John R. Alberty
Engineering at Highland Rd, Baton Rouge, LA
License number
Louisiana PE.0018640
Issued Date
Mar 18, 1980
Expiration Date
Mar 31, 2006
Category
Civil Engineer
Type
Mechanical Engineer
Address
Address
7388 Highland Rd SUITE 5, Baton Rouge, LA 70808
Professional information
Dr. John B Alberty, Baton Rouge LA - MD (Doctor of Medicine)
Specialties:
Pediatric Gastroenterology
Age:
51
Address:
Pediatrics Specialty Clinic
7777 Hennessy Blvd STE 408, Baton Rouge 70808
(225) 765-4306 (Phone)
7777 Hennessy Blvd STE 408, Baton Rouge 70808
(225) 765-4306 (Phone)
Certifications:
Internal Medicine, 2003, Pediatric Gastroenterology, 2007, Pediatrics, 2003
Awards:
Healthgrades Honor Roll
Languages:
English
Hospitals:
Pediatrics Specialty Clinic
7777 Hennessy Blvd STE 408, Baton Rouge 70808
Our Lady of the Lake Regional Medical Center
5000 Hennessy Blvd, Baton Rouge 70808
7777 Hennessy Blvd STE 408, Baton Rouge 70808
Our Lady of the Lake Regional Medical Center
5000 Hennessy Blvd, Baton Rouge 70808
Education:
Medical School
Louisiana State University Health Shreveport / School of Medicine
Graduated: 1999
University Of Ky Hospital Chandler Mc
Louisiana State University Health Shreveport / School of Medicine
Graduated: 1999
University Of Ky Hospital Chandler Mc
John Brannon Alberty, Baton Rouge LA
Specialties:
Pediatric Gastroenterologist
Address:
7777 Hennessy Blvd, Baton Rouge, LA 70808
Education:
Doctor of Medicine
Board certifications:
American Board of Internal Medicine Certification in Internal Medicine, American Board of Pediatrics Sub-certificate in Pediatric Gastroenterology (Pediatrics)
Treatment Of Hydrolyzer Systems In Propylene Oxide Production
US Patent:
5453204, Sep 26, 1995
Filed:
Jul 15, 1994
Appl. No.:
8/275844
Inventors:
John R. Alberty - Baton Rouge LA
International Classification:
C02F 510
US Classification:
210701
Abstract:
Production of propylene oxide by hydrolysis of propylene chlorohydrin in an aqueous alkaline reaction medium having a pH above 12 and a temperature of at least about 85. degree. C. , is conducted in the presence of a small scale-inhibiting amount of a scale inhibitor added as a water-soluble polymer of acrylic acid having a weight average molecular weight in the range of about 1000 to about 5000, and in the absence of any phosphorus-containing additive component. A significant increase in acrylic polymer performance occurs under these high pH conditions as compared to performance at lower pH. Moreover, experiments have shown that no scale deposits were formed in a hydrolyzer unit operated for 180 days under conditions which normally require removal of deposits after 90 days of operation.