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绂忓窞甯傞懌缈旈緳鐢电摲鏈夐檺鍏徃瀹樻柟缃戠珯姝e紡涓婄嚎锛屾暚璇峰叧娉紒

绂忓窞甯傞懌缈旈緳鐢电摲鏈夐檺鍏徃瀹樻柟缃戠珯姝e紡涓婄嚎锛屾暚璇峰叧娉紒

绂忓窞甯傞懌缈旈緳鐢电摲鏈夐檺鍏徃鏄竴瀹朵笓涓氱敓浜т紭璐ㄨ渹绐濋櫠鐡疯搫鐑綋銆侀櫠鐡风煩闉嶇幆鐨勭幇浠e寲浼佷笟锛屾嫢鏈夋偁涔呯殑鐢熶骇鍘嗗彶锛岄泟鍘氱殑鎶鏈姏閲忓拰鍏堣繘鐨勫伐鑹鸿澶囥傚叕鍙稿骞磋嚧鍔涗簬楂樺搧璐ㄣ侀珮鎬ц兘浜у搧鐨勭敓浜х爺鍙戯紝娉ㄩ噸绉戞妧鍒涙柊锛岀Н鏋佸紑鍙戠爺鍒剁幆淇濆瀷铚傜獫闄剁摲钃勭儹浣撱侀瀺褰㈡暎鍫嗛櫠鐡风煩闉嶇幆濉枡锛屼负鍖栧伐銆佸喍閲戜笌姹借溅琛屼笟鐨勮妭鑳姐佸噺鎺掑仛鍑轰簡鍗撹秺鐨勮础鐚傝瘹淇″姟瀹烇紝绮剧泭姹傜簿鏄垜浠笉鏂潥鎸佺殑鍑嗗垯锛岄攼鎰忓垱鏂帮紝鍗撹秺鍝佽川鏄垜浠笉鏂拷姹傜殑鐩爣銆傜璇氳姹傚浗鍐呭鏂拌 绂忓窞甯傞懌缈旈緳鐢电摲鏈夐檺鍏徃鏄竴瀹朵笓涓氱敓浜т紭璐ㄨ渹绐濋櫠鐡疯搫鐑綋銆侀櫠鐡风煩闉嶇幆鐨勭幇浠e寲浼佷笟锛屾嫢鏈夋偁涔呯殑鐢熶骇鍘嗗彶锛岄泟鍘氱殑鎶鏈姏閲忓拰鍏堣繘鐨勫伐鑹鸿澶囥傚叕鍙稿骞磋嚧鍔涗簬楂樺搧璐ㄣ侀珮鎬ц兘浜у搧鐨勭敓浜х爺鍙戯紝娉ㄩ噸绉戞妧鍒涙柊锛岀Н鏋佸紑鍙戠爺鍒剁幆淇濆瀷铚傜獫闄剁摲钃勭儹浣撱侀瀺褰㈡暎鍫嗛櫠鐡风煩闉嶇幆濉枡锛屼负鍖栧伐銆佸喍閲戜笌姹借溅琛屼笟鐨勮妭鑳姐佸噺鎺掑仛鍑轰簡鍗撹秺鐨勮础鐚 璇氫俊鍔″疄锛岀簿鐩婃眰绮炬槸鎴戜滑涓嶆柇鍧氭寔鐨勫噯鍒欙紝閿愭剰鍒涙柊锛屽崜瓒婂搧璐ㄦ槸鎴戜滑涓嶆柇杩芥眰鐨勭洰鏍囥傜璇氳姹傚浗鍐呭鏂拌佹湅鍙嬪叡璋嬪彂灞曪紝鍚屽垱杈夌厡锛屽叡鍒涘弻璧 Fuzhou Xinxianglong Electric Porcelain Co., Ltd.聽is a modern enterprise specializing in producing high-quality honeycomb ceramic regenerator and ceramic saddle ring. It has a long production history, strong technical force and advanced process equipment. The company has devoted itself to the research and development of high-quality and high-performance products for many years, focusing on scientific and technological innovation, actively developing and developing environmentally friendly honeycomb ceramic regenerator and saddle-shaped bulk ceramic moment saddle ring filler, which has made outstanding contributions to energy saving and emission reduction in the chemical, metallurgical and automotive industries. 聽 Integrity, pragmatism and excellence are the principles we constantly adhere to, innovation and excellent quality are the goals we constantly pursue. We sincerely request new and old friends at home and abroad to seek common development, create brilliance and win-win situation.
