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      2. 產品中心

        冷凝回收-高濃度VOCs處理 熱氧化技術-高濃度VOCs處理 綜合治理解決方案-低濃度VOCs處理
        沸石濃縮轉輪技術 熱氧化技術定義及分類 催化氧化(CTO/RCO) 熱力學直接氧化(TO) 蓄熱式熱力學氧化(RTO)

        熱氧化技術

        沸石轉輪濃縮技術Zeolite Rotor Concentration Principle

        工藝原理 / Process Characteristics ◆ VOC 濃縮裝置可以非常有效的凈化和濃縮含有 VOCs 的氣體,通過和氧化裝置或者回收裝置組合可以極大降低 VOC的處置成本。尤其對于大風量,低濃度的氣體。
        ◆ VOC 濃縮轉輪使用各種疏水性分子大量浸制到蜂窩陶瓷中,再經過高溫焙燒生成。濃縮轉輪被密封分為:處理區,再生區以及冷卻區三個區域 。整個轉輪由一個齒輪馬達驅動。
        ◆ 含有 VOC 的被處理空氣(通常需要前置過濾)被送到濃縮裝輪處理區,在處理區 VOC 被吸附后,經過凈化的氣體從處理區排入煙囪。
        ◆ 轉輪的脫附區鄰近處理區。濃縮的 VOC可以用少量的高溫脫附風脫附出來,從而達到濃縮的效果(濃縮倍率:5-20 倍),然后進入后處理裝置。
        ◆ 脫附后的轉輪進入冷卻區進行冷卻。冷卻風可以是一小部分待處理的含 VOC的氣體,這部分氣體可以進入換熱器或者加熱器加熱成為脫附風。

        The desorbed part of the rotor is further rotated to the cooling zone, where the zone is cooled by the cooling gas. A part of VOC laden exhaust gas from the factory passes through the cooling zone and is
        transferred to a heat exchanger or a heater to be heated and utilized as desorption air.

        VOC concentration rotor is made of honeycomb inorganic paper as a substrate, in which the High-Silica zeolite (Molecular Sieve) is impregnated. The rotor is divided into 3 zones such as process, desorption and
        cooling zones by the casing structure and heat resistance air sealing. The rotor is constantly rotated at the optimum rotation speed by a geared motor.

        VOC laden exhaust gas passes through the process zone of the rotor being continuously rotated, and the incombustible zeolite in the rotor adsorbs VOCs and exhausts purified gas to the ambient.
        VOC adsorbed part of the rotor is rotated to the desorption zone, where the adsorbed VOCs can be desorbed with small amount of high temperature desorption air and be concentrated to the high concentration
        level (5 to 20 times). Then, the high concentrated VOC gas is transferred to appropriate post treatment systems such as incinerators or recovery systems.

        The desorbed part of the rotor is further rotated to the cooling zone, where the zone is cooled by the cooling gas. A part of VOC laden exhaust gas from the factory passes through the cooling zone and is transferred
        to a heat exchanger or a heater to be heated and utilized as desorption air.
        技術優勢 / Process Characteristics

        高效能 ? 高效率 / High performance & efficiency 將吸附性能極好的疏水性分子篩作為吸附劑使用,對于廣泛的 VOC 種類,不同的運轉條件,都可以提供卓越的性能 Using High silica zeolites with enormous adsorption capacity allows our VOC concentrator to flexibly treat various kinds of VOCs and work under different conditions of operation.

        高沸點的溶劑處理 / Capability of treating VOCs with high boiling point 用活性炭時因為有再生溫度的限制而無法處理高沸點的 VOC, 對于使用疏水性的分之篩時,可以利用其不燃性。高耐熱性的特點可以在高溫條件下再生,從而得以處理 Carbon material has a difficulty to treat VOCs with high boiling point due to its desorption temperature limit. In contrast, the characteristics of our zeolite rotors are incombustible and high heat resistance, which enables
        our VOC concentrator to use the adsorption air with high temperature.

