HT(Q)LC2H4 Storage Tank – Efficient and Durable Solution
Product advantage
High-temperature (HT) high-pressure (Q) linear low-density polyethylene (LC2H4) storage tanks, also known as HT(Q) LC2H4 storage tanks, are vital to various industries that require the safe storage of LC2H4 gas at high temperatures and pressures. These tanks are designed to meet the unique requirements of LC2H4 gas storage, ensuring the safety of workers, the environment and overall operational efficiency.
One of the key characteristics of HT(Q)LC2H4 storage tanks is their ability to withstand high temperatures. LC2H4 gas needs to be stored at high temperatures to maintain its physical properties and prevent it from becoming solid. These tanks are equipped with advanced thermal insulation systems that can withstand temperatures up to 150 degrees Celsius, ensuring that the LC2H4 gas remains in a gaseous state within the tank.
Additionally, HT(Q)LC2H4 tanks are designed to withstand high pressures to maintain the integrity of the tank and prevent any leaks. Tanks are constructed from high tensile strength materials such as carbon steel or stainless steel to ensure their structural stability under extreme pressure conditions. In addition, these tanks are equipped with pressure relief valves and safety devices that effectively control and release pressure when it exceeds specified limits, minimizing the risk of accidents or explosions.
Another important feature of HT(Q)LC2H4 storage tanks is their corrosion resistance. LC2H4 gas is highly corrosive and will damage traditional storage tanks made of ordinary materials. However, HT(Q)LC2H4 tanks are designed with a specialized coating and lining system that provides excellent corrosion resistance, ensuring the longevity of the tank and minimizing the risk of gas leaks.
In addition to their rugged construction, HT(Q)LC2H4 tanks are equipped with various safety features to ensure safe handling of LC2H4 gas. These tanks are equipped with multiple sensors and monitoring systems that continuously measure temperature, pressure and other important parameters. In the event of any abnormality, such as a sudden rise in temperature or pressure, an alarm is triggered to alert operators so they can take necessary action in a timely manner.
In addition, HT(Q)LC2H4 storage tanks are designed with an efficient ventilation system to prevent pressure build-up inside the tank. These ventilation systems prevent excessive pressure by safely releasing excess gases into the atmosphere. Proper ventilation is critical to maintaining the structural integrity of the tank and preventing potential hazards.
The importance of HT(Q)LC2H4 storage tanks cannot be overstated, especially in industries such as petrochemical, plastics and chemical manufacturing where LC2H4 gas is widely used. These tanks provide a reliable and safe storage solution for LC2H4 gas, ensuring uninterrupted production processes while prioritizing the safety of workers and the environment.
In summary, HT(Q)LC2H4 storage tanks play a vital role in the safe storage of LC2H4 gas. Their high temperature resistance, pressure handling capabilities, corrosion resistance and integrated safety features make them an important part of industries handling LC2H4 gases. By investing in reliable HT(Q)LC2H4 storage tanks, companies can ensure their processes run smoothly while prioritizing safety and efficiency.
Product Applications
High Temperature and (Quenching) Low Temperature Controlled Ethylene (HT(Q)LC2H4) Storage Tanks are specially designed vessels used in various industries to store and transport multifunctional gases. These storage tanks provide optimal conditions for the effective storage and utilization of HT(Q)LC2H4, ensuring safety, efficiency and convenience. These tanks have specific features that address the unique challenges associated with HT(Q)LC2H4 storage, making them indispensable in a variety of applications.
A key aspect of the HT(Q)LC2H4 tank is the materials used in its construction. These tanks are typically made from high-quality stainless steel or other corrosion-resistant alloys. This material selection ensures that the tank can withstand the corrosive nature of HT(Q)LC2H4, preventing leaks and other potential hazards. Additionally, the tanks are manufactured with high precision and undergo strict quality inspections to ensure structural integrity and safety.
Another notable feature of the HT(Q)LC2H4 storage tank is thermal insulation. To withstand the low temperature requirements, these tanks are equipped with efficient thermal insulation systems. This insulation helps maintain optimal temperatures within the tank, preventing heat loss and minimizing the risk of condensation or crystallization. It ensures the stability of HT(Q)LC2H4, protecting its quality and extending its shelf life.
Safety is paramount when handling HT(Q)LC2H4 and the tank is designed to comprehensively address this issue. The tanks are equipped with advanced safety features including pressure relief valves, emergency shutdown systems and temperature and pressure monitoring devices. These features ensure controlled storage conditions inside the tank and protect against overpressure or sudden temperature fluctuations. In addition, the tank is equipped with a secondary containment system as an additional layer of protection against potential leaks or spills.
HT(Q)LC2H4 storage tanks are widely used in various industries. One of its main applications is in the petrochemical sector, where HT(Q)LC2H4 is used as a feedstock in a variety of processes, including polymer production and ethylene oxide synthesis. These tanks enable large-scale storage and efficient transportation of HT(Q)LC2H4 from the production site to downstream processing units, ensuring a stable supply for ongoing operations.
Another important application lies in the pharmaceutical industry. HT(Q)LC2H4 is used for cryopreservation of biological materials such as cells, tissues and vaccines. These tanks provide an ideal environment for the long-term storage of these delicate and valuable biological products to maintain their potency and vitality.
In the food and beverage industry, HT(Q)LC2H4 storage tanks are used to freeze and preserve food. The low temperatures of HT(Q)LC2H4 enable rapid freezing, preserving the quality, flavor and nutritional value of perishable items. As a safe and effective refrigerant, HT(Q)LC2H4 ensures consistent temperature control throughout storage and transportation.
