the next generation in alkylation - alky tech
TRANSCRIPT
Acid Savings – Steady State Operation – Throughput – Yield - Home
The Next Generation in Alkylation
By combining sound chemical principals with real-time monitoring of unit operations the Alky Tech Process has proven that
improved operations are achievable in every situation. We Guarantee It !
•Base case process analysis approach.
•On-going, in-depth daily data analysis.
•Process improvement and optimization.
What is the
Process ?
Acid Savings – Steady State Operations – Throughput – Yield - Home
Which Results in…
Improved unit economics
Improved throughput
Improved productivity
The Next Generation InAlkylation
Acid Savings – Steady State Operations – Throughput – Yield - Home
Benefits
Acid Savings
Improved Yield
Increased Throughput
Stable Unit Operation
Significantly Improved Profitability
The Next Generation InAlkylation
Acid Savings – Steady State Operations – Throughput – Yield - Home
Input Your Data in the YELLOW Boxes
Current Acid Consumption Current Feed Rates Current Production
5 GPM 5.00 MBPD Olefin 4.50 MBPD
55 TPD 40.00 MBPD Iso 0.90 Yield (WHL/WHL)
Current Acid Cost 130.00$ /BBL
125$ /Ton
6,885$ /Day
209,419$ /Month
2,513,025$ /Year
With Alky Tech Processing With Alky Tech Processing
Insert Desired Acid Savings 30% Potential Yield Improvement 10%
Acid Consumption 3.5 GPM Potential Yield Improvement 450 BPD
Acid Consumption 38.556 TPD Potential Yield Improvement 58,500$ /Day
Potential Acid Savings 17 TPD Potential Yield Improvement 1,779,375$ /Month
Potential Acid Savings 2,066$ /Day Potential Yield Improvement 21,352,500$ /Year
Potential Acid Savings 62,826$ /Month
Potential Acid Savings 753,908$ /Year
Benefit Calculator
The Next Generation In Alkylation
Acid Savings One of the highest operational costs in today’s alkylation units
is Sulfuric Acid. Although called a catalyst, the entire amount of catalyst seldom returns to its original state.
Unwanted side reactions consume the catalyst and makeup acid is required to return the reaction to equilibrium.
As today’s refiners test higher contaminant feed stocks, in an effort to counteract the ever increasing crude oil costs, they find their operating expenses suffer from increased sulfuric acid consumption.
The Next Generation InAlkylation
Acid Savings – Steady State Operation – Throughput – Yield - Home
Acid Savings
Alky Tech utilizes a revolutionary method to replace the sulfuric acid catalyst resulting in improved acid consumption as well as improved raw material conversion.
Using the Alky Tech Process, acid savings of over 30% have been achieved in 20 MBPD refineries.
The Next Generation In Alkylation
Acid Savings – Steady State Operations – Throughput – Yield - Home
Normal Operational Effects on Acid Consumption
Feed Rate
Feed Mix
I/O Ratio
Temperature 0.4
0.5
0.6
0.7
0.8
0.9
1
1.1
1.2
10 MBD
14 MBD
18 MBD
20 MBD
Acid#/gal
The Next Generation In Alkylation
Acid Savings – Steady State Operations – Throughput – Yield - Home
Acid Savings
Acid consumption remains relatively constant as rate increases.
0.4
0.5
0.6
0.7
0.8
0.9
1
1.1
1.2
10 MBD
14 MBD
18 MBD
20 MBD
Acid#/gal
The Next Generation In Alkylation
Acid Savings – Steady State Operations – Throughput – Yield - Home
Iso / Olefin Ratio Industry average is 8 to 1 or greater Using the Alky Tech Process allows the refiner to
operate successfully at lower I to O ratios.
Many units are isobutane limited.
The Alky Tech Process produces better Isoconversion which results in lower I to O ratios necessary to produce a higher quality Alkyateproduct.
The Next Generation In Alkylation
Acid Savings – Steady State Operations – Throughput – Yield - Home
The corollary to acid savings is yield improvement.
If makeup acid requirements are increasing, then yields are decreasing.
It’s because you’re making more undesired side reactions with the raw material and, as such, less alkylate.
Yield Improvement
The Next Generation In Alkylation
Acid Savings – Steady State Operations – Throughput – Yield - Home
Yield Improvement
If Acid consumption is really the makeup of “diluted” acid, due to side reactions…
Then, by using the AlkyTech process to reduce side reactions…
The Next Generation In Alkylation
Acid Savings – Steady State Operations – Throughput – Yield - Home
Less side reactions =
Less waste =
More Yield
Yield Improvement
Acid Savings – Steady State Operations – Throughput – Yield - Home
The Next Generation In Alkylation
Throughput Improvement By changing reaction kinetics the Alky Tech Process
allows more raw material to be converted at a faster rate.
Since side reactions are mostly the result of additional time in the reactor, less time means more product and less ASO.
Results from one major West Coast refiner have shown
that production levels can be sustained at up to 30%over face plate ratings with no negative impact on operating conditions using the Alky Tech Process.
Acid Savings – Steady State Operations – Throughput – Yield - Home
The Next Generation In Alkylation
Steady State Operations The primary concern of all refiners is safety. When fully optimized, an Alky Tech Process Unit will
allow the operators to have better control of the unit. Spent acid strengths will operate within a much tighter
range, minimizing the swings, and the inherent risks, that are present in most operations.
By steering the reactants through the desired path of alkylate production and away from unwanted ASO production, an Alky Tech Process Unit will have longer run time between planned shut downs.
Acid Savings – Steady State Operations – Throughput – Yield - Home
The Next Generation In Alkylation
Economic Benefits
Acid Savings Lower cost in lb/gal
Yield improvement More Alkylate / BBL of Pure Olefin
Throughput Improvement Expands plant capacity with no capital expense.
Unit reliability Steady state of increased profitability
Acid Savings – Steady State Operations – Throughput – Yield - Home
The Next Generation In Alkylation
Acid Savings – Steady State Operations – Throughput – Yield - Home
The Next Generation In Alkylation
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