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Tantalum can be fabricated into most TEMA-type design Shell and Tube Heat Exchangers for chemical, petrochemical, steel and pharmaceutical applications. Tantalum Heat Exchangers can be designed to utilize Tantalum-lined carbon steel, fiberglass, PTFE lined, or glass-lined carbon steel heads and bonnets.  Tantalum can also be explosive clad to carbon steel to form a bimetallic material of construction. This is an ideal solution for very high pressure Tantalum Heat Exchanger Bonnets and Reactors. The ability of tantalum to resist severe corrosion makes it an ideal choice for heat exchangers with highly corrosive process fluids. Severe Corrosive environments involved in heating /boiling of corrosive acids in tanks can be comfortably handled by Tantalum Bayonet Heaters. Heat Exchangers for Corrosive Applications The high corrosion resistance of Exotic metals and Special Steel combined with their high heat conductivity and manufacturing friendly properties make them ideally s

Liquid Eductors depend on the jet venturi standard and use high speed liquid jets to entrain gases/vapours and compress them to the necessary release pressures. We supply Liquid Eductor or Liquid Jet Gas Ejectors for both vacuum and above atmospheric gas compression applications. Liquid Eductors use water or other liquids under pressure as the motive fluid and operate on the Venturi principle to mix dry chemicals into slurries. Water is constantly injected inside the slurry cone to provide instantaneous hydration, reduce dust, and avoid clumps. The high-velocity jet of liquid from the eductor nozzle creates a vacuum, which causes the suction of the mixed liquid. Sodimate solutions are an ideal way to continuously produce solutions or well blended slurries and are commonly used in chemical, food, power, pharmaceutical, and wastewater applications. The Liquid Eductor enables to lift, entrain and pump out a low pressure liquid utilizing a high pressure motive liquid. The high pres

Water jet ejector is manufactured with the use of paramount quality components and the leading-edge technology under the visionary guidance of our highly skilled professionals. Known for its high efficiency and less maintenance, the provided ejector is also tested on certain parameters in order to ensure its flawlessness. Moreover, we offer this Water Jet Ejector in various specifications at economic rates. Using a Water Jet Ejector, the motive power is taken all the way through the kinetic energy of the flowing water. This is certainly one of the most rational, easy to install and rational concepts to deal with considerable vapors. It boots off a simple design that indeed does not require any particular maintenance. In this system, the motive force is taken through the kinetic energy of moving water. Considered as a cost-effective system for handling condensable vapors, the ejector system has a simple design and no moving parts. Clients acclaim this Water Jet Ejector system

Power to gas storage could be a technology that converts electrical power to a gas energy storage fuel. when using surplus power from wind generation, the thought is usually referred to as wind gas. The increasing infiltration of inexhaustible energy formation in the electrical energy market is at this time generating new problems, associated with the identified age of generation prediction and planning, due to the imbalance between power generation and utilization. So as to deal with these problems, the implementation of the latest large scale storage units on the electric network is predicted as a key mitigation technique. Power-to-Gas allows for the storage of significant amounts of energy and the provision of CO2 neutral fuels in the form of the resulting renewable energy gas mix of hydrogen and methane. In future Power to Gas energy systems with high shares of fluctuating renewable energy generation, electricity storage will become increasingly important for the utilization

What is Flare Gas? In Petroleum refineries, Natural gas processing plants and in Oil and gas Production sites, mixture of natural gases is generated from the below sources: Extraction of Natural Gas along with oil from oil wells, Gases formed above the liquid level in storage tanks, Flashing of high pressure crude to low pressures. This gas consists of a mixture of various hydrocarbons and is also known as associated petroleum gas. The Gas is flammable in nature and its composition varies from plant to plant and will also vary with time over the operating life of the plant/Oil-well. What is Gas Flaring and Why Flare Gas Recovery Systems are Useful? Gas flaring is generated by the combustion of associated gas coming from industrial processes including oil and gas recovery and petrochemical production. It is one of the most significant contributors to the increase in greenhouse emissions. Flare Gas Recovery Systems are one of the cleanest solutions to minimize or elimina