oxygen scavenger presentation
TRANSCRIPT
Oxygen Scavenger Use's &
Safety Precaution
Prepared By : -
Umar Farooq Chemist “A” Chemical Section
SEC Shuaibah Jeddah
Saudi Arabia 1
Exposure • In order for a chemical to produce a biological effect, it must first reach a
target individual (exposure pathway).
• Then the chemical must reach a target site within the body
(toxicokinetics).
• Toxicity is a function of the effective dose (how much) of a foreign
chemical (xenobiotic) at its target site, integrated over time (how long).
• Individual factors such as body weight will influence the dose at the
target site
X =
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Umar Farooq Chemist “ A”
SEC Shoaiba Jeddah
Route of Exposure
Route of Exposure
• The route (site) of exposure is an important determinant of the ultimate dose—different routes may result in different rates of absorption.
Dermal (skin)
Inhalation (lung)
Oral ingestion (Gastrointestinal)
Injection
• The route of exposure may be important if there are tissue-specific toxic responses.
• Toxic effects may be local or systemic
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Umar Farooq Chemist “ A”
SEC Shoaiba Jeddah
Time of Exposure
Time of Exposure
• How long an the Person & organism is exposed to a chemical is important
Duration and frequency contribute to dose. Both may alter toxic effects.
Acute Exposure = usually entails a single exposure
Chronic Exposures = multiple exposures over time (frequency)
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Umar Farooq Chemist “ A”
SEC Shoaiba Jeddah
Father of Modern Toxicology Paracelsus—1564
“All things are poisonous, only the dose makes it non-poisonous.”
Dose alone determines toxicity
All chemicals—synthetic or natural—have the capacity
to be toxic
Dose THE KEY CONCEPT in Toxicology
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Umar Farooq Chemist “ A”
SEC Shoaiba Jeddah
The emerging field of
“Pharmacogenomics” or
“Toxicogenomics” offers
the potential to identify and protect
subsets of people predisposed to
toxicity from chemicals or drugs
Typical Population
Identify People with “normal” responses
More
Sensitive
Less
Sensitive
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Umar Farooq Chemist “ A”
SEC Shoaiba Jeddah
Oxygen Scavenger An oxygen scavenger is a chemical which
remove dissolve O2 in H2O by a reduction reaction and
there by inhibits to corrosion cause by the O2. we
discussed here following two type of oxygen scavenger
1) Sodium Sulphite Na2SO3
2) Hydrazine N2H4
Sodium Sulfite
In practice I ppm of oxygen required 8ppm of
Na2SO3 . The major disadvantage in it are is that 8ppm .
Na2SO3 contribute 9ppm of Na2SO3 into total dissolved
solid in the boiler consequently increasing blow down
. Sodium sulphite recommended for boiler operation at
pressure below 600 pisg. Umar Farooq Chemist “ A”
SEC Shoaiba Jeddah 7
Sodium Sulphite
The main disadvantage of
use sodium sulphite is decomposition
Na2SO3 + H2O 2NaOH +SO2
Na2SO3 + H2O 3NaSO4 + 2NaOH +H2S
The main problem associated
with sulphite break down is the formation of
corrosive gases So2 and H2S which can cause
corrosion in after boiler section
Umar Farooq Chemist “ A”
SEC Shoaiba Jeddah 8
Hydrazine
Use in power plant
In the treatment of feed
water system to protect Boiler and
pre boiler equipment’s from
oxygen attack’s
If left untreated, boiler
water derived oxygen will corrode
metallic boiler components leading
to increased maintenance costs
and reduced boiler efficiency.
Umar Farooq Chemist “ A”
SEC Shoaiba Jeddah 9
Hydrazine Treatment Hydrazine ( N2H4 ) can economically remove
small amount of dissolved oxygen . In addition it acts to
produce nitrogen and water thereby leaving the TDS
level of water un effected.
