Plant for biohydrogen cleaning from impurity gases
The invention relates to plants for biohydrogen cleaning from impurity gases, which is subsequently used as fuel to produce heat and electric energy, for power supply of motor vehicles as an alternative fuel.The plant for biohydrogen cleaning from impurity gases includes a sealed housing (1), divide...
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creator | COVALIOV Victor BOBEICĂ Valentin UNGUREANU Dumitru NENNO Vladimir COVALIOVA Olga |
description | The invention relates to plants for biohydrogen cleaning from impurity gases, which is subsequently used as fuel to produce heat and electric energy, for power supply of motor vehicles as an alternative fuel.The plant for biohydrogen cleaning from impurity gases includes a sealed housing (1), divided into a separation chamber (2), filled with an absorption liquid, and a regeneration chamber (13), both made with conical bottom. The separation chamber (2) comprises a biogas supply nozzle (3) with a valve (V1), an auxiliary tank (4) for the absorbent correction solution, with a device with a float (5), an adsorption-drainage unit (6) for afterpurification of biohydrogen, equipped with a hydraulic hitch (7), a discharge nozzle (8) with a valve (V2), and a residual CO2 sensor (9), connected to a control unit (11), and a discharge pipeline (12) with an electromagnetic valve (V3), connected to the regeneration chamber (13), which is made of diamagnetic material and on the interior part of the walls of which is placed a heat exchanger (14) with circulating superheated water, a damping grid (15) and a supporting grid (16) with cylindrical particles of magnetically soft steel. On the outer side of the chamber (13) is installed a generator (18) of the rotating electromagnetic field, connected to the unit (19) and unit (11), a vacuum gauge (26) having electrical contacts and an adsorption-drainage unit (29) for afterpurification of impurity gases, which communicates with the chamber (13) through a nozzle (27) with a hydraulic hitch (28), and on which is fixed a vacuum pump (30), equipped with a discharge nozzle (31) with an electromagnetic valve (V6), connected to the unit (11). At the same time the lower conical part of the chamber (13) comprises a discharge nozzle (20) with a valve (V4), and laterally it is connected to a pump (22), connected to the control unit (11) and with a circulating cold water discharge nozzle to the inlet of a heat exchanger (23), the output of which, through a valve (V5), is connected to a pipeline (24), provided with an injector, placed in chamber (2).
Invenţia se referă la instalaţiile pentru epurarea biohidrogenului de impurităţi gazoase, care se utilizează ulterior în calitate de carburant pentru obţinerea energiei termice şi electrice, pentru alimentarea transportului auto în calitate de combustibil de alternativă.Instalaţia pentru epurarea biohidrogenului de impurităţi gazoase include un corp ermetic (1) divizat într-o cameră de separ |
format | Patent |
fullrecord | <record><control><sourceid>epo_EVB</sourceid><recordid>TN_cdi_epo_espacenet_MD4454C1</recordid><sourceformat>XML</sourceformat><sourcesystem>PC</sourcesystem><sourcerecordid>MD4454C1</sourcerecordid><originalsourceid>FETCH-epo_espacenet_MD4454C13</originalsourceid><addsrcrecordid>eNrjZDAKyEnMK1FIyy9SSMrMz6hMKcpPT81TSM5JTczLzEtXSCvKz1XIzC0oLcosqVRITyxOLeZhYE1LzClO5YXS3Ayybq4hzh66qQX58anFBYnJqXmpJfG-LiYmpibOhsaE5AGNWiqk</addsrcrecordid><sourcetype>Open Access Repository</sourcetype><iscdi>true</iscdi><recordtype>patent</recordtype></control><display><type>patent</type><title>Plant for biohydrogen cleaning from impurity gases</title><source>esp@cenet</source><creator>COVALIOV Victor ; BOBEICĂ Valentin ; UNGUREANU Dumitru ; NENNO Vladimir ; COVALIOVA Olga</creator><creatorcontrib>COVALIOV Victor ; BOBEICĂ Valentin ; UNGUREANU Dumitru ; NENNO Vladimir ; COVALIOVA Olga</creatorcontrib><description>The invention relates to plants for biohydrogen cleaning from impurity gases, which is subsequently used as fuel to produce heat and electric energy, for power supply of motor vehicles