2022-01-20
闄剁摲钃勭儹浣

闄剁摲钃勭儹浣 - 钃勭儹鎬ц兘涓嬮檷鐨勭紭鐢

钃勭儹浣撴槸涓涓叧閿儴浠躲備絾浠庡疄闄呭簲鐢ㄦ潵鐪嬶紝闄剁摲钃勭儹浣撳鍛藉線寰涓嶅敖浜烘剰锛屽師鍥犳槸澶氭柟闈㈢殑銆傞櫠鐡疯搫鐑綋钃勭儹鎬ц兘涓嬮檷琛ㄧ幇鍦ㄤ互涓嬫柟闈細聽1.鐮存崯銆傜儫姘斾笌绌烘皵瀵硅搫鐑綋鍙嶅鍐插埛锛屽鑷寸寤洪櫠鐡疯搫鐑綋鐨勬俯搴﹀嚭鐜伴绻佸彉鍖栵紝瀵逛簬钃勭儹绠变腑鏌愪竴鐐规潵璁诧紝鍏舵俯搴﹁鍛ㄦ湡鎬у湴蹇熷崌楂樺拰闄嶄綆100鈥200鈩冿紝杩欑鐑啿鍑诲钃勭儹浣撴潗鏂欐湁涓瀹氱殑鐮村潖浣滅敤銆傚叾鑰愭ュ喎鎬ョ儹鎬ц兘寰寰涓嶅ソ锛屽鏄撳嚭鐜扮牬鎹熺幇璞°偮2.鐑ф崯銆傚瀹わ紙涓ゅ锛夎搫鐑紡鍔犵儹鐐変腑锛岀敱浜庣┖姘斿拰澶╃噧姘旂殑鍠峰槾寰堝ぇ锛岀┖姘斻佸ぉ鐕冩皵姘旀祦娣峰悎鏁堟灉涓嶇悊鎯筹紝浼氬鑷翠笉瀹屽叏鐕冪儳銆傚綋娈嬪瓨鐨勭┖姘斿拰澶╃噧姘旇繘鍏ヨ搫鐑綋鐙皬鐨勭┖闂村唴娣峰悎锛屽鑷翠簩娆$噧鐑т粠鑰屾崯鍧忚搫鐑綋銆偮3.鐔斿寲杞寲銆傚洜鐑熸皵涓惈鏈夋哀鍖栭搧绛夋潅璐紝涓嶆柇涓庤搫鐑綋鎺ヨЕ锛屽湪鐕冪儳瀹ら珮娓╂潯浠朵笅锛屽舰鎴愪綆鐑啍鐗╋紝闄嶄綆鏉愭枡鐨勮蒋鐔旀俯搴︺傚悗闈㈤犳垚杞啍鏉愭枡鍫靛姘旀祦閫氶亾锛岄犳垚姘旀祦涓嶉氥 钃勭儹浣撴槸涓涓叧閿儴浠躲備絾浠庡疄闄呭簲鐢ㄦ潵鐪嬶紝闄剁摲钃勭儹浣撳鍛藉線寰涓嶅敖浜烘剰锛屽師鍥犳槸澶氭柟闈㈢殑銆 闄剁摲钃勭儹浣撹搫鐑ц兘涓嬮檷琛ㄧ幇鍦ㄤ互涓嬫柟闈細 聽 1.鐮存崯銆傜儫姘斾笌绌烘皵瀵硅搫鐑綋鍙嶅鍐插埛锛屽鑷寸寤洪櫠鐡疯搫鐑綋鐨勬俯搴﹀嚭鐜伴绻佸彉鍖栵紝瀵逛簬钃勭儹绠变腑鏌愪竴鐐规潵璁诧紝鍏舵俯搴﹁鍛ㄦ湡鎬у湴蹇熷崌楂樺拰闄嶄綆100鈥200鈩冿紝杩欑鐑啿鍑诲钃勭儹浣撴潗鏂欐湁涓瀹氱殑鐮村潖浣滅敤銆傚叾鑰愭ュ喎鎬ョ儹鎬ц兘寰寰涓嶅ソ锛屽鏄撳嚭鐜扮牬鎹熺幇璞° 聽 2.鐑ф崯銆傚瀹わ紙涓ゅ锛夎搫鐑紡鍔犵儹鐐変腑锛岀敱浜庣┖姘斿拰澶╃噧姘旂殑鍠峰槾寰堝ぇ锛岀┖姘斻佸ぉ鐕冩皵姘旀祦娣峰悎鏁堟灉涓嶇悊鎯筹紝浼氬鑷翠笉瀹屽叏鐕冪儳銆傚綋娈嬪瓨鐨勭┖姘斿拰澶╃噧姘旇繘鍏ヨ搫鐑綋鐙皬鐨勭┖闂村唴娣峰悎锛屽鑷翠簩娆$噧鐑т粠鑰屾崯鍧忚搫鐑綋銆 聽 3.鐔斿寲杞寲銆傚洜鐑熸皵涓惈鏈夋哀鍖栭搧绛夋潅璐紝涓嶆柇涓庤搫鐑綋鎺ヨЕ锛屽湪鐕冪儳瀹ら珮娓╂潯浠朵笅锛屽舰鎴愪綆鐑啍鐗╋紝闄嶄綆鏉愭枡鐨勮蒋鐔旀俯搴︺傚悗闈㈤犳垚杞啍鏉愭枡鍫靛姘旀祦閫氶亾锛岄犳垚姘旀祦涓嶉氥 聽 The regenerator is a key component. However, from the practical point of view, the life of ceramic regenerators is often unsatisfactory, for a variety of reasons. The thermal storage performance of ceramic regenerators is reduced in the following aspects: 聽 1. Damaged. Flue gas and air repeatedly wash the regenerator, causing frequent changes in the temperature of the Fujian ceramic regenerator. For a certain point in the regenerator, the temperature should be periodically increased and lowered 100-200 掳C periodically. The thermal shock has a certain destructive effect on the heat storage material. Its resistance to quenching and rapid heat is often poor, and it is prone to breakage. 