        惰性 / Inertness 即使是苯乙烯和環己酮等具有熱聚性高的 VOC, 也能使用疏水性的分子篩高效處理 VOC easily polymerized by heat energy (e.g. st yrene, cyclohexanone, etc) can be effectively treated by High-Silica zeolite.

        清洗和活化 / Cleanability & activation by special heat treatment 心臟部分的濃縮裝輪因為在高溫下燒結處理而成,完全是無機的結合體。如果發生蜂窩堵塞,可以進行水洗。另外,分子篩轉輪可以根據實際情況通過高溫活化 Our zeolite rotors through calcining process have come to all inorganic material including the adhesive. Clogging in the rotor element might occur after a certain period of use. But, don’t worry!!
        The rotor is washable in a proper manner to remove accumulated dust. It’s even better that our zeolite rotor can be reactivated by heat treatment according to circumstances.

        典型應用 / Process Characteristics 宗亞的工程師隨時待命和你探討你的具體案例,幾個重要因數對于轉輪的設計選型非常重要,這些因數包含流量,溫度,相對濕度,VOC 組分以及濃度。
        以下是一個非常典型應用:

        <500ppm VOC 濃度小于 500ppm Solvent concentraion of less than 500 ppm

        > 40℃ VOC 沸點大于40℃ Solvent with boiling points greater 40℃

        < 50℃ 入口溫度小于 50℃ Ambient temperature less than 50℃

        < 90% 相對濕度小于 90% Relative humidity less than 90%

        CTO/RCO、TO/RTO

        ▲ 熱氧化技術定義、分類及行業應用

        Thermal Oxidation Technology Oxidation of VOCs to CO2, H2O using high temperatures Direct Thermal Oxidation Catalytic Oxidation Regenerative Catalytic Oxidation Regenerative Thermal Oxidation

        Industry Application Coating & Laminating Pharmaceutical Printing & Converting Semiconductor Electronics Tape & Label Painting Spray Printing Ink Petrifaction

        催化氧化/蓄熱式催化氧化 (CTO/RCO)

        Recovery of solvent type

        工藝原理 / Process Characteristics

        有機廢氣經蓄熱體或換熱器加熱后,在催化劑的作用下燃燒,氧化分解為CO2和H2O。反應后的高溫氣體經熱量回收用于預熱后續的有機廢氣后直接排放,
        或者直接返回生產環節進一步利用熱能。每個蓄熱室依次經歷蓄熱-放熱-清掃等程序,連續工作。設備運行溫度300℃左右。
        Organic exhaust gas heated by the regenerator or heat exchanger, under the action of the catalyst combustion, is oxidized into decomposition of CO2 and H2O.
        The high-temperature gas is directly released after heat recovery for preheating the subsequent organic gas, or directly returns to the production process for further use of heat. Each
        of the regenerators is subjected to heat storage, heat dissipation, and cleaning procedures in turn. Equipment operating temperature is about 300 ℃.
        轉輪+CTO 轉輪+CTO 轉輪+CTO 轉輪+RCO
        集成式RCO 集成式RCO 集成式RCO

        技術優勢 / Process Characteristics

        ■ 廢氣凈化效率高:VOCs去除效率≥98% ■ 充分回收熱能:熱回用率≥90% ■ 催化劑:貴金屬合金,催化能力強,耐沖擊、壽命長 ■ 無二次污染產生(NOx、二噁英) ■ 反應溫度低,節約能耗(為常規RTO的1/10) ■ 嵌套反應堆式設計,空間占用小 High performance & efficiency(≥98%) Very high thermal efficiency (≥90%) Catalyst: noble metal alloy, high catalytic ability, impact resistance, long life No formation of secondary products (NOx, dioxin) Low reaction temperature, energy saving (1/10 of conventional RTO) Smaller Volume

