Development of an Indirect Active Solar Dryer for Cassava Chips
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Development of an Indirect Active Solar Dryer for Cassava Chips: Substantiating the Potential of Solar Energy Technology in Curbing Global Warming (Paperback) (2017)
DE PB NW
ISBN: 9783330349414 bzw. 3330349417, in Deutsch, LAP Lambert Academic Publishing, Taschenbuch, neu.
Von Händler/Antiquariat, The Book Depository EURO [60485773], London, United Kingdom.
Language: English . Brand New Book. This work substantiates the potential of solar energy as a clean energy resource in crop processing. It presents the principles of solar energy capture for crop drying using PV-powered active dryer. A forced convection solar dryer was designed, constructed and applied in drying of a local crop (cassava chips). The system was constructed using locally available materials, with flat plate collector, fan, photovoltaic panel and battery as the driving components. It was tested under no load and load conditions. The equipment was tested to study the effect of active airflow on crop drying rate. The tests were carried out in two replications, each from 8am to 6pm Nigerian Time. At no load maximum temperatures of 60 and 48 were obtained in the collector unit and drying cabinet respectively, while the ambient temperature was 35 . Under load condition maximum temperatures of 57.5 and 50 were obtained in the collector unit and drying cabinet respectively while the ambient temperature was 36.4 . In a day with maximum ambient temperature of 32 , the dryer efficiency was calculated as 53.2 and drying time of cassava chips in the forced convection solar dryer was 10 hours.
Language: English . Brand New Book. This work substantiates the potential of solar energy as a clean energy resource in crop processing. It presents the principles of solar energy capture for crop drying using PV-powered active dryer. A forced convection solar dryer was designed, constructed and applied in drying of a local crop (cassava chips). The system was constructed using locally available materials, with flat plate collector, fan, photovoltaic panel and battery as the driving components. It was tested under no load and load conditions. The equipment was tested to study the effect of active airflow on crop drying rate. The tests were carried out in two replications, each from 8am to 6pm Nigerian Time. At no load maximum temperatures of 60 and 48 were obtained in the collector unit and drying cabinet respectively, while the ambient temperature was 35 . Under load condition maximum temperatures of 57.5 and 50 were obtained in the collector unit and drying cabinet respectively while the ambient temperature was 36.4 . In a day with maximum ambient temperature of 32 , the dryer efficiency was calculated as 53.2 and drying time of cassava chips in the forced convection solar dryer was 10 hours.
2
Development of an Indirect Active Solar Dryer for Cassava Chips
~EN NW AB
ISBN: 9783330349414 bzw. 3330349417, vermutlich in Englisch, neu, Hörbuch.
Lieferung aus: Niederlande, Lieferzeit: 5 Tage, zzgl. Versandkosten.
This work substantiates the potential of solar energy as a clean energy resource in crop processing. It presents the principles of solar energy capture for crop drying using PV-powered active dryer. A forced convection solar dryer was designed, constructed and applied in drying of a local crop (cassava chips). The system was constructed using locally available materials, with flat plate collector, fan, photovoltaic panel and battery as the driving components. It was tested under no load and load conditions. The equipment was tested to study the effect of active airflow on crop drying rate. The tests were carried out in two replications, each from 8am to 6pm Nigerian Time. At no load maximum temperatures of 60 and 48 were obtained in the collector unit and drying cabinet respectively, while the ambient temperature was 35 . Under load condition maximum temperatures of 57.5 and 50 were obtained in the collector unit and drying cabinet respectively while the ambient temperature was 36.4 . In a day with maximum ambient temperature of 32 , the dryer efficiency was calculated as 53.2% and drying time of cassava chips in the forced convection solar dryer was 10 hours.
