OB/GYN Of West AlabamaObstetrics & Gynecology Of West Alabama 2750 Hospital Dr, Northport, AL 35476 2053393039 (phone)
Education:
Medical School University of Alabama School of Medicine Graduated: 1991
Procedures:
D & C Dilation and Curettage Vaginal Repair Hysterectomy Tubal Surgery
Conditions:
Abnormal Vaginal Bleeding Breast Disorders Candidiasis of Vulva and Vagina Complicating Pregnancy or Childbirth Conditions of Pregnancy and Delivery
Languages:
English Spanish
Description:
Dr. Allen graduated from the University of Alabama School of Medicine in 1991. He works in Northport, AL and specializes in Obstetrics & Gynecology. Dr. Allen is affiliated with Northport Medical Center.
Benign Prostatic Hypertrophy Bladder Cancer Calculus of the Urinary System Erectile Dysfunction (ED) Kidney Cancer
Languages:
English
Description:
Dr. Allen graduated from the University of Florida College of Medicine at Gainesville in 1974. He works in Albany, GA and specializes in Urology. Dr. Allen is affiliated with Phoebe Putney Memorial Hospital.
Stephen C Allen MD 200 Commercial Ct STE A, Savannah, GA 31406 9126920770 (phone), 9126920660 (fax)
Education:
Medical School University of Louisville School of Medicine Graduated: 1975
Conditions:
Internal Derangement of Knee Cartilage Osteoarthritis Plantar Fascitis Rotator Cuff Syndrome and Allied Disorders
Languages:
English
Description:
Dr. Allen graduated from the University of Louisville School of Medicine in 1975. He works in Savannah, GA and specializes in Orthopaedic Surgery and Orthopedic Sports Medicine. Dr. Allen is affiliated with Memorial University Medical Center.
Saint Louis Cancer Care 226 S Wood Ml Rd STE 45W, Chesterfield, MO 63017 3145790051 (phone), 3145790095 (fax)
Washington University PhysiciansWashington University Pediatric Hematology Oncology 1 Childrens Pl STE 9S, Saint Louis, MO 63110 3144546018 (phone), 3144542780 (fax)
Saint Louis Cancer Care 3440 De Paul Ln STE 201, Bridgeton, MO 63044 3142913312 (phone), 3142914641 (fax)
Saint Louis Cancer Care 10004 Kennerly Rd STE 137A, Saint Louis, MO 63128 3148427301 (phone), 3148427308 (fax)
Education:
Medical School Saint Louis University School of Medicine Graduated: 1975
Conditions:
Anemia Malignant Neoplasm of Female Breast
Languages:
English Spanish
Description:
Dr. Allen graduated from the Saint Louis University School of Medicine in 1975. He works in Saint Louis, MO and 3 other locations and specializes in Hematology/Oncology. Dr. Allen is affiliated with Barnes Jewish Hospital, Barnes Jewish West County Hospital, Missouri Baptist Medical Center, Missouri Baptist Sullivan Hospital, Saint Anthonys Medical Center, Saint Louis Childrens Hospital,
Stephen D. Allen - Holladay UT Leonard Rees Lyman - South Jordan UT
Assignee:
Microbar Incorporated - Sunnyvale CA
International Classification:
C02F1/44;1/56
US Classification:
210638
Abstract:
A process and system for removing heavy metals, fluoride, silica and other contaminants from large volumes of wastewater is disclosed. In the process, a wastewater stream containing the contaminant is treated with a chemical coagulant to create a particle having a diameter greater than 5 microns. Treated wastewater is passed through a microfiltration membrane which physically separates the metal contaminant particle from the wastewater. Commercially available microfiltration membranes having a pore size from 0. 5 micron to 5 microns may be used. The treated wastewater flow rate through the microfiltration membranes can range from 700 gallons per square foot of membrane per day ("GFD") to 1500 GFD. Solids are removed from the membrane surface by periodically backflushing the microfiltration membranes and draining the filtration vessel within which the membranes are located. The dislodged solid material within the filtration vessel is flushed into a holding tank for further processing of the solids.
Wastewater Treatment Process And Apparatus For High Flow Fluoride Removal
Stephen D. Allen - Holladay UT Leonard Rees Lyman - South Jordan UT
Assignee:
Microbar Incorporated - Sunnyvale CA
International Classification:
C02F 144 C02F 156
US Classification:
210638
Abstract:
A process and system for removing heavy metals, fluoride, silica and other contaminants from large volumes of wastewater is disclosed. In the process, a wastewater stream containing the contaminant is treated with a chemical coagulant to create a particle having a diameter greater than 5 microns. Treated wastewater is passed through a microfiltration membrane which physically separates the metal contaminant particle from the wastewater. Commercially available microfiltration membranes having a pore size from 0. 5 micron to 5 microns may be used. The treated wastewater flow rate through the microfiltration membranes can range from 700 gallons per square foot of membrane per day ("GFD") to 1500 GFD. Solids are removed from the membrane surface by periodically backflushing the microfiltration membranes and draining the filtration vessel within which the membranes are located. The dislodged solid material within the filtration vessel is flushed into a holding tank for further processing of the solids.