聽 2. Burning. In a multi-chamber (two-chamber) regenerative heating furnace, due to the large nozzles of air and natural gas, the mixing effect of air and natural gas airflow is not ideal, resulting in incomplete combustion. When the remaining air and natural gas enter the space where the regenerator is narrow, the secondary combustion causes secondary combustion to damage the regenerator. 聽 3. Melt and soften. Because the flue gas contains impurities such as iron oxide, it continuously contacts the regenerator, and under the high temperature condition of the combustion chamber, a low hot melt is formed to lower the reflow temperature of the material. The back causes the reflow material to block the airflow path, causing the airflow to fail.
2022-01-11
RTO闄剁摲钃勭儹浣撳湪鐕冪儳鐐変腑浼氫骇鐢熶粈涔堜綔鐢

RTO闄剁摲钃勭儹浣撳湪鐕冪儳鐐変腑浼氫骇鐢熶粈涔堜綔鐢

RTO闄剁摲钃勭儹浣撳湪鐕冪儳鐐変腑浼氫骇鐢熶粈涔堜綔鐢紵銆銆RTO瑁呯疆涓鐑氦鎹㈣捣鍒板叧閿綔鐢ㄧ殑鏄搫鐑~鍏呯墿锛屼篃绉拌搫鐑綋锛屽父鐢ㄩ櫠鐡锋潗鏂欏仛鎴愩傘銆鍦ㄩ櫠鐡疯搫鐑綋鏂归潰锛岀洰鍓嶅湪RTO涓粡甯镐娇鐢ㄧ殑鍩烘湰涓婅繕鏄櫠鐡锋暎鍫嗗~鏂欏拰闄剁摲瑙勬暣濉枡涓ゅぇ绫汇傚湪鏁e爢濉枡鏂归潰锛氳捣鍒濋噰鐢ㄥ寲宸ヤ腑甯哥敤鐡风悆鍜岄櫠鐡烽敮闉嶇幆锛岀敤鐨勮緝澶氱殑鏄櫠鐡风煩闉嶇幆銆銆鐜颁唬闄剁摲鐭╅瀺鐜湪寮鍙i潰绉拰姘旀祦閫氶亾璁捐涓婃湁寰堝ぇ鏀硅繘锛屼粠鑰岃繘涓姝ラ槻姝簡濉枡鐨勭浉鍙犲拰闄嶄綆姘旀祦閫氳繃濉枡搴婂眰鏃剁殑鍘嬪姏鎹熷け銆偮犱粠鐩墠RTO璁惧鎶鏈殑杩涗竴姝ュ彂灞曟潵鐪嬶紝棣栧厛鏄噺灏戞帓鏀撅紝灏辫姹傛敼鍠勭噧鐑у櫒鐨勮璁″拰鐕冪儳杩囩▼锛岀壒鍒槸瀵圭噧鐑ф俯搴︾殑鎺у埗锛屼互鍙婇噰鐢ㄧ數鍔犵儹鏉ユ浛浠f补/姘旂噧鏂欙紝鍊熶互閬垮厤娣诲姞杈呭姪鐕冩枡鐕冪儳鍜岄珮娓╁彲鑳藉紩璧风殑浜屾姹℃煋;鍏舵鏄爺绌跺浣曟彁楂樻皵閫熴傚紑鍙戞晥鐜囬珮鐨勮搫鐑綋鏉ョ缉灏忚缃殑瀹圭Н锛屽熶互闄嶄綆鎶曡祫璐圭敤;鏀硅繘姘斾綋鐨勫垵濮嬪垎甯冩潵鎻愰珮钃勭儹浣撶殑鏈夋晥鍒╃敤鐜囧拰浼犵儹鏁堟灉;鏀硅繘鍒囨崲闃鏉ュ欢闀垮叾浣跨敤瀵垮懡锛涜繘涓姝ュ紑鍙戣缃腑璇稿弬鏁扮殑鑷姩妫娴嬫帶鍒讹紝涓轰