Use of the Biochar Obtained by Slow Pyrolysis from Ulex Europaeus in the Removal of Total Chromium from the Bogotá-colombia River Water

Use of the Biochar Obtained by Slow Pyrolysis from Ulex Europaeus in the Removal of Total Chromium from the Bogotá-colombia River Water

This paper explores the use of biochar obtained from the pyrolysis of Ulex Europaeus, an invasive species in the mountain ecosystems of Colombia, for the removal of total chromium from the water. The investigation was developed in two phases. First, the slow pyrolysis of Ulex Europaeus was carried o...

Full description

Bibliographic Details
Main Authors: Katalina Gomez, Nubia Quevedo, Lizeth Molina
Format: Article
Language:English
Published: AIDIC Servizi S.r.l. 2021-06-01
Series:Chemical Engineering Transactions
Online Access:https://www.cetjournal.it/index.php/cet/article/view/11475
id doaj-c9ed1c5ece894eae8be67ef65db94b5c
record_format Article
spelling doaj-c9ed1c5ece894eae8be67ef65db94b5c2021-06-15T20:22:35ZengAIDIC Servizi S.r.l.Chemical Engineering Transactions2283-92162021-06-018610.3303/CET2186049Use of the Biochar Obtained by Slow Pyrolysis from Ulex Europaeus in the Removal of Total Chromium from the Bogotá-colombia River WaterKatalina GomezNubia QuevedoLizeth MolinaThis paper explores the use of biochar obtained from the pyrolysis of Ulex Europaeus, an invasive species in the mountain ecosystems of Colombia, for the removal of total chromium from the water. The investigation was developed in two phases. First, the slow pyrolysis of Ulex Europaeus was carried out at varying temperatures (450, 550, and 650° C) to produce a biochar that was characterized by texture, surface area, and percent yield. In the second phase, the biochar then was used to test the removal of chromium from natural water samples collected from the Upper Bogotá River Basin. The removal of chromium with a commercial activated carbon also was assessed as a control. Finally, measurements of total chromium collected were used to evaluate biochar removal efficiencies. The biochar produced at both 550° C and 650° C was found to remove over two times the amount of chromium compared the activated carbon, demonstrating that biochar from Ulex Europaeus is an effective sorbent for total chromium.https://www.cetjournal.it/index.php/cet/article/view/11475
collection DOAJ
language English
format Article
sources DOAJ
author Katalina Gomez
Nubia Quevedo
Lizeth Molina
spellingShingle Katalina Gomez
Nubia Quevedo
Lizeth Molina
Use of the Biochar Obtained by Slow Pyrolysis from Ulex Europaeus in the Removal of Total Chromium from the Bogotá-colombia River Water
Chemical Engineering Transactions
author_facet Katalina Gomez
Nubia Quevedo
Lizeth Molina
author_sort Katalina Gomez
title Use of the Biochar Obtained by Slow Pyrolysis from Ulex Europaeus in the Removal of Total Chromium from the Bogotá-colombia River Water
title_short Use of the Biochar Obtained by Slow Pyrolysis from Ulex Europaeus in the Removal of Total Chromium from the Bogotá-colombia River Water
title_full Use of the Biochar Obtained by Slow Pyrolysis from Ulex Europaeus in the Removal of Total Chromium from the Bogotá-colombia River Water
title_fullStr Use of the Biochar Obtained by Slow Pyrolysis from Ulex Europaeus in the Removal of Total Chromium from the Bogotá-colombia River Water
title_full_unstemmed Use of the Biochar Obtained by Slow Pyrolysis from Ulex Europaeus in the Removal of Total Chromium from the Bogotá-colombia River Water
title_sort use of the biochar obtained by slow pyrolysis from ulex europaeus in the removal of total chromium from the bogotá-colombia river water
publisher AIDIC Servizi S.r.l.
series Chemical Engineering Transactions
issn 2283-9216
publishDate 2021-06-01
description This paper explores the use of biochar obtained from the pyrolysis of Ulex Europaeus, an invasive species in the mountain ecosystems of Colombia, for the removal of total chromium from the water. The investigation was developed in two phases. First, the slow pyrolysis of Ulex Europaeus was carried out at varying temperatures (450, 550, and 650° C) to produce a biochar that was characterized by texture, surface area, and percent yield. In the second phase, the biochar then was used to test the removal of chromium from natural water samples collected from the Upper Bogotá River Basin. The removal of chromium with a commercial activated carbon also was assessed as a control. Finally, measurements of total chromium collected were used to evaluate biochar removal efficiencies. The biochar produced at both 550° C and 650° C was found to remove over two times the amount of chromium compared the activated carbon, demonstrating that biochar from Ulex Europaeus is an effective sorbent for total chromium.
url https://www.cetjournal.it/index.php/cet/article/view/11475
work_keys_str_mv AT katalinagomez useofthebiocharobtainedbyslowpyrolysisfromulexeuropaeusintheremovaloftotalchromiumfromthebogotacolombiariverwater
AT nubiaquevedo useofthebiocharobtainedbyslowpyrolysisfromulexeuropaeusintheremovaloftotalchromiumfromthebogotacolombiariverwater
AT lizethmolina useofthebiocharobtainedbyslowpyrolysisfromulexeuropaeusintheremovaloftotalchromiumfromthebogotacolombiariverwater
_version_ 1721375865108955136

Similar Items