REEF-SPEC Carbon
Highly activated carbon for marine & reef aquariums
Red Sea REEF-SPEC Carbon is the ultimate choice for marine & reef aquariums due to its unique technical characteristics.
Red Sea REEF-SPEC Carbon's granule
size and its micro/macro porous structure, ensures a very high total
adsorption capacity and rapid extraction of the specific organic
pollutants that are found in Reef aquariums.
REEF-SPEC Carbon has extremely low phosphate leaching and minimal ash content while also not affecting the pH of aquarium water.
Red Sea REEF-SPEC Carbon needs replacing less frequently
than carbons that are not reef-specific or are of a lower quality and
represents an effective, cost-efficient solution for providing the very
best water quality in marine & reef aquariums.
Main features:
- Rapid removal of organic pollutants
- High total adsorption capacity
- Ultra-Low phosphate output
- Ultra-Low ash content
- Suitable for Marine & Freshwater
- Filter Bag included( 250gr, 500gr)
REEF-SPEC Carbon is available in 250g /9 oz , 500g /18 oz and 1000g /35 oz containers.
The role of Activated Carbon in the reef aquarium
Why do we need to use carbon in a reef aquarium?
There are organic pollutants that can only be removed from reef aquarium water by active carbon.
The reef aquarium is a closed artificial ecosystem where living
creatures continually produce organic waste consisting of proteins,
fats, carbohydrates, organic acids and phenols.
If allowed to decompose the organics will fuel the activity of many
unwanted microorganisms in the aquarium, increasing the total oxygen
demand (BOD, COD) which will cause a reduction in Redox potential, as
well as causing excessive production of CO2 by bacterial
respiration, which will reduce pH. Furthermore, there will be an
increase in nitrogenous and phosphorus compounds, encouraging growth of
nuisance bacteria and eventually of nuisance algae. The accumulating
organics also has a significant effect on light penetration, especially
in the blue and near UV spectrum that stimulates coral growth.
Stripping out the organics from the water is therefore crucial for
the success of the aquarium. Using strong protein skimming, fine
mechanical filtration and healthy biological filtration (nitrification
and de-nitrification) will treat the large organic particles and the end
products of the organic decomposition processes. However, there are
many small organic particles that can only be treated by very fine
mechanical micro-filtration using activated carbon.
How does activated carbon filter water?
Scientifically speaking, carbon removes the organics from water by a
physical process called adsorption. Within a reef aquarium, the
submicroscopic pores of activated carbon is the final stage of the
mechanical filtration process, adsorbing the organic molecules that are
too small to be removed by even the finest mechanical filters or
physically removed from the water by protein skimming.
Adsorption can be thought of as the adhesion of a molecule to surface
by attractive forces. This occurs within the submicroscopic pores of
the carbon because the attractive forces between the organic molecules
and the internal surfaces of the carbon are far greater than the
attractive forces that keep them dissolved in solution. This will
continue until all of the surface area inside the carbon is used up and
it becomes saturated with organics.
What is activated carbon?
Activated carbon is an extremely porous material with a sponge like
structure but with a very large internal surface area relative to its
physical size. It is produced from many organic materials that have a
high carbon content such as coconuts shells, nutshells, lignite,
bituminous coal or anthracite. The carbon-based material is activated through physical modification and thermal decomposition in a furnace,
under a controlled atmosphere and temperature. The activation process
significantly increases the surface area per unit volume of a fine
network of submicroscopic pores which is what gives activated carbon its
ability to act as a filter material. The specific source of the carbon
and the specific activation process determines the physical
characteristics of the finished product. There are many different grades
of activated carbon and therefore they must be selected specifically
for each and every application.
What makes a specific carbon ideal for reef aquariums usage?
There are a number of internationally accepted tests for evaluating
and comparing activated carbon. However, the most significant parameters
for selecting a carbon for reef aquariums are the Iodine Number and Methylene Blue Number.
These two parameters measure the ability of the carbon to adsorb all of
the organic waste from a reef aquarium that is not removed by the
mechanical filtration and protein skimming. The higher the number the
more organics will be removed from the aquarium per gram of active
carbon used. Both of these numbers are about as important as each other
and should always be considered together when evaluating test data.
Some manufacturers quote a Molasses Number,
however the molecules in the molasses size range are typically removed
by protein skimming and therefore this number is irrelevant when
evaluating the suitability of activate carbon for reef aquariums.