簡鎻愰珮鎿嶄綔鐨勫畨鍏ㄦу拰鍙潬鎬э紝杩樻湁璁稿鍊煎緱鐮旂┒鐨勯棶棰樸傛澶栵紝RTO璁惧鐨勬暟鍊艰绠楀拰璁$畻鏈烘ā鎷熷彲鐢ㄤ簬鐞嗚В杩囩▼鐨勬搷浣滆涓哄拰浼樺寲璁惧鐨勮璁★紝骞跺湪鏌愪簺鏂归潰鍙浛浠TO鐨勪腑闂磋瘯楠屾潵鑺傜渷璐圭敤銆傘銆RTO澶勭悊鎶鏈傜敤浜庨珮娴撳害鏈夋満搴熸皵銆佹秱瑁呭簾姘斻佹伓鑷簾姘(搴熸皵娴撳害鍦500mg/L浠ヤ笂)绛夊簾姘斿噣鍖栧鐞;閫傜敤浜庡簾姘旀垚鍒嗙粡甯稿彂鐢熷彉鍖栨垨搴熸皵涓惈鏈変娇鍌寲鍓備腑姣掓垨娲绘ц“閫鐨勬垚鍒(濡傛按閾讹紝閿★紝閿岀瓑鐨勯噾灞炶捀姹藉拰纾枫佺7鍖栫墿锛岀牱绛夛紝瀹规槗浣垮偓鍖栧墏澶卞幓娲绘э紱鍚崵绱犲拰澶ч噺鐨勬按钂告皵鐨勬儏褰)锛屽惈鏈夊崵绱犵⒊姘㈠寲鍚堢墿鍙婂叾瀹冨叿鑵愯殌鎬х殑鏈夋満姘斾綋銆傚偓鍖栫噧鐑(RCO)铏界劧鐩告瘮钃勭儹寮忕噧鐑(RTO)澶勭悊鎶鏈叿鏈変竴瀹氭妧鏈紭鍔匡紝浣嗘槸RCO涓嶉傜敤浜庡惈閲戝睘钂告苯鍙婂崵绱犵殑搴熸皵锛屽洜涓哄鏄撳紩璧峰偓鍖栧墏涓瘨銆俁TO闄剁摲钃勭儹浣撱銆銆銆浠庣洰鍓峈TO瑁呯疆鎶鏈殑杩涗竴姝ュ彂灞曠湅锛孯TO钃勭儹寮忕剼鐑х倝鍔垮繀鎴愪负涓绉嶆柊鐨勬湁鏈哄簾姘斻佹秱瑁呭簾姘斻佹伓鑷簾姘旂瓑搴熸皵鍑鍖栧鐞嗚涓氱殑绗1閫夋嫨銆 RTO闄剁摲钃勭儹浣撳湪鐕冪儳鐐変腑浼氫骇鐢熶粈涔堜綔鐢紵 銆銆 RTO瑁呯疆涓鐑氦鎹㈣捣鍒板叧閿綔鐢ㄧ殑鏄搫鐑~鍏呯墿锛屼篃绉拌搫鐑綋锛屽父鐢ㄩ櫠鐡锋潗鏂欏仛鎴愩 銆銆 鍦ㄩ櫠鐡疯搫鐑綋鏂归潰锛岀洰鍓嶅湪RTO涓粡甯镐娇鐢ㄧ殑鍩烘湰涓婅繕鏄櫠鐡锋暎鍫嗗~鏂欏拰闄剁摲瑙勬暣濉枡涓ゅぇ绫汇傚湪鏁e爢濉枡鏂归潰锛氳捣鍒濋噰鐢ㄥ寲宸ヤ腑甯哥敤鐡风悆 鍜岄櫠鐡烽敮闉嶇幆锛岀敤鐨勮緝澶氱殑鏄櫠鐡风煩闉嶇幆銆 聽 鐜颁唬闄剁摲鐭╅瀺鐜湪寮鍙i潰绉拰姘旀祦閫氶亾璁捐涓婃湁寰堝ぇ鏀硅繘锛屼粠鑰岃繘涓姝ラ槻姝簡濉枡鐨勭浉鍙犲拰闄嶄綆姘旀祦閫氳繃濉枡搴婂眰鏃剁殑鍘嬪姏鎹熷け銆 聽 浠庣洰鍓峈TO璁惧鎶鏈殑杩涗竴姝ュ彂灞曟潵鐪嬶紝棣栧厛鏄噺灏戞帓鏀撅紝灏辫姹傛敼鍠勭噧鐑у櫒鐨勮璁″拰鐕冪儳杩囩▼锛岀壒鍒槸瀵圭噧鐑ф俯搴︾殑鎺у埗锛屼互鍙婇噰鐢ㄧ數鍔犵儹鏉ユ浛浠f补/姘旂噧鏂欙紝鍊熶互閬垮厤娣诲姞杈呭姪鐕冩枡鐕冪儳鍜岄珮娓╁彲鑳藉紩璧风殑浜屾姹℃煋;鍏舵鏄爺绌跺浣曟彁楂樻皵閫熴傚紑鍙戞晥鐜囬珮鐨勮搫鐑綋鏉ョ缉灏忚缃殑瀹圭Н锛屽熶互闄嶄綆鎶曡祫璐圭敤;鏀硅繘姘斾綋鐨勫垵濮嬪垎甯冩潵鎻愰珮钃勭儹浣撶殑鏈夋晥鍒╃敤鐜囧拰浼犵儹鏁堟灉;鏀硅繘鍒囨崲闃鏉ュ欢闀垮叾浣跨敤瀵垮懡銆傝繘涓姝ュ紑鍙戣缃腑璇稿弬鏁扮殑鑷姩妫娴嬫帶鍒讹紝涓轰簡鎻愰珮鎿嶄綔鐨勫畨鍏ㄦу拰鍙潬鎬э紝杩樻湁璁稿鍊煎緱鐮旂┒鐨勯棶棰樸傛澶栵紝RTO璁惧鐨勬暟鍊艰绠楀拰璁$畻鏈烘ā鎷熷彲鐢ㄤ簬鐞嗚В杩囩▼鐨勬搷浣滆涓哄拰浼樺寲璁惧鐨勮璁★紝骞跺湪鏌愪簺鏂归潰鍙浛浠TO鐨勪腑闂磋瘯楠屾潵鑺傜渷璐圭敤銆 銆銆 RTO澶勭悊鎶鏈傜敤浜庨珮娴撳害鏈夋満搴熸皵銆佹秱瑁呭簾姘斻佹伓鑷簾姘(搴熸皵娴撳害鍦500mg/L浠ヤ笂)绛夊簾姘斿噣鍖栧鐞;閫傜敤浜庡簾姘旀垚鍒嗙粡甯稿彂鐢熷彉鍖栨垨搴熸皵涓惈鏈変娇鍌寲鍓備腑姣掓垨娲绘ц“閫鐨勬垚鍒(濡傛按閾讹紝閿★紝閿岀瓑鐨勯噾灞炶捀姹藉拰纾枫佺7鍖栫墿锛岀牱绛夛紝瀹规槗浣垮偓鍖栧墏澶卞幓娲绘э紱鍚崵绱犲拰澶ч噺鐨勬按钂告皵鐨勬儏褰)锛屽惈鏈夊崵绱犵⒊姘㈠寲鍚堢墿鍙婂叾瀹冨叿鑵愯殌鎬х殑鏈夋満姘斾綋銆傚偓鍖栫噧鐑(RCO)铏界劧鐩告瘮钃勭儹寮忕噧鐑(RTO)澶勭悊鎶鏈叿鏈変竴瀹氭妧鏈紭鍔匡紝浣嗘槸RCO涓嶉傜敤浜庡惈閲戝睘钂告苯鍙婂崵绱犵殑搴熸皵锛屽洜涓哄鏄撳紩璧峰偓鍖栧墏涓瘨銆 銆銆 浠庣洰鍓峈TO瑁呯疆鎶鏈殑杩涗竴姝ュ彂灞曠湅锛孯TO钃勭儹寮忕剼鐑х倝鍔垮繀鎴愪负涓绉嶆柊鐨勬湁鏈哄簾姘斻佹秱瑁呭簾姘斻佹伓鑷簾姘旂瓑搴熸皵鍑鍖栧鐞嗚涓氱殑绗1閫夋嫨銆 聽 What role does RTO ceramic regenerator play in the furnace? 