as an alternative fuel.The plant for biohydrogen cleaning from impurity gases includes a sealed housing (1), divided into a separation chamber (2), filled with an absorption liquid, and a regeneration chamber (13), both made with conical bottom. The separation chamber (2) comprises a biogas supply nozzle (3) with a valve (V1), an auxiliary tank (4) for the absorbent correction solution, with a device with a float (5), an adsorption-drainage unit (6) for afterpurification of biohydrogen, equipped with a hydraulic hitch (7), a discharge nozzle (8) with a valve (V2), and a residual CO2 sensor (9), connected to a control unit (11), and a discharge pipeline (12) with an electromagnetic valve (V3), connected to the regeneration chamber (13), which is made of diamagnetic material and on the interior part of the walls of which is placed a heat exchanger (14) with circulating superheated water, a damping grid (15) and a supporting grid (16) with cylindrical particles of magnetically soft steel. On the outer side of the chamber (13) is installed a generator (18) of the rotating electromagnetic field, connected to the unit (19) and unit (11), a vacuum gauge (26) having electrical contacts and an adsorption-drainage unit (29) for afterpurification of impurity gases, which communicates with the chamber (13) through a nozzle (27) with a hydraulic hitch (28), and on which is fixed a vacuum pump (30), equipped with a discharge nozzle (31) with an electromagnetic valve (V6), connected to the unit (11). At the same time the lower conical part of the chamber (13) comprises a discharge nozzle (20) with a valve (V4), and laterally it is connected to a pump (22), connected to the control unit (11) and with a circulating cold water discharge nozzle to the inlet of a heat exchanger (23), the output of which, through a valve (V5), is connected to a pipeline (24), provided with an injector, placed in chamber (2).
Invenţia se referă la instalaţiile pentru epurarea biohidrogenului de impurităţi gazoase, care se utilizează ulterior în calitate de carburant pentru obţinerea energiei termice şi electrice, pentru alimentarea transportului auto în calitate de combustibil de alternativă.Instalaţia pentru epurarea biohidrogenului de impurităţi gazoase include un corp ermetic (1) divizat într-o cameră de separare (2), umplută cu lichid absorbant, şi o cameră de regenerare (13), ambele fiind executate cu fundul conic. Camera de separare (2) conţine un ştuţ (3) cu un ventil (V1) pentru introducerea biogazului, un vas auxiliar (4) pentru soluţia de corectare a absorbantului, cu un dispozitiv cu flotor (5), un bloc de uscare prin adsorbţie (6) pentru purificarea avansată a biohidrogenului, dotat cu un închizător hidraulic (7), un ştuţ de evacuare (8) cu un ventil (V2), şi un detector (9) de CO2 remanent, conectat la un bloc de comandă (11), şi o conductă de evacuare (12) cu un ventil electromagnetic (V3), racordată la camera de regenerare (13), care este executată dintr-un material diamagnetic şi pe partea interioară a pereţilor căreia este amplasat un schimbător de căldură (14) cu apă supraîncălzită circulantă, o plasă amortizoare (15) şi o plasă de sprijin (16) cu particule de formă cilindrică din oţel magnetic moale. De partea exterioară a camerei (13) este instalat un generator (18) al câmpului electromagnetic rotitor, conectat la blocul (19) şi blocul (11), un vacuummetru (26) cu contacte electrice şi un bloc de uscare prin adsorbţie (29) pentru purificarea avansată de impurităţi gazoase, care comunică cu camera (13) printr-un ştuţ (27) cu un închizător hidraulic (28), şi pe care este fixată o pompă de vacuum (30), dotată cu un ştuţ de evacuare (31) cu un ventil electromagnetic (V6), conectate la blocul (11). Totodată partea inferioară conică a camerei (13) conţine un ştuţ de evacuare (20) cu ventil (V4), iar lateral este racordată la o pompă (22), conectată la blocul de comandă (11) şi cu un ştuţ de evacuare a apei circulante reci spre intrarea unui schimbător de căldură (23), ieşirea căruia, printr-un ventil (V5), este unită la o conductă (24), dotată cu un injector, amplasat în cameră (2).
