ADDITIVE English Language
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Transcript of ADDITIVE English Language
SP SOTIN
COAL AND OIL ADDITIV
CONVERGENCE OF
ECOLOGY AND ECONOMY
SP SOTIN significantly increases the
energy efficiency of conventional power
generators. It has been proven that the
consumption of coal and oil fuels is
reduced between 3% and 8%. SO2,
NOX, CO and ash emissions are
reduced in the two-digit percentage
region as well as the reduction of total
emissions achieved by fuel reduction.
This optimum convergence of economics
and ecology makes SP SOTIN an ideal
middle-term measure for energy
efficiency and climate protection.
SP SOTIN:
•Cleans the combustion chamber and all
successive heating surfaces of deposits
on the exhaust gas side
•Increases the efficiency of the tank
•Proven to reduce fossil fuel consumption
•Proven to reduce emissions
•Improves the use of dust removal systems
•Provides corrosion protection
•Prevents standstill times of the tank
•Does not require any technical
investments
•Easy to use
SP SOTIN
Combustion additive for coal and oil
Exhaust coverings
Beginning cleaning effect by SP
SOTIN
cleaning effect by SP SOTIN
Economy
It can be proven that the cleaning
efficiency of SP SOTIN leads to a fuel
reduction between 3% - 8 % in coal and
oil burning tanks. The return of
investment is achieved after thirty days.
The costs for SP SOTIN only amount to
a fraction of the fuel saving achieved
when using SP. No technical investments
are required.
Ecology
In addition to the reduction of total emissions
caused by the reduction of coal and oil
consumption, it can be proven that using SP
SOTIN reduces SO2, NOX, CO and flue ash
in the two-digit percentage region. Flue ash
is the second most important cause of the
greenhouse effect according to the latest
calculations.
ECOLOGY AND ECONOMY
PRODUCT INFORMATION AND
APPLICATION
•direct injection into the
combustion chamber
•forms a concentrated greyish
white gas cloud which
fills the entire interior of the
boiler
•penetrates the flue gas
deposits to form a eutectic
system with different melting
points
•the resulting thermal stresses
crumble these deposits, which
are then gradually stripped
away
•after deposits have been
eliminated, the pipeline system
is directly exposed to SP SOTIN
which prevents any new
deposits and corrosion
Ignites at 321 °C
Contains oxygen, therefore does not consume oxygen during
combustion
Consists of Potassium Nitrate + combustion materials
Does not contain any aggressive chemicals or chlorides
Does not damage the boiler or the walls of the boiler
Is non explosive
Is odourless
UN number 1479
Class 5.l
SP SOTIN TECHNICAL DATA
PRODUCT INFORMATION AND
APPLICATION
SP SOTIN is injected directly into the
combustion chamber every
6-8 hours.
•First dosage 40 days: 300g/t
•Continuous operation: 100 g/t
•No additional investment costs
•Manually dosed (small boilers)
•Or mobile injector connected to compressed-
air supply (4 – 6 bar)
•Duration of in jection (max 60 seconds)
The injector is installed according to
the technical conditions of the boiler
and will be supervised by
ENCON technical service.
ENCON will perform a test dosage
and train the staff.
SP Dosing procedure:
1. Fill the Injector with SP SOTIN
2. Put the lance through the
inspection port
3. Open the pressure valve
synchronously for injector
4. Dose for about 60 seconds, then
close the valve
5. Pull out the lance
PRODUCT INFORMATION
Influence of SP SOTIN on the
construction of the tank.
.Steel corrosionthere exist two types of steel corrosion:Low temperature corrosion (acid corrosion)High temperature corrosion (Vanadium corrosion)
Based on many years of experience and scientific studies, it has been shown that the use of SP SOTIN additives during the combustion process can prevent corrosion effects. This is achieved by the following reactions:a) SO3-SO3-bond and collection:2 KOH + SO 3 > K2SO4 + H2OThere is a considerable reduction of SO 3 concentration.b) Binding of vanadium oxide2 KOH + V2O5 + H2O > 2 KVO3This reaction shows that V2O5 compounds are transformed into Calivanadat salt. Calivanadat salt formed at high temperatures produces an enamel-like layer, which serves as a protective film against corrosion.
Corrosion of the stoneworkstonework compounds are: Al2O3, SiO2, CaO and aluminum silicates. KOH (especially in liquid form) can be melted with aluminum silicates with no negative side effects on the stonework and resistance.
Effects of K2O and KOH on ash and slagK2O and KOH when combined with ash forming components produces eutectoid which has high melting points. This prevents agglomerates of ash and slag that adhere to the heating surfaces. Existing agglomerates of ash and slag crumble under the influence of KOH and drop out.