聽 The key to the heat exchange in the RTO device is the heat storage filler, also known as the heat storage body, which is usually made of ceramic material. 聽 In terms of ceramic regenerators, the two types currently used in RTO are basically ceramic bulk packing and ceramic structured packing. In the case of random packing: the porcelain ball and the ceramic saw saddle ring used in the chemical industry were originally used, and the ceramic saddle ring was used more. 聽 Modern ceramic saddle rings have been greatly improved in opening area and airflow passage design to further prevent stacking of the packing and reduce pressure loss as the gas flows through the packed bed. 聽 From the further development of RTO equipment technology, the first is to reduce emissions, and it is required to improve the design and combustion process of the burner, especially the control of combustion temperature, and the use of electric heating instead of oil/gas fuel to avoid adding auxiliary. Secondary pollution caused by fuel combustion and high temperature; secondly, how to increase gas velocity. Develop high-efficiency regenerators to reduce the volume of the device, thereby reducing investment costs; improving the initial distribution of gas to improve the effective utilization and heat transfer of the regenerator; and improving the switching valve to extend its service life. Further development of automatic detection and control of parameters in the device, in order to improve the safety and reliability of the operation, there are still many problems worth studying. In addition, numerical calculations and computer simulations of RTO equipment can be used to understand the operational behavior of the process and to optimize the design of the equipment, and in some respects can replace RTO intermediate tests to save money. 聽 The RTO treatment technology is suitable for the purification of exhaust gases such as high-concentration organic waste gas, painted exhaust gas, and odorous exhaust gas (exhaust gas concentration above 500mg/L); it is suitable for the frequent changes of exhaust gas components or the components in the exhaust gas that cause catalyst poisoning or activity degradation ( Metal vapors such as mercury, tin, zinc, etc., and phosphorus, phosphide, arsenic, etc., tend to deactivate the catalyst; in the case of halogens and large amounts of water vapor, contain halogen hydrocarbons and other corrosive organic gases. Although catalytic combustion (RCO) has certain technical advantages over regenerative combustion (RTO) treatment technology, RCO is not suitable for exhaust gas containing metal vapor and halogen because it is easy to cause catalyst poisoning. 聽 From the further development of the current RTO device technology, the RTO regenerative incinerator is bound to become the first choice for a new exhaust gas purification treatment industry such as organic waste gas, painted exhaust gas and odorous exhaust gas.