Изобретение относится к установкам для очистки биоводорода от примесных газов, который впоследствии используется в качестве топлива для получения тепловой и электрической энергии, для питания автомобильного транспорта в качестве альтернативного топлива.Установка для очистки биоводорода от примесных газов включает герметичный корпус (1), разделенный на сепарационную камеру (2), заполненную абсорбционной жидкостью, и регенерационную камеру (13), обе выполненные с коническим днищем. Сепарационная камера (2) включает патрубок (3) с вентилем (V1) для подачи биогаза, вспомогательную емкость (4) для корректировочного раствора абсорбента, с устройством с поплавком (5), адсорбционно-осушительный блок (6) для доочистки биоводорода, снабженный гидрозатвором (7), патрубок отвода (8) с вентилем (V2), и датчик (9) остаточного СО2, подсоединенным к блоку управления (11), и трубопровод отвода (12) с электромагнитным вентилем (V3), подсоединенный к регенерационной камере (13), которая выполнена из диамагнитного материала и на внутренней части стен которой расположен теплообменник (14) с циркулирующей перегретой водой, демпфирующая сетка (15) и поддерживающая сетка (16) с цилиндрическими частицами из магнитомягкой стали. С внешней стороны камеры (13) установлен генератор (18) вращающегося электромагнитного поля, подключенный к блоку (19) и блоку (11), вакуумметр (26) с электрическими контактами и адсорбционно-осушительным блоком (29) для доочистки примесных газов, который сообщается с камерой (13) через патрубок (27) с гидрозатвором (28), и на котором закреплен вакуумный насос (30), снабженный патрубком отвода (31) с электромагнитным вентилем (V6), подключенные к блоку (11). При этом нижняя коническая часть камеры (13) содержит патрубок отвода (20) с вентилем (V4), а с боку подсоединена к насосу (22), соединенному с блоком управления (11) и с патрубком отвода циркуляционной холодной воды ко входу теплообменника (23), выход которого, через вентиль (V5), подсоединен к трубопроводу (24), снабженному форсункой, размещенной в камере (2).</description><language>eng ; rum ; rus</language><subject>CHEMISTRY ; COMPOUNDS THEREOF ; INORGANIC CHEMISTRY ; METALLURGY ; NON-METALLIC ELEMENTS ; PERFORMING OPERATIONS ; PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL ; SEPARATION ; TRANSPORTING</subject><creationdate>2017</creationdate><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><linktohtml>$$Uhttps://worldwide.espacenet.com/publicationDetails/biblio?FT=D&date=20170731&DB=EPODOC&CC=MD&NR=4454C1$$EHTML$$P50$$Gepo$$Hfree_for_read</linktohtml><link.rule.ids>230,308,780,885,25564,76547</link.rule.ids><linktorsrc>$$Uhttps://worldwide.espacenet.com/publicationDetails/biblio?FT=D&date=20170731&DB=EPODOC&CC=MD&NR=4454C1$$EView_record_in_European_Patent_Office$$FView_record_in_$$GEuropean_Patent_Office$$Hfree_for_read</linktorsrc></links><search><creatorcontrib>COVALIOV Victor</creatorcontrib><creatorcontrib>BOBEICĂ Valentin</creatorcontrib><creatorcontrib>UNGUREANU Dumitru</creatorcontrib><creatorcontrib>NENNO Vladimir</creatorcontrib><creatorcontrib>COVALIOVA Olga</creatorcontrib><title>Plant for biohydrogen cleaning from impurity gases</title><description>The invention relates to plants for biohydrogen cleaning from impurity gases, which is subsequently used as fuel to produce heat and electric energy, for power supply of motor vehicles as an alternative fuel.The plant for biohydrogen cleaning from impurity gases includes a sealed housing (1), divided into a separation chamber (2), filled with an absorption liquid, and a regeneration chamber (13), both made with conical bottom. The separation chamber (2) comprises a biogas supply nozzle (3) with a valve (V1), an auxiliary tank (4) for the absorbent correction