In summary, HT(Q)LC2H4 tanks play a vital role in the safe storage and transportation of this versatile gas. With their unique features, including rugged construction, efficient insulation and advanced safety systems, these tanks provide an optimal environment for HT(Q)LC2H4 storage. Their applications span a variety of industries, supporting petrochemical processes, pharmaceutical preservation and food storage. With the continuous development of storage tank technology, the storage and utilization of HT(Q)LC2H4 will be further optimized and contribute to the progress of various industries around the world.
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| Specification | Effective volume | Design pressure | Working pressure | Maximum allowable working pressure | Minimum design metal temperature | Vessel type | Vessel size | Vessel weight | Thermal insulation type | Static evaporation rate | Sealing vacuum | Design service life | Paint brand |
| m3 | MPa | MPa | MPa | ℃ | / | mm | Kg | / | %/d(O2) | Pa | Y | / | |
| HT(Q)10/10 | 10.0 | 1.000 | <1.0 | 1.087 | -196 | Ⅱ | φ2166*2450*6200 | (4640) | Multi-layer winding | 0.220 | 0.02 | 30 | Jotun |
| HT(Q)10/16 | 10.0 | 1.600 | <1.6 | 1.695 | -196 | Ⅱ | φ2166*2450*6200 | (5250) | Multi-layer winding | 0.220 | 0.02 | 30 | Jotun |
| HT(Q)15/10 | 15.0 | 1.000 | <1.0 | 1.095 | -196 | Ⅱ | φ2166*2450*7450 | (5925) | Multi-layer winding | 0.175 | 0.02 | 30 | Jotun |
| HT(Q)15/16 | 15.0 | 1.600 | <1.6 | 1.642 | -196 | Ⅱ | φ2166*2450*7450 | (6750) | Multi-layer winding | 0.175 | 0.02 | 30 | Jotun |
| HT(Q)20/10 | 20.0 | 1.000 | <1.0 | 1.047 | -196 | Ⅱ | φ2516*2800*7800 | (7125) | Multi-layer winding | 0.153 | 0.02 | 30 | Jotun |
| HT(Q)20/16 | 20.0 | 1.600 | <1.6 | 1.636 | -196 | Ⅱ | φ2516*2800*7800 | (8200) | Multi-layer winding | 0.153 | 0.02 | 30 | Jotun |
| HT(Q)30/10 | 30.0 | 1.000 | <1.0 | 1.097 | -196 | Ⅱ | φ2516*2800*10800 | (9630) | Multi-layer winding | 0.133 | 0.02 | 30 | Jotun |
| HT(Q)30/16 | 30.0 | 1.600 | <1.6 | 1.729 | -196 | Ⅲ | φ2516*2800*10800 | (10930) | Multi-layer winding | 0.133 | 0.02 | 30 | Jotun |
| HT(Q)40/10 | 40.0 | 1.000 | <1.0 | 1.099 | -196 | Ⅱ | φ3020*3300*10000 | (12100) | Multi-layer winding | 0.115 | 0.02 | 30 | Jotun |
| HT(Q)40/16 | 40.0 | 1.600 | <1.6 | 1.713 | -196 | Ⅲ | φ3020*3300*10000 | (13710) | Multi-layer winding | 0.115 | 0.02 | 30 | Jotun |
| HT(Q)50/10 | 50.0 | 1.000 | <1.0 | 1.019 | -196 | Ⅱ | φ3020*3300*12025 | (15730) | Multi-layer winding | 0.100 | 0.03 | 30 | Jotun |
| HT(Q)50/16 | 50.0 | 1.600 | <1.6 | 1.643 | -196 | Ⅲ | φ3020*3300*12025 | (17850) | Multi-layer winding | 0.100 | 0.03 | 30 | Jotun |
| HT(Q)60/10 | 60.0 | 1.000 | <1.0 | 1.017 | -196 | Ⅱ | φ3020*3300*14025 | (20260) | Multi-layer winding | 0.095 | 0.05 | 30 | Jotun |
| HT(Q)60/16 | 60.0 | 1.600 | <1.6 | 1.621 | -196 | Ⅲ | φ3020*3300*14025 | (31500) | Multi-layer winding | 0.095 | 0.05 | 30 | Jotun |
| HT(Q)100/10 | 100.0 | 1.000 | <1.0 | 1.120 | -196 | Ⅲ | φ3320*3600*19500 | (35300) | Multi-layer winding | 0.070 | 0.05 | 30 | Jotun |
| HT(Q)100/16 | 100.0 | 1.600 | <1.6 | 1.708 | -196 | Ⅲ | φ3320*3600*19500 | (40065) | Multi-layer winding | 0.070 | 0.05 | 30 | Jotun |
| HT(Q)150/10 | 150.0 | 1.000 | <1.0 | 1.044 | -196 | Ⅲ | Multi-layer winding | 0.055 | 0.05 | 30 | Jotun | ||
| HT(Q)150/16 | 150.0 | 1.600 | <1.6 | 1.629 | -196 | Ⅲ | Multi-layer winding | 0.055 | 0.05 | 30 | Jotun |
Note:
1. The above parameters are designed to meet the parameters of oxygen, nitrogen and argon at the same time;
2. The medium can be any liquefied gas, and the parameters may be inconsistent with the table values;
3. The volume/dimensions can be any value and can be customized;
4.Q stands for strain strengthening, C refers to liquid carbon dioxide storage tank
5. The latest parameters can be obtained from our company due to product updates.
