Desuperheater Market, By Type (Indirect Contact, Direct Contact, Water Spray, Axial Injection Spray, and Multiple Nozzle Axial Injection Spray), Industry (Chemicals, Food & Beverage and Oil & Gas), Region

According to MarketsandMarkets, the desuperheater market is projected to grow from USD XX million in 2024 to USD XX million by 2030; it is expected to grow at a Compound Annual Growth Rate (CAGR) of XX% from 2022 to 2027. Desuperheaters are used for processes involving steam, gas, and LNG across various industries, including chemicals, food & beverage, mining, oil & gas, power generation, and petrochemicals. Various types of desuperheater include - indirect contact desuperheater, direct contact desuperheater, water spray desuperheater, axial injection spray desuperheater, multiple nozzle axial injection spray desuperheater, and others.

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Market Dynamics

Drivers: Growing adoption of desuperheaters in power plants drives the growth of the market

Modern power plants demand steam at specific temperatures and pressure. Advanced plant designs include requirements for increased operating temperatures and pressures along with stringent noise limitations in urban areas. Steam is used throughout power plants in many ways, from driving to turbines to feedwater heaters. Processes in the plants require precise, coordinated control of the temperature, pressure, and quality of the steam. Desuperheaters in power plants are adopted to condition the steam produced for several applications. Desuperheaters reduce and condition the temperature of superheated steam in power plants, often a usable energy source for mechanical power generation in steam turbines.

Expansion of refineries and petrochemical plants to create high-growth opportunities

The petrochemical industry is consistently growing in emerging and developed nations, positively influencing the desuperheater market. The petrochemicals industry accounts for 12% of the global demand for feedstock, which is expected to increase with the rise in demand for fertilizers, plastics, and other products. In addition, many planned projects related to the production and transportation of oil and gas would provide significant opportunities for the players in the desuperheater market. For instance, in 2021, the Indian Oil Corporation (India) announced its plan to invest USD 13.6 billion to expand the refinery capacities in the country over the next five years. Thus, the increasing number of refineries, petrochemicals, and chemical plants is expected to boost the demand for desuperheater.

Challenge: Functional restraint adds to maintenance costs in a process

The introduction of spray water creates a temporary two-phase flow in the steam pipe. The desuperheater is expected to limit any negative effects by reducing the time the steam resides in the system. Steam velocities are a critical factor in limiting these negative effects. Good piping practices dictate that water flow is restricted to velocities of 15 to 25 ft/sec, but steam line velocities often are in the range of 200 to 400 ft/sec. Until the spray water evaporates, water droplets will remain entrained in the steam at high velocity. If these droplets strike piping elements or other equipment, they can cause erosion damage.

Key Market Players

A few of the key players in the desuperheater market are Spirax-Sarco Engineering (UK), Emerson Electric Co. (US), CIRCOR International, Inc. (US), Graham Corporation (US), Kiekens-DSH BV (Netherlands), Komax (Switzerland), IMI Critical Engineering (US), Pick Heaters Inc. ( US), Schubert & Salzer Inc. (US), and Schutte & Koerting (US)