Important Facts of Water Storage Tanks

The availability of space is the most important factor for determining the placement of rainwater tank and the ground rainwater tank that occupy the space than those of the reservoirs that are installed below ground. These underground water storage containers save the space and won’t get in your way. Even the weather changes won’t create a problem for the underground tanks.

Drinking water storage tanks can be built for holding any amount of water. The surface location of the containers frees up the space for landscaping for ensuring the optimal conditions for retaining water. If you opt for underground water storage reservoir, then water management is possible in any kinds of soils.

However, though there are many advantages, there are some disadvantages of building drinking water storage tanks underground. First, you need a pump to extract the water, which is not like the above ground containers because the gravity will do all the work for you. Second, any malfunctions and leaks are very difficult to detect, which becomes quite easy when you can see the parts of the above ground container. Third, the tree roots hampers the structure of the underground water storage reservoirs and can even contaminate the water. You must have a cover for the underground tank for the prevention of faeces, pesticides, and soils entering the water during the rains. The above ground containers does not require such precautions. You can maintain the above ground reservoirs very easily.

Drinking water storage tanks are primarily used to store water for different purposes. First, they are stored for drinking. Otherwise, they are also used to store water for gardens. Even these tanks are also used for firefighting. Rainwater, if stored in these reservoirs , are suitable for drinking. The water storage containers are also used for storing liquid substances other than water. They are even used in the commercial and industrial purposes for storing oil, sewage, waste-water, and other petroleum products. In agriculture, the water storage tanks are used for storing rainwater for irrigation purpose. These water reservoirs vary in size, capacity, shape, ranging from small ones that holds a few hundred liters to the massive ones that can store thousands of liters.

There are various types of tanks, grouped according to the insulation location. These tanks are buried under houses, underground, and located above the ground. Drinking water storage tanks which are buried underground are either plastic or concrete. Water storage reservoirs that are placed above the ground provides a wide range of variety. For example, small plastic water containers will go up to 2,000 liters and is available in all shapes,such as cylindrical, rectangle, and round.

Properties and Applications of Steel Storage Tanks

Some industries that use high amounts of petroleum or fuel need sustainable and safe storage options. A steel tank is an excellent option for storing fuel in the above ground and the underground applications. The above ground storage reservoirs that are installed above the ground and underground are installed in a pit dug in the ground, which remain buried for life. The characteristics the above ground steel tanks are:

Steel reservoirs are available in the double-wall, single-wall, or the triple-wall storage configurations.
Capacities range from 5,000 to 20,000 gallons on the standard variants.
Customized steel tanks hold larger fuel capacities.
Available in fire-resistant variants.

The features of the underground steel tanks are:

Steel storage containers are not preferred for the underground storage.
Many enterprises choose steel over fiberglass.
Most of the underground fuel storage applications prefer fiberglass tanks.

The following characteristics make the steel storage container safe and efficient when it’s used over extended periods of time.

Easily accessible: It’s easy to access these reservoirs when it comes for maintenance or testing.

Low maintenance: Tanks with recurring repair expenses and high maintenance is a worse investment. Steel tanks are manufactured for demonstrating exceptional corrosion-resistance.]

Corrosion-resistance: Steel is susceptible to corrosion in the above ground and the underground applications. These containers are manufactured for demonstration of exceptional resistance to corrosion.

Despite of the growing demand of fiberglass, there are endless industries all over the world that depends on steel reservoirs. For example, these are bestowed for storing water which is used for gardening, landscaping, and irrigation. The steel storage containers are found at the sewage treatment plants and the water treatment plants. Steel containers are indispensable at fire stations as the large amount of water are stored in these, which is ready to be pumped into a fire truck. For the above applications, steel containers may be used in rainwater harvesting applications, mining operations, commercial use, and so on. Depending on the application of these reservoirs, it must adhere to industry standards and codes laid down by the federal agencies.