2022-02-25
涓夌鐜繚甯哥敤濉枡锛屼綘鏄笉鏄彧璁よ瘑鐭╅瀺鐜~鏂欙紵

涓夌鐜繚甯哥敤濉枡锛屼綘鏄笉鏄彧璁よ瘑鐭╅瀺鐜~鏂欙紵

涓夌鐜繚甯哥敤濉枡锛屼綘鏄笉鏄彧璁よ瘑鐭╅瀺鐜~鏂欙紵鎱㈡參鐪嬶紝澶氱湅鏈夌泭鏃犲鍛紒銆銆1銆侀樁姊幆濉枡闃舵鐜~鏂欐槸瀵归矋灏旂幆鐨勬敼杩涖備笌椴嶅皵鐜浉姣旓紝闃舵鐜珮搴﹀噺鍗婏紝骞跺湪涓绔鍔犱簡閿ュ舰娉曞叞銆傘銆闅忕潃绾垫í姣旂殑鍑忓皬锛屽~鏂欏澹佸懆鍥寸殑姘斾綋鐨勫钩鍧囪矾寰勫ぇ澶у噺灏忥紝浠庤岄檷浣庝簡姘斾綋閫氳繃濉枡灞傜殑闃诲姏銆傞敟褰㈡硶鍏颁笉浠呭鍔犱簡濉枡鐨勬満姊板己搴︼紝鑰屼笖浣垮~鏂欏拰鐐规帴瑙︿箣闂寸殑涓昏鎺ヨЕ锛屼笉浠呭鍔犱簡濉枡涔嬮棿鐨勯棿闅欙紝鑰屼笖鎴愪负娑蹭綋娴佸姩鐨勬敹闆嗗拰鍒嗘暎鐐广傚~鏂欒〃闈傚畠鍙互淇冭繘娑茶啘鐨勮〃闈㈡洿鏂帮紝鏈夊埄浜庢彁楂樹紶璐ㄦ晥鐜囥傘銆闃舵鐜殑缁煎悎鎬ц兘浼樹簬椴嶅皵鐜備絾鏄病鏈夌煩闉嶇幆濉枡濂界敤銆傘銆2銆佺煩闉嶇幆濉枡鐭╅瀺鐜~鏂欏皢寮ч瀺濉枡涓ょ鐨勫姬褰㈤潰鏀逛负鐭╁舰闈紝涓斾袱闈㈠ぇ灏忎笉绛夛紝鍗虫垚涓虹煩闉嶇幆濉枡銆傘銆鐭╅瀺鐜~鏂欏爢绉椂涓嶄細濂楀彔锛屾恫浣撳垎甯冭緝鍧囧寑銆傜煩闉嶇幆濉枡涓鑸噰鐢ㄧ摲璐ㄦ潗鏂欏埗鎴愶紝鍏舵ц兘浼樹簬鎷夎タ鐜傛垚涓烘墍浣跨敤鐨勭幆褰㈠~鏂欎腑杈冧负浼樿壇鐨勪竴绉嶃傘銆3銆侀噾灞炵幆鐭╅瀺濉枡鐜舰闉嶅~鏂欙紙鍥藉绉颁负Intalox锛夋槸涓绉嶆柊鍨嬪~鏂欙紝鍏锋湁鐜舰鍜岄瀺褰㈢粨鏋勭壒寰併傚~鏂欓氬父鐢遍噾灞炲埗鎴愶紝鏁呭張绉颁负閲戝睘鐜煩闉嶅~鏂欍傘銆鐜舰闉嶅骇濉枡缁撳悎浜嗙幆褰㈠~鏂欏拰闉嶅舰濉枡鐨勪紭鐐广傚叾鏁翠綋鎬ц兘浼樹簬椴嶅皵鐜拰闃舵鐜紝瀹芥硾鐢ㄤ簬鏁h鍖呰銆備絾鏄病鏈夌煩闉嶇幆濉枡濂界敤銆 涓夌鐜繚甯哥敤濉枡锛屼綘鏄笉鏄彧璁よ瘑鐭╅瀺鐜~鏂欙紵鎱㈡參鐪嬶紝澶氱湅鏈夌泭鏃犲鍛紒 銆銆 1銆侀樁姊幆濉枡 闃舵鐜~鏂欐槸瀵归矋灏旂幆鐨勬敼杩涖備笌椴嶅皵鐜浉姣旓紝闃舵鐜珮搴﹀噺鍗婏紝骞跺湪涓绔鍔犱簡閿ュ舰娉曞叞銆 銆銆 闅忕潃绾垫í姣旂殑鍑忓皬锛屽~鏂欏澹佸懆鍥寸殑姘斾綋鐨勫钩鍧囪矾寰勫ぇ澶у噺灏忥紝浠庤岄檷浣庝簡姘斾綋閫氳繃濉枡灞傜殑闃诲姏銆傞敟褰㈡硶鍏颁笉浠呭鍔犱簡濉枡鐨勬満姊板己搴︼紝鑰屼笖浣垮~鏂欏拰鐐规帴瑙︿箣闂寸殑涓昏鎺ヨЕ锛屼笉浠呭鍔犱簡濉枡涔嬮棿鐨勯棿闅欙紝鑰屼笖鎴愪负娑蹭綋娴佸姩鐨勬敹闆嗗拰鍒嗘暎鐐广傚~鏂欒〃闈傚畠鍙互淇冭繘娑茶啘鐨勮〃闈㈡洿鏂帮紝鏈夊埄浜庢彁楂樹紶璐ㄦ晥鐜囥 銆銆 闃舵鐜殑缁煎悎鎬ц兘浼樹簬椴嶅皵鐜備絾鏄病鏈夌煩闉嶇幆濉枡濂界敤銆 銆銆 2銆佺煩闉嶇幆濉枡 鐭╅瀺鐜~鏂欏皢寮ч瀺濉枡涓ょ鐨勫姬褰㈤潰鏀逛负鐭╁舰闈紝涓斾袱闈㈠ぇ灏忎笉绛夛紝鍗虫垚涓虹煩闉嶇幆濉枡銆 銆銆 鐭╅瀺鐜~鏂欏爢绉椂涓嶄細濂楀彔锛屾恫浣撳垎甯冭緝鍧囧寑銆傜煩闉嶇幆濉枡涓鑸噰鐢ㄧ摲璐ㄦ潗鏂欏埗鎴愶紝鍏舵ц兘浼樹簬鎷夎タ鐜傛垚涓烘墍浣跨敤鐨勭幆褰㈠~鏂欎腑杈冧负浼樿壇鐨勪竴绉嶃 銆銆 3銆侀噾灞炵幆鐭╅瀺濉枡 鐜舰闉嶅~鏂欙紙鍥藉绉颁负Intalox锛夋槸涓绉嶆柊鍨嬪~鏂欙紝鍏锋湁鐜舰鍜岄瀺褰㈢粨鏋勭壒寰併傚~鏂欓氬父鐢遍噾灞炲埗鎴愶紝鏁呭張绉颁负閲戝睘鐜煩闉嶅~鏂欍 銆銆 鐜舰闉嶅骇濉枡缁撳悎浜嗙幆褰㈠~鏂欏拰闉嶅舰濉枡鐨勪紭鐐广傚叾鏁翠綋鎬ц兘浼樹簬椴嶅皵鐜拰闃舵鐜紝瀹芥硾鐢ㄤ簬鏁h鍖呰銆備絾鏄病鏈夌煩闉嶇幆濉枡濂界敤銆 聽 Three kinds of commonly used fillers for environmental protection, do you only know the saddle ring packing? Look slowly, look more useful and harmless! 聽 1. Step ring packing The step ring packing is an improvement to the Pall ring. Compared to the Pall ring, the step ring height is halved and a tapered flange is added at one end. 