This work substantiates the potential of solar energy as a clean energy resource in crop processing. It presents the principles of solar energy capture for crop drying using PV-powered active dryer. A forced convection solar dryer was designed, constructed and applied in drying of a local crop (cassava chips). The system was constructed using locally available materials, with flat plate collector, fan, photovoltaic panel and battery as the driving components. It was tested under no load and load conditions. The equipment was tested to study the effect of active airflow on crop drying rate. The tests were carried out in two replications, each from 8am to 6pm Nigerian Time. At no load maximum temperatures of 60 and 48 were obtained in the collector unit and drying cabinet respectively, while the ambient temperature was 35 . Under load condition maximum temperatures of 57.5 and 50 were obtained in the collector unit and drying cabinet respectively while the ambient temperature was 36.4 . In a day with maximum ambient temperature of 32 , the dryer efficiency was calculated as 53.2% and drying time of cassava chips in the forced convection solar dryer was 10 hours.
3
Symbolbild
Development of an Indirect Active Solar Dryer for Cassava Chips (2017)
DE PB NW
ISBN: 9783330349414 bzw. 3330349417, in Deutsch, 88 Seiten, LAP Lambert Academic Publishing, Taschenbuch, neu.
Lieferung aus: Deutschland, Versandkosten nach: Deutschland, Versandkostenfrei.
Von Händler/Antiquariat, Buchhandlung - Bides GbR, [4124740].
Neuware - This work substantiates the potential of solar energy as a clean energy resource in crop processing. It presents the principles of solar energy capture for crop drying using PV-powered active dryer. A forced convection solar dryer was designed, constructed and applied in drying of a local crop (cassava chips). The system was constructed using locally available materials, with flat plate collector, fan, photovoltaic panel and battery as the driving components. It was tested under no load and load conditions. The equipment was tested to study the effect of active airflow on crop drying rate. The tests were carried out in two replications, each from 8am to 6pm Nigerian Time. At no load maximum temperatures of 60 and 48 were obtained in the collector unit and drying cabinet respectively, while the ambient temperature was 35 . Under load condition maximum temperatures of 57.5 and 50 were obtained in the collector unit and drying cabinet respectively while the ambient temperature was 36.4 . In a day with maximum ambient temperature of 32 , the dryer efficiency was calculated as 53.2% and drying time of cassava chips in the forced convection solar dryer was 10 hours. - Besorgungstitel - vorauss. Lieferzeit 3-5 Tage. 15.08.2017, Taschenbuch, Neuware, 220x150x5 mm, 147g, 88, Internationaler Versand, offene Rechnung (Vorkasse vorbehalten), PayPal, Banküberweisung.
Von Händler/Antiquariat, Buchhandlung - Bides GbR, [4124740].
Neuware - This work substantiates the potential of solar energy as a clean energy resource in crop processing. It presents the principles of solar energy capture for crop drying using PV-powered active dryer. A forced convection solar dryer was designed, constructed and applied in drying of a local crop (cassava chips). The system was constructed using locally available materials, with flat plate collector, fan, photovoltaic panel and battery as the driving components. It was tested under no load and load conditions. The equipment was tested to study the effect of active airflow on crop drying rate. The tests were carried out in two replications, each from 8am to 6pm Nigerian Time. At no load maximum temperatures of 60 and 48 were obtained in the collector unit and drying cabinet respectively, while the ambient temperature was 35 . Under load condition maximum temperatures of 57.5 and 50 were obtained in the collector unit and drying cabinet respectively while the ambient temperature was 36.4 . In a day with maximum ambient temperature of 32 , the dryer efficiency was calculated as 53.2% and drying time of cassava chips in the forced convection solar dryer was 10 hours. - Besorgungstitel - vorauss. Lieferzeit 3-5 Tage. 15.08.2017, Taschenbuch, Neuware, 220x150x5 mm, 147g, 88, Internationaler Versand, offene Rechnung (Vorkasse vorbehalten), PayPal, Banküberweisung.
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Development of an Indirect Active Solar Dryer for Cassava Chips - Substantiating the Potential of Solar Energy Technology in Curbing Global Warming
~EN PB NW
ISBN: 9783330349414 bzw. 3330349417, vermutlich in Englisch, LAP Lambert Academic Publishing, Taschenbuch, neu.
Lieferung aus: Deutschland, Versandkostenfrei.