Stephen D. Allen - Holladay UT Leonard R. Lyman - South Jordan UT
Assignee:
Microbar Incorporated - Sunnyvale CA
International Classification:
C02F 144 C02F 156
US Classification:
210638
Abstract:
A process and system for removing silica from large volumes of wastewater is disclosed. In the process, a wastewater stream containing silica is treated with a chemical coagulant, such as a epichlorohydrin/dimethylamine polymer, to create spherical particles which agglomerate into clusters having a diameter greater than 5 microns. Treated wastewater is passed through a microfiltration membrane which physically separates the silica contaminant particle from the wastewater. Commercially available microfiltration membranes having a pore size from 0. 5 micron to 5 microns may be used. The treated wastewater flow rate through the microfiltration membranes can range from 150 gallons per square foot of membrane per day ("GFD") to 600 GFD. Solids are removed from the membrane surface by periodically backflushing the microfiltration membranes and draining solids at timed intervals from the filtration vessel within which the membranes are located. The dislodged solid material within the filtration vessel is flushed into a holding tank for further processing of the solids.
A process and system for separating solids from concentration soda ash solution is disclosed. In the process, a soda ash solution feed stream containing solids and other impurities is treated with a chemical coagulant to create solid particles having a diameter greater than 5 microns. Treated feed stream is passed through a microfiltration membrane which physically separates the solids from the soda ash solution. Commercially available microfiltration membranes having a pore size from 0. 5 micron to 5 microns may be used. Solids are removed from the membrane surface by periodically backflushing the microfiltration membranes and draining the filter vessel within which the membranes are located. The dislodged solid material within the filter vessel is flushed removed from the filter vessel for further processing or disposal.
Stephen D. Allen - Park City UT Michael Thompson - Evansville IN
Assignee:
Becton Dickinson & Company - Paramus NJ
International Classification:
G01N 3353 G01N 33549 G01N 33533 A61K 4900
US Classification:
435 7
Abstract:
Isocyanate or isothiocyanate substituted lactone or thiolactone is employed for coupling one organic compound to another. For example, such coupling agents can be employed for coupling thyroxine or digoxin to a fluorescent compound for use as a tracer in an assay.
Stephen D. Allen - Park City UT Michael Thompson - Evansville IN
Assignee:
Becton Dickinson and Company - Franklin Lakes NJ
International Classification:
G01N 3353 G01N 33549 G01N 33533 G01N 33534
US Classification:
436500
Abstract:
Bifunctional aromatic compounds are employed as rigid coupling compounds for coupling one organic compound to another. For example, paranitrophenylisocyanate may be employed as a coupling compound for coupling thyroxine to a fluorescent dye to form a tracer for use in an assay.
Wastewater Treatment Process And Apparatus For High Flow Impurity Removal
Stephen D. Allen - Holladay UT Leonard Rees Lyman - South Jordan UT
Assignee:
Environmental Chemistries, Inc. - Salt Lake City UT
International Classification:
C02F 144 C02F 156
US Classification:
210638
Abstract:
A process and system for removing heavy metals, fluoride, silica and other contaminants from large volumes of wastewater is disclosed. In the process, a wastewater stream containing the contaminant is treated with a chemical coagulant to create a particle having a diameter greater than 5 microns. Treated wastewater is passed through a microfiltration membrane which physically separates the metal contaminant particle from the wastewater. Commercially available microfiltration membranes having a pore size from 0. 5 micron to 5 microns may be used. The treated wastewater flow rate through the microfiltration membranes can range from 700 gallons per square foot of membrane per day ("GFD") to 1500 GFD. Solids are removed from the membrane surface by periodically backflushing the microfiltration membranes and draining the filtration vessel within which the membranes are located. The dislodged solid material within the filtration vessel is flushed into a holding tank for further processing of the solids.
Stephen John ALLEN - Emerald Hills CA, US Gregory A. PEEK - Northplains OR, US Yoshifumi NISHI - Aloha OR, US Rolf LAIDO - Portland OR, US Shaun Gerrit IMMEKER - Wilton CA, US Kerry A. STEVENS - Beaverton OR, US Andrew LARSON - Hillsboro CA, US Ralph V. MIELE - Hillsboro OR, US Kimi JENSEN - Beaverton OR, US Duck Young KONG - Beaverton OR, US Dan H. GERBUS - Aloha OR, US - Santa Clara CA, US
Assignee:
Intel Corporation - Santa Clara CA
International Classification:
H02J 7/00 H02J 7/02 H02J 50/12 H02J 50/40
Abstract:
Particular embodiments described herein provide for an electronic device, that includes a first housing and a wireless charging stand. The first housing can include a display. The wireless charging stand can include a power receiving unit and is configured to wireless charge the electronic device and support the first housing at different viewing angles of the display.
Wikipedia References
Stephen B. Allen
Name / Title
Company / Classification
Phones & Addresses
Mr. Stephen Allen President
S. Allen & Sons Fire Restoration General Contractors Ltd. Building Restoration & Preservation
But Huron County won't participate after a unanimous vote this week by commissioners. The Huron Daily Tribune says officials are concerned about the time it would take to determine the costs. County attorney Stephen Allen says it could take a full work week.