Stainless steel tanks are even more popular now. These are designed for food developing businesses. These can decrease the great deal of organization expenditures. This is because you can find a few functions in the food manufacturing organization which in turn must have normal water though not the superior quality drinking water. As an alternative, non-potable water can be utilized.

All you need to know about Coolant Additives

Study Confirms three-fifths of all engine problems are coolant-related. The primary function of coolant is to regulate the engine’s temperature, whereas coolant additives can enhance the effectiveness and prolong the life of the cooling system.

Coolants are generally a homogeneous mixture of glycol and water that shows flexible thermal properties like high boiling point, low freezing point, and stability over a wide range of temperatures but coolant is not enough to cause glycol to oxidize at high temperatures into organic acids like glycolic, glyoxalic, formic, carbonic and oxalic. These are highly corrosive and can be corrosive to the system metal causing problems like pitting, pinhole, and stress cracking corrosion. Even the resulting contaminants present in glycol add more to its rate, degrading the total working system. Even the resulting contaminants present in glycol add more its to rate, degrading the working system.

The primary problems associated with this unwanted acidity are:
Affects metallic pipelines, which leads to failure of temperature balance owing to heat loss.
Additionally, the absence of corrosion inhibitors can lead to rust and corrosion.
Without antifreeze agents, the coolant may freeze in cold conditions, causing cracks or bursts in the system. Furthermore, the lack of lubricants can increase friction, potentially damaging the water pump and other moving parts.
Overall, using coolant without additives can result in reduced cooling efficiency, costly repairs, and potential engine damage.
To overcome these problems, coolant additives were synthesized.
Coolant additives are designed to enhance the properties of the engine coolant. They are mixed with the coolant and can improve various aspects of the cooling system’s performance.

Corrosion Inhibitor: A cornerstone in coolant formulations, corrosion inhibitors protect vital components from corrosion, ensuring the longevity of cooling systems. These additives form a protective shield on metal surfaces, mitigating the harmful impact of rust and erosion, thereby maintaining optimal performance and reliability.
Antiscalant: Essential in coolant solutions, antiscalant deters scale formation within cooling systems. By preventing the accumulation of mineral deposits, these additives play a critical role in preserving the efficiency and functionality of equipment, such as radiators and heat exchangers.
Antifoam: Crucial in coolant formulations, antifoam agents combat foam formation during the cooling process. By effectively suppressing foam, these additives enhance system efficiency, prevent potential damage to components, and ensure a consistent and smooth coolant flow.
Thickener: In the realm of coolant additives, thickeners contribute to viscosity and stability. These agents enhance the thickness of the coolant, improving its adherence to surfaces and optimizing its performance in heat dissipation and protection of the cooling system.
Biocide / Preservative: In coolant formulations, biocides act as guardians against microbial contamination. By controlling the growth of bacteria and other microorganisms in the coolant, these additives maintain water quality, prevent fouling, and extend the life of the coolant and associated components.
Benefits of Using Coolant Additives:

Enhance Heat Transfer Efficiency: It improves the heat transfer properties of the coolant, ensuring that the engine maintains the optimal operating temperature.

Extended Cooling System Life: Corrosion inhibitors and lubricants included in additives protect crucial components, such as the radiator, water pump, and heater core, from wear and damage.

Minimized Maintenance Costs: By preventing issues like corrosion, leaks, and overheating, coolant additives can save money on maintenance and repair bills.

Corrosion and Rust Formation: Coolants with corrosion inhibitors create a shield of defines on the metal surfaces, halting the development of rust and extending the lifespan of the apparatus.

To stay at the forefront of coolant technology, Chemtex Speciality Limited makes efforts in research and development which leads to breakthrough discoveries, enabling formulation of excellent additives.

Chemtex Speciality Limited is a leading chemical manufacturer and offers Specially designed solutions to meet the specific needs of manufacturers. They work closely with manufacturers to understand their requirements, assess their cooling systems, and provide tailored made solutions that address their unique challenges.