan kos operasi jangka panjang melalui pemulihan tenaga dan kecekapan pemusnahan yang tinggi menjadikannya penyelesaian yang kos efektif sepanjang jangka hayat sistem.

4. Pematuhan Alam Sekitar: RTO direka bentuk untuk memenuhi peraturan pelepasan yang ketat dan membantu industri mematuhi piawaian dan permit kualiti udara.

5. serba boleh: RTO boleh mengendalikan pelbagai volum ekzos proses dan kepekatan pencemar, menjadikannya sesuai untuk pelbagai aplikasi perindustrian.

Secara keseluruhannya, pengoksida terma regeneratif beroperasi dengan menggunakan pemulihan haba, pembakaran suhu tinggi, dan kawalan aliran kitaran untuk mengoksidakan bahan pencemar dengan berkesan dan mencapai kecekapan pemusnahan yang tinggi sambil meminimumkan penggunaan tenaga.

editor by CX 2024-04-16