solution, with a device with a float (5), an adsorption-drainage unit (6) for afterpurification of biohydrogen, equipped with a hydraulic hitch (7), a discharge nozzle (8) with a valve (V2), and a residual CO2 sensor (9), connected to a control unit (11), and a discharge pipeline (12) with an electromagnetic valve (V3), connected to the regeneration chamber (13), which is made of diamagnetic material and on the interior part of the walls of which is placed a heat exchanger (14) with circulating superheated water, a damping grid (15) and a supporting grid (16) with cylindrical particles of magnetically soft steel. On the outer side of the chamber (13) is installed a generator (18) of the rotating electromagnetic field, connected to the unit (19) and unit (11), a vacuum gauge (26) having electrical contacts and an adsorption-drainage unit (29) for afterpurification of impurity gases, which communicates with the chamber (13) through a nozzle (27) with a hydraulic hitch (28), and on which is fixed a vacuum pump (30), equipped with a discharge nozzle (31) with an electromagnetic valve (V6), connected to the unit (11). At the same time the lower conical part of the chamber (13) comprises a discharge nozzle (20) with a valve (V4), and laterally it is connected to a pump (22), connected to the control unit (11) and with a circulating cold water discharge nozzle to the inlet of a heat exchanger (23), the output of which, through a valve (V5), is connected to a pipeline (24), provided with an injector, placed in chamber (2).
Invenţia se referă la instalaţiile pentru epurarea biohidrogenului de impurităţi gazoase, care se utilizează ulterior în calitate de carburant pentru obţinerea energiei termice şi electrice, pentru alimentarea transportului auto în calitate de combustibil de alternativă.Instalaţia pentru epurarea biohidrogenului de impurităţi gazoase include un corp ermetic (1) divizat într-o cameră de separare (2), umplută cu lichid absorbant, şi o cameră de regenerare (13), ambele fiind executate cu fundul conic. Camera de separare (2) conţine un ştuţ (3) cu un ventil (V1) pentru introducerea biogazului, un vas auxiliar (4) pentru soluţia de corectare a absorbantului, cu un dispozitiv cu flotor (5), un bloc de uscare prin adsorbţie (6) pentru purificarea avansată a biohidrogenului, dotat cu un închizător hidraulic (7), un ştuţ de evacuare (8) cu un ventil (V2), şi un detector (9) de CO2 remanent, conectat la un bloc de comandă (11), şi o conductă de evacuare (12) cu un ventil electromagnetic (V3), racordată la camera de regenerare (13), care este executată dintr-un material diamagnetic şi pe partea interioară a pereţilor căreia este amplasat un schimbător de căldură (14) cu apă supraîncălzită circulantă, o plasă amortizoare (15) şi o plasă de sprijin (16) cu particule de formă cilindrică din oţel magnetic moale. De partea exterioară a camerei (13) este instalat un generator (18) al câmpului electromagnetic rotitor, conectat la blocul (19) şi blocul (11), un vacuummetru (26) cu contacte electrice şi un bloc de uscare prin adsorbţie (29) pentru purificarea avansată de impurităţi gazoase, care comunică cu camera (13) printr-un ştuţ (27) cu un închizător hidraulic (28), şi pe care este fixată o pompă de vacuum (30), dotată cu un ştuţ de evacuare (31) cu un ventil electromagnetic (V6), conectate la blocul (11). Totodată partea inferioară conică a camerei (13) conţine un ştuţ de evacuare (20) cu ventil (V4), iar lateral este racordată la o pompă (22), conectată la blocul de comandă (11) şi cu un ştuţ de evacuare a apei circulante reci spre intrarea unui schimbător de căldură (23), ieşirea căruia, printr-un ventil (V5), este unită la o conductă (24), dotată cu un injector, amplasat în cameră (2).