N2H4 + O2 N2 + 2H2O
Theoretically 1ppm of hydrazine is required to
react with 1ppm dissolved “ O2 “ but actually 1.5 to 2.0
ppm of N2H4 are required per 1ppm “ O2”
Hydrazine also react with Fe2O3 in the boiler
water to form a passive magnitude film on the boiler
surface preventing form the corrosion.
N2H4 + 6Fe2O3 4Fe3O4 + N2 + 2H2O
Umar Farooq Chemist “ A”
SEC Shoaiba Jeddah 10
Hydrazine Decomposition
Thermal decomposition of hydrazine
takes place above ( 270 C° ) ( 518 F ° ) Through
it influence by reaction time .
N2H4 NH3 + N2
270 c°
Since NH3 is produced by
decomposing of hydrazine , Normally copper
material is used in the steam and condensate
piping . The injection of excess hydrazine should
be avoided. Umar Farooq Chemist “ A”
SEC Shoaiba Jeddah 11
Other use of Hydrazine
Rocket Fuel: Hydrazine was first used as a Rocket Fuel during World War II for
the Messerschmitt Me 163B (the first rocket-powered fighter plane).
Hydrazine is also used as a low-power monopropellant for the maneuvering thrusters
of spacecraft and was used to power the Space Shuttle's auxiliary power units
(APUs)
In all hydrazine monopropellant engines, the hydrazine is passed by a catalyst
such as iridium metal supported by high-surface-area alumina (aluminum oxide)
or carbon nanofibers or more recently molybdenum nitride on alumina, which causes
it to decompose into ammonia, nitrogen gas, and hydrogen gas according to the
following reactions
3 N2H4 → 4 NH3 + N2
N2H4 → N2 + 2 H2
4 NH3 + N2H4 → 3 N2 + 8 H2
Reactions 1 and 2 are extremely exothermic (the catalyst chamber can reach 800 °C
in a matter of milliseconds) and they produce large volumes of hot gas from a small
volume of liquid
Umar Farooq Chemist “ A”
SEC Shoaiba Jeddah 12
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Eye Protection
Safety Glasses /
Goggles
Face
Shield
Respiratory System Protection
Dust mask
Respirator with Charcoal
Filter
General Purpose
Respirator SCBA
Skin Protection
Apron
Closed Shoes / Boots
Chemical Gloves
Impermeable Suite
Umar Farooq Chemist “ A”
SEC Shoaiba Jeddah
Hydrazine Safety & Hazed Properties :
Hydrazine is a color less
flammable liquid with an ammonia-like order
.Hydrazine is highly toxic and dangerously
unstable unless handle in solution
Safety & Hazard
EU classification
Flammable liquid and vapor
Fatal in contact with skin
Fatal if inhaled vapor
Toxic if swallowed
Causes severe skin burns and eye damage
May cause an allergic skin reaction
Suspected of causing genetic defects
Suspected of causing cancer
Causes damage to liver and central nervous
system
Causes damage the lungs, the kidneys and
the central nervous system through
prolonged or repeated exposure Very toxic to aquatic life with long lasting
effects
Umar Farooq Chemist “ A”
SEC Shoaiba Jeddah 14
Materials Causing Immediate and
Serious Toxic Effects
Characteristics
May cause immediate
death or serious injury if
inhaled, swallowed, or
absorbed through the skin
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Umar Farooq Chemist “ A”
SEC Shoaiba Jeddah
Hydrazine Replacement
Carbohydrazide based boiler water
oxygen scavenger that can be used as
a direct replacement for hydrazine.
High performance carbohydrazide
based oxygen scavenger giving
outstanding protection from oxygen
corrosion, plus feed water and boiler
system passivation.
Improved safety - a direct
replacement for hydrazine.
Used in boilers of any pressure up to
220 barg.
Umar Farooq Chemist “ A”
SEC Shoaiba Jeddah 16
Umar Farooq Chemist “ A”
SEC Shoaiba Jeddah 17