Development of an Indirect Active Solar Dryer for Cassava Chips: This work substantiates the potential of solar energy as a clean energy resource in crop processing. It presents the principles of solar energy capture for crop drying using PV-powered active dryer. A forced convection solar dryer was designed, constructed and applied in drying of a local crop (cassava chips). The system was constructed using locally available materials, with flat plate collector, fan, photovoltaic panel and battery as the driving components. It was tested under no load and load conditions. The equipment was tested to study the effect of active airflow on crop drying rate. The tests were carried out in two replications, each from 8am to 6pm Nigerian Time. At no load maximum temperatures of 60 and 48 were obtained in the collector unit and drying cabinet respectively, while the ambient temperature was 35 . Under load condition maximum temperatures of 57.5 and 50 were obtained in the collector unit and drying cabinet respectively while the ambient temperature was 36.4 . In a day with maximum ambient temperature of 32 , the dryer efficiency was calculated as 53.2% and drying time of cassava chips in the forced convection solar dryer was 10 hours. Englisch, Taschenbuch.
Development of an Indirect Active Solar Dryer for Cassava Chips: This work substantiates the potential of solar energy as a clean energy resource in crop processing. It presents the principles of solar energy capture for crop drying using PV-powered active dryer. A forced convection solar dryer was designed, constructed and applied in drying of a local crop (cassava chips). The system was constructed using locally available materials, with flat plate collector, fan, photovoltaic panel and battery as the driving components. It was tested under no load and load conditions. The equipment was tested to study the effect of active airflow on crop drying rate. The tests were carried out in two replications, each from 8am to 6pm Nigerian Time. At no load maximum temperatures of 60 and 48 were obtained in the collector unit and drying cabinet respectively, while the ambient temperature was 35 . Under load condition maximum temperatures of 57.5 and 50 were obtained in the collector unit and drying cabinet respectively while the ambient temperature was 36.4 . In a day with maximum ambient temperature of 32 , the dryer efficiency was calculated as 53.2% and drying time of cassava chips in the forced convection solar dryer was 10 hours. Englisch, Taschenbuch.
5
Development of an Indirect Active Solar Dryer for Cassava Chips (2017)
DE PB NW
ISBN: 9783330349414 bzw. 3330349417, in Deutsch, 88 Seiten, LAP Lambert Academic Publishing, Taschenbuch, neu.
Lieferung aus: Deutschland, Versandkosten nach: Deutschland.
Von Händler/Antiquariat, Buchhandlung Hoffmann, [3174608].
Neuware - This work substantiates the potential of solar energy as a clean energy resource in crop processing. It presents the principles of solar energy capture for crop drying using PV-powered active dryer. A forced convection solar dryer was designed, constructed and applied in drying of a local crop (cassava chips). The system was constructed using locally available materials, with flat plate collector, fan, photovoltaic panel and battery as the driving components. It was tested under no load and load conditions. The equipment was tested to study the effect of active airflow on crop drying rate. The tests were carried out in two replications, each from 8am to 6pm Nigerian Time. At no load maximum temperatures of 60 and 48 were obtained in the collector unit and drying cabinet respectively, while the ambient temperature was 35 . Under load condition maximum temperatures of 57.5 and 50 were obtained in the collector unit and drying cabinet respectively while the ambient temperature was 36.4 . In a day with maximum ambient temperature of 32 , the dryer efficiency was calculated as 53.2% and drying time of cassava chips in the forced convection solar dryer was 10 hours. 15.08.2017, Taschenbuch, Neuware, 220x150x5 mm, 147g, 88, Internationaler Versand, offene Rechnung (Vorkasse vorbehalten), sofortueberweisung.de, Selbstabholung und Barzahlung, Skrill/Moneybookers, PayPal, Lastschrift, Banküberweisung.
Von Händler/Antiquariat, Buchhandlung Hoffmann, [3174608].