Изобретение относится к установкам для очистки биоводорода от примесных газов, который впоследствии используется в качестве топлива для получения тепловой и электрической энергии, для питания автомобильного транспорта в качестве альтернативного топлива.Установка для очистки биоводорода от примесных газов включает герметичный корпус (1), разделенный на сепарационную камеру (2), заполненную абсорбционной жидкостью, и регенерационную камеру (13), обе выполненные с коническим днищем. Сепарационная камера (2) включает патрубок (3) с вентилем (V1) для подачи биогаза, вспомогательную емкость (4) для корректировочного раствора абсорбента, с устройством с поплавком (5), адсорбционно-осушительный блок (6) для доочистки биоводорода, снабженный гидрозатвором (7), патрубок отвода (8) с вентилем (V2), и датчик (9) остаточного СО2, подсоединенным к блоку управления (11), и трубопровод отвода (12) с электромагнитным вентилем (V3), подсоединенный к регенерационной камере (13), которая выполнена из диамагнитного материала и на внутренней части стен которой расположен теплообменник (14) с циркулирующей перегретой водой, демпфирующая сетка (15) и поддерживающая сетка (16) с цилиндрическими частицами из магнитомягкой стали. С внешней стороны камеры (13) установлен генератор (18) вращающегося электромагнитного поля, подключенный к блоку (19) и блоку (11), вакуумметр (26) с электрическими контактами и адсорбционно-осушительным блоком (29) для доочистки примесных газов, который сообщается с камерой (13) через патрубок (27) с гидрозатвором (28), и на котором закреплен вакуумный насос (30), снабженный патрубком отвода (31) с электромагнитным вентилем (V6), подключенные к блоку (11). При этом нижняя коническая часть камеры (13) содержит патрубок отвода (20) с вентилем (V4), а с боку подсоединена к насосу (22), соединенному с блоком управления (11) и с патрубком отвода циркуляционной холодной воды ко входу теплообменника (23), выход которого, через вентиль (V5), подсоединен к трубопроводу (24), снабженному форсункой, размещенной в камере (2).</description><subject>CHEMISTRY</subject><subject>COMPOUNDS THEREOF</subject><subject>INORGANIC CHEMISTRY</subject><subject>METALLURGY</subject><subject>NON-METALLIC ELEMENTS</subject><subject>PERFORMING OPERATIONS</subject><subject>PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL</subject><subject>SEPARATION</subject><subject>TRANSPORTING</subject><fulltext>true</fulltext><rsrctype>patent</rsrctype><creationdate>2017</creationdate><recordtype>patent</recordtype><sourceid>EVB</sourceid><recordid>eNrjZDAKyEnMK1FIyy9SSMrMz6hMKcpPT81TSM5JTczLzEtXSCvKz1XIzC0oLcosqVRITyxOLeZhYE1LzClO5YXS3Ayybq4hzh66qQX58anFBYnJqXmpJfG-LiYmpibOhsaE5AGNWiqk</recordid><startdate>20170731</startdate><enddate>20170731</enddate><creator>COVALIOV Victor</creator><creator>BOBEICĂ Valentin</creator><creator>UNGUREANU Dumitru</creator><creator>NENNO Vladimir</creator><creator>COVALIOVA Olga</creator><scope>EVB</scope></search><sort><creationdate>20170731</creationdate><title>Plant for biohydrogen cleaning from impurity gases</title><author>COVALIOV Victor ; BOBEICĂ Valentin ; UNGUREANU Dumitru ; NENNO Vladimir ; COVALIOVA