聽 As the aspect ratio decreases, the average path of gas around the outer wall of the packing is greatly reduced, thereby reducing the resistance of the gas through the packing layer. The tapered flange not only increases the mechanical strength of the packing, but also causes the main contact between the packing and the point contact, which not only increases the gap between the packings, but also becomes the collection and dispersion point of the liquid flow. Filler surface. It can promote the surface renewal of the liquid film and help to improve the mass transfer efficiency. 聽 The overall performance of the step ring is better than the Pall ring. But no saddle ring packing is easy to use. 聽 2, the saddle ring packing The saddle ring packing changes the curved surface at both ends of the arc saddle packing into a rectangular surface, and the sizes of the two sides are different, that is, the saddle ring packing. 聽 The saddle ring packing does not stack when stacked, and the liquid distribution is relatively uniform. The saddle ring packing is generally made of porcelain material and its performance is better than that of the Raschig ring. It is an excellent one of the annular fillers used. 聽 3, metal ring moment saddle filler The annular saddle filler (known locally as Intalox) is a new type of filler with annular and saddle structure features. The filler is usually made of metal, so it is also called metal ring saddle filler. 聽 The annular saddle packing combines the advantages of an annular packing and a saddle packing. Its overall performance is superior to the Pall ring and step ring, which is widely used in bulk packaging. But no saddle ring packing is easy to use.
2022-03-24
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