Dennis Altman (born 1943) is an Australian academic and pioneering gay rights activist. Altman was a Fullbright scholar at Cornell University in the 1960s ...
Dr. Altman graduated from the Univ of the Witwatersrand, Med Sch, Johannesburg, So Africa in 1975. He works in Saint Louis, MO and specializes in Child Neurology and Pediatrics. Dr. Altman is affiliated with Mercy Hospital St Louis and Saint Louis Childrens Hospital.
Us Patents
Surfactant Biocatalyst For Remediation Of Recalcitrant Organics And Heavy Metals
Novel strains of isolated and purified bacteria have been identified which have the ability to degrade petroleum hydrocarbons including a variety of PAHs. Several isolates also exhibit the ability to produce a biosurfactant. The combination of the biosurfactant-producing ability along with the ability to degrade PAHs enhances the efficiency with which PAHs may be degraded. Additionally, the biosurfactant also provides an additional ability to bind heavy metal ions for removal from a soil or aquatic environment.
Surfactant Biocatalyst For Remediation Of Recalcitrant Organics And Heavy Metals
Robin L. Brigmon - North Augusta SC, US Sandra Story - Greenville SC, US Denis J. Altman - Evans GA, US Christopher J. Berry - Aiken SC, US
Assignee:
Savannah River Nuclear Solutions, LLC - Aiken SC
International Classification:
A62D 3/00 A62D 3/02 B09B 3/00 B09C 1/10
US Classification:
4352625, 4352533, 435829, 435877
Abstract:
Novel strains of isolated and purified bacteria have been identified which have the ability to degrade petroleum hydrocarbons including a variety of PAHs. Several isolates also exhibit the ability to produce a biosurfactant. The combination of the biosurfactant-producing ability along with the ability to degrade PAHs enhances the efficiency with which PAHs may be degraded. Additionally, the biosurfactant also provides an additional ability to bind heavy metal ions for removal from a soil or aquatic environment.
Surfactant Biocatalyst For Remediation Of Recalcitrant Organics And Heavy Metals
Novel strains of isolated and purified bacteria have been identified which have the ability to degrade petroleum hydrocarbons including a variety of PAHs. Several isolates also exhibit the ability to produce a biosurfactant. The combination of the biosurfactant-producing ability along with the ability to degrade PAHs enhances the efficiency with which PAHs may be degraded. Additionally, the biosurfactant also provides an additional ability to bind heavy metal ions for removal from a soil or aquatic environment.
Surfactant Biocatalyst For Remediation Of Recalcitrant Organics And Heavy Metals
Novel strains of isolated and purified bacteria have been identified which have the ability to degrade petroleum hydrocarbons including a variety of PAHs. Several isolates also exhibit the ability to produce a biosurfactant. The combination of the biosurfactant-producing ability along with the ability to degrade PAHs enhances the efficiency with which PAHs may be degraded. Additionally, the biosurfactant also provides an additional ability to bind heavy metal ions for removal from a soil or aquatic environment.