Olga</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-epo_espacenet_MD4454C13</frbrgroupid><rsrctype>patents</rsrctype><prefilter>patents</prefilter><language>eng ; rum ; rus</language><creationdate>2017</creationdate><topic>CHEMISTRY</topic><topic>COMPOUNDS THEREOF</topic><topic>INORGANIC CHEMISTRY</topic><topic>METALLURGY</topic><topic>NON-METALLIC ELEMENTS</topic><topic>PERFORMING OPERATIONS</topic><topic>PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL</topic><topic>SEPARATION</topic><topic>TRANSPORTING</topic><toplevel>online_resources</toplevel><creatorcontrib>COVALIOV Victor</creatorcontrib><creatorcontrib>BOBEICĂ Valentin</creatorcontrib><creatorcontrib>UNGUREANU Dumitru</creatorcontrib><creatorcontrib>NENNO Vladimir</creatorcontrib><creatorcontrib>COVALIOVA Olga</creatorcontrib><collection>esp@cenet</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>COVALIOV Victor</au><au>BOBEICĂ Valentin</au><au>UNGUREANU Dumitru</au><au>NENNO Vladimir</au><au>COVALIOVA Olga</au><format>patent</format><genre>patent</genre><ristype>GEN</ristype><title>Plant for biohydrogen cleaning from impurity gases</title><date>2017-07-31</date><risdate>2017</risdate><abstract>The invention relates to plants for biohydrogen cleaning from impurity gases, which is subsequently used as fuel to produce heat and electric energy, for power supply of motor vehicles as an alternative fuel.The plant for biohydrogen cleaning from impurity gases includes a sealed housing (1), divided into a separation chamber (2), filled with an absorption liquid, and a regeneration chamber (13), both made with conical bottom. The separation chamber (2) comprises a biogas supply nozzle (3) with a valve (V1), an auxiliary tank (4) for the absorbent correction solution, with a device with a float (5), an adsorption-drainage unit (6) for afterpurification of biohydrogen, equipped with a hydraulic hitch (7), a discharge nozzle (8) with a valve (V2), and a residual CO2 sensor (9), connected to a control unit (11), and a discharge pipeline (12) with an electromagnetic valve (V3), connected to the regeneration chamber (13), which is made of diamagnetic material and on the interior part of the walls of which is placed a heat exchanger (14) with circulating superheated water, a damping grid (15) and a supporting grid (16) with cylindrical particles of magnetically soft steel. On the outer side of the chamber (13) is installed a generator (18) of the rotating electromagnetic field, connected to the unit (19) and unit (11), a vacuum gauge (26) having electrical contacts and an adsorption-drainage unit (29) for afterpurification of impurity gases, which communicates with the chamber (13) through a nozzle (27) with a hydraulic hitch (28), and on which is fixed a vacuum pump (30), equipped with a discharge nozzle (31) with an electromagnetic valve (V6), connected to the unit (11). At the same time the lower conical part of the chamber (13) comprises a discharge nozzle (20) with a valve (V4), and laterally it is connected to a pump (22), connected to the control unit (11) and with a circulating cold water discharge nozzle to the inlet of a heat exchanger (23), the output of which, through a valve (V5), is connected to a pipeline (24), provided with an injector, placed in chamber (2).
