Date post: | 20-Jan-2016 |
Category: |
Documents |
Upload: | alvin-horton |
View: | 216 times |
Download: | 0 times |
Separation of Oil from Water
TEAM HTEAM H22OLEUMOLEUM
Ali Hasan Mahdi Mohammad
Christina Holt Daniel Pardo
April 24, 2015
Overview Client description
Problem statement
Needs statement
Preliminary research
Emulsion & Separation
Bench scale emulsion
Overall system
Coagulation & Gas Injection System
Analysis
Project timeline
Budget
2
Mahdi Mohammad
Client Description
Waste-Management Education and Research Consortium (WERC)Typically, the environmental tasks have no known solution or the available solutions do not meet performance criteria
3
Ali Hasan
The goal of the competition is to design, develop, and test actual environmental processes for real-world problems.
Problem Statement
Task:
Emulsion techniques
Separate emulsified oil in water
Design:
Cost effective
Efficient
Robust
Ideal solution:
High degree of separation
100% water 0% oil
100% oil 0% water
4
Ali Hasan
Non-emulsion Vs. Emulsion
Project Significance 5
Increased use of petroleum creates a need to remove
emulsified oil from water before disposal
This project removes oil contaminants from the water
Safer and cheaper to dispose
Recovers oil
Needs Statement Full Scale Model:
100 GPM
Uses industrial waste oil
Uses brackish water
Bench Scale:
Emulsified vegetable oil Represents the industrial waste oil in full scale
Environmental Health and Safety (EHS) disposal
Given:
10 gallons of emulsified oil-water solution
@ 200 mg/L concentration
Must obtain one gallon of separated water and 8 ml of oil
6
Ali Hasan
Preliminary Research:Emulsion
Physical Emulsion
Shearing Power
Chemical Emulsion
Emulsification Agent
Sound Energy
Sonicator
7
Christina Holt
Sonicator
Emulsion Techniques for Bench Scale
Vitamix 7500 ~2.2 horsepower motor 120 V or 12 A 23,000 RPM Can boil water in under
10 minutes Cost: $500
8
Christina Holt
Preliminary Research: Separation
Physical Separation
Plate Separation
Electrical Separation
Electrocoagulation
Chemical Separation
Coagulation and Flocculation
Gas Injection System
9
Christina Holt
Physical Separation
Electrical Separation
Overall System 10
Gas Injection Tanks
Coagulation & Flocculation
Chemical Injection
Storage Tank
Mahdi Mohammad
Storage Tank
16,000 gallon storage tank will accommodate flows up to 130GPM for 2 hours.
11
Mahdi Mohammad* All the dimensions are in inches
Coagulation and Flocculation System Best Chemical?
Chemical: Ferric Sulphate Dose = 30mg/L
Amount: 16.35 kg/day 0.2 gram every
second
12
Mahdi Mohammad
Coagulation and Flocculation System
13
Mahdi Mohammad
Dry Chemical Injection
Coagulation & Flocculation
* All the dimensions are in inches
Gas Injection System 14
Daniel Pardo
3 gas injection tanks : 1 coagulation system
When 3rd tank is ½ full, 1st tank ready for more emulsion
Gas Injection Tank 15
Daniel Pardo
Multiple Gas Spargers
Water Exit
Oil Exit Valve
* All the dimensions are in inches
Compressed Nitrogen Gas
Small Bubble Size
Oil Layer (25 mm = 1inch)
Collection
Bench Scale 16
Daniel Pardo
Gas Injection Tank Coagulation and
Flocculation System
Coagulation
2 minutes rapid
5 minutes slow
Gas Injection
45 Minutes
Competition Results
NMSU Chemical Team Clean water
No oil found in water sample
Minimum oil recovery Losses occurred during
transfers
7 Teams Only first and second
announced
17
Daniel Pardo
Analysis 18
Daniel Pardo
3
2
1
Stage 1: Emulsion Stage 2: Coagulation
SystemStage 3: Gas Injection
System
Head losses No overflow
Oil particle size 1. Emulsion Stage
2. Coagulation
3. Gas Injection
Confirms oil will separate
Project Timeline
Research (Emulsion & Separation)
Design Choice
Coagulation System
Gas Injection System
Bench Scale
Final System Full Scale
WERC Competition
Website
Visit our website for more information
Search Keywords: “OilFromWater h2oleum”
19
Daniel Pardo
Budget 20
Christina Holt
Cost of Raw
Materials
Labor Cost
($/hour)
Total Man Hours
Required
Total Labor Cost
Subtotal
Contingency and
Allowance (50%)
Total Cost to Build
Total System Cost to Build
$56,230.26 $45.00 1,600 $72,000$128,230.2
6$64,115.13
$192,345.39
Cost of Ferric
Sulfate
Cost of Nitrogen
Labor Cost for
Operator
Energy Costs
SubtotalMiscellaneous Costs (30%)
Operating Cost for 1
Day
Operating Costs Per
Day$4.00 $25.00 $1,080 $20.00 $1,129 $338.70 $1,467.70
Summary Client description
Problem statement
Needs statement
Preliminary research
Emulsion & Separation
Bench scale emulsion
Overall system
Coagulation & Gas Injection System
Analysis
Project timeline
Budget
21
Christina Holt
Thank You for Listening
Any Questions?
22