In the past, carbons have been known to leach phosphate into the
water, which is undesirable for a reef aquarium and therefore the lowest
levels of Leachable Phosphate
are considered better. In reality, as long as the leachable phosphate
is below a basic threshold level, any differences below that level is
not measurable in reef aquariums and is therefore irrelevant.
The cleanliness or dustiness of the product is also a consideration and is measured as the Ash Level.
The lower the better as higher levels indicate a larger quantity of
particles will be released to the water and a lower actual mass of
carbon left to do the filtration. Ash levels are often quoted by
manufacturers however it is easiest visualized by viewing the turbidity
on adding the carbon to water.
In addition to these important indicators, the overall efficiency of
the activated carbon will be effected by its physical parameters such as
Product Density, TSA, Pore Volume and Mesh Size.
Activated carbon produced from lignite and anthracite are not
recommended for reef aquariums due to an excessive amount of fine powder
released to the water (which may lead to lateral line necrosis HLLE
disease in some fish). Coconut shell or bituminous coal are the
preferred sources.
Tips on using Reef Spec Carbon in a reef aquarium
The adsorption activity of the carbon media relies on a good
carbon/water contact and therefore moderately active water flow will
increase the efficiency. Strong water flow will reduce the contact time
and interfere with the adhesion process of the organic molecules to the
carbon. Strong water flow may also cause the granules to grind against
each other, releasing carbon material to water.
For best results:
- Remove any fines, by rinsing carbon under tap water.
- Due to air trapped in the pores carbon will float and therefore it
is recommended to soak the carbon in RO water until all of the air has
been released.
- Place the carbon in a location with an active flow of 1000-1500 lph (250-400 gph) per 50 gr carbon.
- Replace carbon every 1.5 - 2 months. Note: When carbon becomes
saturated with organics, it may start adsorbing some of the trace
elements from the seawater.
Usage Guide
Organic load and yellow tint removal:
The recommended dosage of Red Sea's REEF SPEC Carbon is approximately
50 gr (100 ml) per 200 L (50 gallons) for a period of 1-2 months for a
moderately stocked reef aquarium.
Post-medication treatment: The
recommended dosage of Red Sea's REEF SPEC Carbon to adsorb medication
residuals is approximately 100 gr (200 ml) per 200 L (50 gallons) for a
period of a week.
Ozone post-treatment: The
recommended dosage of Red Sea's REEF SPEC Carbon to remove residual
ozone is 50 gr per 50mg/hr of ozone injection. The carbon should be
placed at the ozone reactor/ protein skimmer outlet. Carbon should be
replaced once it has reached approximately 50% of its original volume.
Comparative test results between Red Sea's Reef-Spec Carbon and other leading brands
Note: Testing was carried out in Red
Sea's laboratory of a single sample of a number of leading brands of
carbon, purchased at random.
**Overall rating is based on the average score of the following 4 parameters
Technical Terms
Iodine Number: Standard testing done to estimate the
adsorption capacity of small molecules, in the range of 10 A to 15 A.
Recommended levels for reef aquariums are above 850 mg/g but the higher
the number the better.
Methylene Blue Number: Standard testing done to
estimate the adsorption capacity of medium size molecules in the range
of 15 A to 40 A. Recommended levels for reef aquariums are above 250
mg/g but the higher the number the better.
Molasses Number: Non-standard testing done to
estimate the adsorption capacity of large molecules above 40 A. There is
no recommended level for reef aquariums these molecules are removed by
protein skimming.
Ash Level: A measure of the non-carbon content of
the activated carbon. This is normally a dust that will be released from
the carbon to the water. The less Ash the better.
Leachable phosphate: A measure of the amount of
residual orthophosphates PO4 that may leach from the carbon to the
aquarium. The less phosphate the better and for reef aquariums should be
below 10 mg/kg. Highest quality carbons will be below 2 mg/kg.
Product Density: Density of the carbon at maximum packing efficiency, reported in g/ml.
TSA - Total Surface Area: Amount of pore surface
available for adsorption for a given mass of carbon, measured using
techniques such as BET nitrogen adsorption; reported in units of mg/g.
Recommended levels are above 800 mg/g.
Pore volume: The amount of macro, meso and micro pores. The ratio between TSA to pore volume estimate the active surface area in m2/ml.
Mesh Size: Measure of particle size range of the granular product. Recommended mesh size for water treatment is 8 x 30 mesh (0.6 x 2.4 mm).