Invenţia se referă la instalaţiile pentru epurarea biohidrogenului de impurităţi gazoase, care se utilizează ulterior în calitate de carburant pentru obţinerea energiei termice şi electrice, pentru alimentarea transportului auto în calitate de combustibil de alternativă.Instalaţia pentru epurarea biohidrogenului de impurităţi gazoase include un corp ermetic (1) divizat într-o cameră de separare (2), umplută cu lichid absorbant, şi o cameră de regenerare (13), ambele fiind executate cu fundul conic. Camera de separare (2) conţine un ştuţ (3) cu un ventil (V1) pentru introducerea biogazului, un vas auxiliar (4) pentru soluţia de corectare a absorbantului, cu un dispozitiv cu flotor (5), un bloc de uscare prin adsorbţie (6) pentru purificarea avansată a biohidrogenului, dotat cu un închizător hidraulic (7), un ştuţ de evacuare (8) cu un ventil (V2), şi un detector (9) de CO2 remanent, conectat la un bloc de comandă (11), şi o conductă de evacuare (12) cu un ventil electromagnetic (V3), racordată la camera de regenerare (13), care este executată dintr-un material diamagnetic şi pe partea interioară a pereţilor căreia este amplasat un schimbător de căldură (14) cu apă supraîncălzită circulantă, o plasă amortizoare (15) şi o plasă de sprijin (16) cu particule de formă cilindrică din oţel magnetic moale. De partea exterioară a camerei (13) este instalat un generator (18) al câmpului electromagnetic rotitor, conectat la blocul (19) şi blocul (11), un vacuummetru (26) cu contacte electrice şi un bloc de uscare prin adsorbţie (29) pentru purificarea avansată de impurităţi gazoase, care comunică cu camera (13) printr-un ştuţ (27) cu un închizător hidraulic (28), şi pe care este fixată o pompă de vacuum (30), dotată cu un ştuţ de evacuare (31) cu un ventil electromagnetic (V6), conectate la blocul (11). Totodată partea inferioară conică a camerei (13) conţine un ştuţ de evacuare (20) cu ventil (V4), iar lateral este racordată la o pompă (22), conectată la blocul de comandă (11) şi cu un ştuţ de evacuare a apei circulante reci spre intrarea unui schimbător de căldură (23), ieşirea căruia, printr-un ventil (V5), este unită la o conductă (24), dotată cu un injector, amplasat în cameră (2).
Изобретение относится к установкам для очистки биоводорода от примесных газов, который впоследствии используется в качестве топлива для получения тепловой и электрической энергии, для питания автомобильного транспорта в качестве альтернативного топлива.Установка для очистки биоводорода от примесных газов включает герметичный корпус (1), разделенный на сепарационную камеру (2), заполненную абсорбционной жидкостью, и регенерационную камеру (13), обе выполненные с коническим днищем. Сепарационная камера (2) включает патрубок (3) с вентилем (V1) для подачи биогаза, вспомогательную емкость (4) для корректировочного раствора абсорбента, с устройством с поплавком (5), адсорбционно-осушительный блок (6) для доочистки биоводорода, снабженный гидрозатвором (7), патрубок отвода (8) с вентилем (V2), и датчик (9) остаточного СО2, подсоединенным к блоку управления (11), и трубопровод отвода (12) с электромагнитным вентилем (V3), подсоединенный к регенерационной камере (13), которая выполнена из диамагнитного материала и на внутренней части стен которой расположен теплообменник (14) с циркулирующей перегретой водой, демпфирующая сетка (15) и поддерживающая сетка (16) с цилиндрическими частицами из магнитомягкой стали. С внешней стороны камеры (13) установлен генератор (18) вращающегося электромагнитного поля, подключенный к блоку (19) и блоку (11), вакуумметр (26) с электрическими контактами и адсорбционно-осушительным блоком (29) для доочистки примесных газов, который сообщается с камерой (13) через патрубок (27) с гидрозатвором (28), и на котором закреплен вакуумный насос (30), снабженный патрубком отвода (31) с электромагнитным вентилем (V6), подключенные к блоку (11). При этом нижняя коническая часть камеры (13) содержит патрубок отвода (20) с вентилем (V4), а с боку подсоединена к насосу (22), соединенному с блоком управления (11) и с патрубком отвода циркуляционной холодной воды ко входу теплообменника (23), выход которого, через вентиль (V5), подсоединен к трубопроводу (24), снабженному форсункой, размещенной в камере (2).</abstract><oa>free_for_read</oa></addata></record> |
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language | eng ; rum ; rus |
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subjects | CHEMISTRY COMPOUNDS THEREOF INORGANIC CHEMISTRY METALLURGY NON-METALLIC ELEMENTS PERFORMING OPERATIONS PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL SEPARATION TRANSPORTING |
title | Plant for biohydrogen cleaning from impurity gases |
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