Pourquoi l'ORP est-il important dans l'aquarium ?

What is the easiest way to understand redox in a tank?

 

Imagine that a fish tank is a large tank with many fish and other aquatic beings in it. This tank is like a giant battery. In this tank, there are electrons called ORP, just like electrons in a battery.

 

ORP is the "energy" of the water: ORP can be considered the "energy level" of water, like electrical energy in a battery. This "water energy" determines how clean and biologically healthy the water is. When the ORP is high, the water is very clean and healthy, like an energized battery. Water with a low ORP is like a dying battery that may need more energy to remain clear and biologically healthy.

 

Oxidation is the source of "energy" in water: The "oxidation" part of the ORP is like the electrical energy in a battery; it provides the "energy" in the water. This "oxidized" energy helps remove waste, harmful substances, and bacteria from the water.

 

Reduction is the "reserve" of the water: The "reduction" part of the ORP is like the reserve of electricity in a battery; it maintains and stabilizes the "energy" in the water. This "reducing" reserve helps to maintain water stability.

 

So, ORP is like the energy level of the water. It is determined by the oxidation and reduction processes taking place in the water. A high ORP indicates that the water is energized, clean, and healthy. In contrast, a low ORP may require more energy to keep the water clear and biologically healthy. Maintaining a proper ORP level is important for water quality and biological health in your aquarium.

 

ORP in the fish tank refers to the oxidation-reduction potential in the tank water, also known as the oxidation reduction potential. It is an indicator to measure the redox nature of water, which can be used to reflect the oxygen content and the purity of water.

 

The ORP value can also be used to measure the concentration of harmful substances in fish tanks, such as ammonia, nitrite, and nitrate. Generally speaking, the ORP in the fish tank should be kept at a positive value. This ensures enough oxygen in the water for fish to breathe. Moreover, a high ORP value can reduce the concentration of harmful substances in the water, which is beneficial for fish and water quality stability.

 

ORP are usually expressed in units of millivolts (mV). The ORP value is zero when oxidation and reduction reactions in the solution are balanced, indicating that the redox reaction has been terminated. A positive ORP value indicates the presence of an oxidizing agent, whereas a negative ORP value indicates the presence of a reducing agent. Generally, the higher the ORP value, the higher the concentration of the oxidant in the solution. Vice versa, the lower the ORP value, the lower the concentration of the reducing agent in the solution.

 

During water treatment and water quality monitoring, ORP values can be used as a measure of whether water has oxidizing or reducing substances. Additionally, it can be used to determine the amount of disinfectant in water, the level of organic matter degradation, and the state of microbial growth in water. The ORP value can also be used to regulate redox reactions in water, such as in ponds or fish tanks, improving water quality and promoting fish health by controlling oxygen supply and redox concentration.

 

The following are some of its key roles:

  1. Measurement of water quality and stability. ORP is a measure of water stability and cleanliness. High ORP values usually indicate positive water quality, while low ORP values may indicate poor water quality. Maintaining a proper ORP level helps to ensure stable water quality.
  2. Monitor oxygen levels.The ORP is strongly correlated with the oxygen level in the water. A high ORP value often means that the oxygen level in the water is high, which is essential for aquatic organisms to breathe. Keeping an eye on ORP ensures there is enough oxygen in the water.
  3. Monitor ammonia and nitrite levels. ORP is also correlated with ammonia and nitrite concentrations. These two substances are harmful to fish and aquatic organisms because they cause ammonia poisoning and nitrite poisoning. It helps control and reduce the concentration of harmful substances by maintaining a proper ORP level.
  4. Bacterial control.The level of ORP in the water is crucial to controlling harmful bacteria in the water and reducing the risks of infection among aquatic organisms. High ORP levels usually inhibit harmful bacteria growth, helping to maintain aquatic health.
  5. Maintain the health of corals and aquatic plants. For corals and aquatic plants, proper ORP levels are essential for their growth and health. High ORP values can promote coral and aquatic plant growth, while low ORP values may make them unhealthy.

 

The ORP value of tap water is generally between 150 and 350mV, depending on factors such as the source, treatment, and delivery method. ORP values may differ depending on the source of water and the treatment method used in different regions.

 

Water in some areas may contain oxidizing substances, such as chlorine and other disinfectants, which will increase the ORP value. In other areas, tap water may contain too many reducing substances, such as sulfides, which lower the ORP.

 

It is ideal to keep the ORP value of the fish tank between 200 and 400 mV to ensure equilibrium between oxidation and reduction reactions. Additionally, it promotes the healthy growth of fish by controlling oxides and organic substances in the water.

 

An ORP value lower than 200mV indicates the presence of too many reducing substances in the fish tank, such as ammonia and hydrogen sulfide, which can harm fish and negatively affect water quality. At this time, it is necessary to increase oxygen supply in the water or add oxidants to increase ORP values, and at the same time implement appropriate water quality management to ensure fish tank water quality stability.

 

An ORP value greater than 400 mV indicates too many oxidizing substances in the water, such as chlorine or ozone, which can harm fish, resulting in death or stunted growth. In this stage, the concentration of oxidants or disinfectants in the water needs to be reduced, the ORP value must be lowered, and water quality management must be ensured in order to ensure stability.

Tip for High ORP:
 

  1. Enhance oxygen supply. Make sure the tank water has an adequate supply of oxygen, either by adding air stones or oxygen pumps, or by increasing water circulation.
  2. Check the water filtration system. Make sure your filtration system is effective at removing waste and organic pollutants, such as ammonia and nitrogen. An excessive buildup of oxidizing substances may cause a high ORP.
  3. Limit the addition of oxidizing substances. The ORP can be lowered by reducing the use of oxidizing substances, such as hydrogen peroxide or ozone.
 
Tip for Low ORP:
 
  1. Enhance oxygen supply. Make sure the tank water has an adequate supply of oxygen, either by adding air stones or oxygen pumps, or by increasing water circulation.
  2. Increase plants. As aquatic plants photosynthesize in the light and release oxygen, they can assist in increasing oxygen levels.
  3. Reduce organic waste. Reduce overfeeding and clean your tank regularly to reduce organic waste buildup, which can increase ORP.
  4. Check the filtration system. Ensure that the filtration system functions properly to effectively remove waste and maintain water quality.
 
ORP is an important parameter for water quality monitoring and critical to fish and aquatic life health. Please monitor the ORP regularly to ensure it stays within the proper range.