        典型應用 / Process Characteristics

        ■ 中、高VOCs濃度:150~2500ppm ■ 處理一種或多種組分VOCs ■ 廢氣流量1000~30000Nm3/h Medium and high concentration: 150~2500ppm Treatment of one or more components of VOCs Exhaust air volume: 1000~30000 Nm3/h

        熱力學氧化TO

        Recovery of solvent type

        工藝原理 / Process Characteristics

        直接熱力學氧化法是在高溫條件下,將VOCs直接氧化為CO2和H2O(g)的過程,并利用多通道換熱器回收熱量,去除效率達99.9%。 Directive thermal oxidizer (TO) converts VOCs into carbon dioxide and water vapor, using multi-channel heat exchanger to recover heat, with removal efficiency of 99.9%.

        技術優勢 / Process Characteristics

        ■ 廢氣凈化效率高:VOCs去除效率達99.9% ■ 充分回收熱能:采用余熱回收裝置,熱效率≥75% ■ 無二次污染產生(NOx、二噁英) ■ 直接利用廢氣中氧氣助燃,無需額外補充新鮮空氣 High cleaning efficiency, > 99.9% Very high thermal efficiency, ≥75% No formation of secondary products (NOx, dioxin) No extra fresh air: make use of the oxygen of process stream directly

        適用特征 / Process Characteristics

        ■ 高VOCs濃度:2500~4500ppm ■ 處理一種或多種組分的高濃度VOCs,異味氣體、
        氟利昂及各種含鹵素、氨氣的氣體
        ■ 廢氣流量100~150000Nm3/h
        High VOCs concentration: 2500~4500ppm Treatment of one or more components of VOCs Exhaust air volume:100~150000Nm3/hs

        蓄熱式熱力學氧化/RTO

        Recovery of solvent type

        工藝原理 / Process Characteristics

        采用多床固定式或旋轉式蓄熱室和燃燒室,經預熱后的有機廢氣燃燒室高溫氧化分解,凈化后的高溫尾氣經蓄熱體降溫后達標排放,蓄熱體預熱進口廢氣,節省能源。設備運行溫度800℃左右。 Directive thermal oxidizer (TO) converts VOCs into carbon dioxide and water vapor, using multi-channel heat exchanger to recover heat, with removal efficiency of 99.9%.

        分類 / Process Characteristics

        RTO作為一種高效有機廢氣凈化設備,主要分為兩大類:塔式RTO(兩塔、三塔和多塔)、旋轉式RTO。 塔式RTO 塔式RTO 塔式RTO

        旋轉式RTO在塔式RTO的基礎上進一步提高了VOCs的去除效率和熱回收效率,并減少RTO啟動的能源消耗,同時,解決了塔式RTO在閥門切換時逸散VOCs直接排入煙囪等問題。

        旋轉式RTO 旋轉式(RTO)優勢 ☆ 控制廢氣進出的閥門較少,控制程序簡單可靠 ☆ 陶瓷蓄熱體利用率高,熱回收率高達95% ☆ 壓力波動范圍小,廢氣出口濃度穩定 ☆ 維護費用較低,占地面積小 ☆ 處理效率可達99%

        技術優勢 / Process Characteristics

        ■ 廢氣凈化效率高:VOCs去除效率≥95% ■ 充分回收熱能:熱回用率≥90% ■ 無二次污染產生(NOx、二噁英) ■ 低能耗 In the exhaust gas purification efficiency: VOCs removal efficiency is more than 95% In the full recovery of energy: heat reuse rate greater than 90% No two pollution (NOx, dioxins) low power consumption

        典型應用/ Process Characteristics

        ■ 中、高VOCs濃度:250~2500ppm ■ 處理一種或多種組分VOCs ■ 廢氣流量1000~100000Nm3/h HIn the middle and high concentration of VOCs: 250 ~ 2500ppm In the processing of one or more components of VOCs In the exhaust gas flow 1000~100000Nm3/h

        示例圖片 / Process Characteristics

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