Neuware - This work substantiates the potential of solar energy as a clean energy resource in crop processing. It presents the principles of solar energy capture for crop drying using PV-powered active dryer. A forced convection solar dryer was designed, constructed and applied in drying of a local crop (cassava chips). The system was constructed using locally available materials, with flat plate collector, fan, photovoltaic panel and battery as the driving components. It was tested under no load and load conditions. The equipment was tested to study the effect of active airflow on crop drying rate. The tests were carried out in two replications, each from 8am to 6pm Nigerian Time. At no load maximum temperatures of 60 and 48 were obtained in the collector unit and drying cabinet respectively, while the ambient temperature was 35 . Under load condition maximum temperatures of 57.5 and 50 were obtained in the collector unit and drying cabinet respectively while the ambient temperature was 36.4 . In a day with maximum ambient temperature of 32 , the dryer efficiency was calculated as 53.2% and drying time of cassava chips in the forced convection solar dryer was 10 hours. 15.08.2017, Taschenbuch, Neuware, 220x150x5 mm, 147g, 88, Internationaler Versand, offene Rechnung (Vorkasse vorbehalten), sofortueberweisung.de, Selbstabholung und Barzahlung, Skrill/Moneybookers, PayPal, Lastschrift, Banküberweisung.
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Symbolbild
Development of an Indirect Active Solar Dryer for Cassava Chips
DE PB NW
ISBN: 9783330349414 bzw. 3330349417, in Deutsch, Taschenbuch, neu.
Lieferung aus: Deutschland, Versandkostenfrei.
Von Händler/Antiquariat, European-Media-Service Mannheim [1048135], Mannheim, Germany.
Publisher/Verlag: LAP Lambert Academic Publishing | Substantiating the Potential of Solar Energy Technology in Curbing Global Warming | This work substantiates the potential of solar energy as a clean energy resource in crop processing. It presents the principles of solar energy capture for crop drying using PV-powered active dryer. A forced convection solar dryer was designed, constructed and applied in drying of a local crop (cassava chips). The system was constructed using locally available materials, with flat plate collector, fan, photovoltaic panel and battery as the driving components. It was tested under no load and load conditions. The equipment was tested to study the effect of active airflow on crop drying rate. The tests were carried out in two replications, each from 8am to 6pm Nigerian Time. At no load maximum temperatures of 60 and 48 were obtained in the collector unit and drying cabinet respectively, while the ambient temperature was 35 . Under load condition maximum temperatures of 57.5 and 50 were obtained in the collector unit and drying cabinet respectively while the ambient temperature was 36.4 . In a day with maximum ambient temperature of 32 , the dryer efficiency was calculated as 53.2% and drying time of cassava chips in the forced convection solar dryer was 10 hours. | Format: Paperback | Language/Sprache: english | 88 pp.
Von Händler/Antiquariat, European-Media-Service Mannheim [1048135], Mannheim, Germany.
Publisher/Verlag: LAP Lambert Academic Publishing | Substantiating the Potential of Solar Energy Technology in Curbing Global Warming | This work substantiates the potential of solar energy as a clean energy resource in crop processing. It presents the principles of solar energy capture for crop drying using PV-powered active dryer. A forced convection solar dryer was designed, constructed and applied in drying of a local crop (cassava chips). The system was constructed using locally available materials, with flat plate collector, fan, photovoltaic panel and battery as the driving components. It was tested under no load and load conditions. The equipment was tested to study the effect of active airflow on crop drying rate. The tests were carried out in two replications, each from 8am to 6pm Nigerian Time. At no load maximum temperatures of 60 and 48 were obtained in the collector unit and drying cabinet respectively, while the ambient temperature was 35 . Under load condition maximum temperatures of 57.5 and 50 were obtained in the collector unit and drying cabinet respectively while the ambient temperature was 36.4 . In a day with maximum ambient temperature of 32 , the dryer efficiency was calculated as 53.2% and drying time of cassava chips in the forced convection solar dryer was 10 hours. | Format: Paperback | Language/Sprache: english | 88 pp.
7
Development of an Indirect Active Solar Dryer for Cassava Chips
~EN PB NW
ISBN: 3330349417 bzw. 9783330349414, vermutlich in Englisch, LAP Lambert Academic Publishing, Taschenbuch, neu.
Development of an Indirect Active Solar Dryer for Cassava Chips ab 35.9 € als Taschenbuch: Substantiating the Potential of Solar Energy Technology in Curbing Global Warming. Aus dem Bereich: Bücher, Wissenschaft, Umweltwissenschaft,.
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Development of an Indirect Active Solar Dryer for Cassava Chips
~EN NW
ISBN: 3330349417 bzw. 9783330349414, vermutlich in Englisch, neu.
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