Masoneilan * DSH * Series Desuperheater

Technical Specifications 11/2017 Masoneilan * DSH * Series Desuperheater BHGE Data Classification : Public

Table of Contents Overview... 2 DSH Flow Profiler Technology... 3 Liner Technology... 4 Hollow Cone Spray Nozzles... 4 Sizes and Connection Types... 5 Precise Temperature Control... 5 Avoid Cavitation and Flashing... 5 Materials of Construction...5-6 Specifications... 6 Reference Materials... 7 Overview The DSH Desuperheater serves as a means of controlling steam temperature, mainly in boiler and heat recovery steam generator (HRSG) applications within the power industry. All DSH Desuperheater can be certified for boiler applications and can be designed to meet ASME B31.1 and/or be in compliance with BPVC Section I. During operation of the DSH Desuperheater, steam enters the DSH and atomized water is sprayed into the flow to reduce the steam temperature as the water evaporates into the process steam. The spray water is controlled by a separate water supply valve in response to a control loop that monitors downstream pressure. Within the DSH Series, there is both a flow profiler style (DSH-110) and a liner style desuperheater (DSH-). Each design of the DSH Desuperheater is available in either a carbon steel construction or chrome-moly construction and can be modified to meet various temperature and environment conditions. 2 BHGE 2017 Baker Hughes, a GE Company. All rights reserved.

DSH Flow Profiler Technology The flow profiler is a Masoneilan patented feature that is installed upstream of the spray water nozzles in the desuperheater pipe. It directs the flow towards the center of the pipe and then permits flow expansion just prior to the spray water nozzles to optimize mixing of the spray water and the steam. The flow profiler also limits large temperature gradients at the surface of the desuperheater and reduces the thermal stress on the spray water nozzles extending the life of the product. Figure 1 below shows the simulation of the desuperheater s performance and demonstrates how the high temperatures and large thermal gradients are kept away from the pipes inner surface as well as away from the nozzles. Additionally, it is shown the nozzles provide adequate mixing and the steam reaches a new uniform temperature within a short distance. Figure 1 : Mixing, limiting temperature gradients 2017 Baker Hughes, a GE Company. All rights reserved. Masoneilan DSH Series Desuperheater Technical Specifications 3

Liner Technology Liner style desuperheaters utilize an internal liner welded into the mainline as a means of protecting the desuperheater housing against water impingement and thermal shock where spray water is injected. The liner is suspended from the desuperheater housing by a series of welded pins, allowing for a small clearance between the outside surface of the liner and the inside surface of the main desuperheater pipe. The liner allows the main pipeline to avoid stresses associated with sharp temperature gradients and extends the life of the product while also reducing downtime, maintenance costs, and risks of failure. Hollow Cone Spray Nozzles The DSH Series desuperheaters are designed to provide a maximum spray zone while assuring optimal droplet size to allow for the most efficient mixing of water and steam. This allows the desuperheater to create a consistent thermal distribution with the desired steam temperature within three meters when used with an appropriate control feedback and valve system. The design allows for minimal regions with widely varying temperatures and keeps the nozzles themselves protected from sharp temperature gradients. Section view of DSH liner DSH Series Nozzles The water manifold system is comprised of the spray nozzles, nozzle housing assemblies, and water manifold piping. The water manifold system is designed to the requirements of ASME B31.1 and/or ASME B&PV Section I. The available water manifold pipe sizes and connections are listed in Table 2. The flange connection, when applicable, shall be in accordance with ASME B16.5. DSH liner In standard DSH systems, water is injected into the process steam by a spring loaded, variable geometry spray nozzle with a hollow cone spray pattern. The available spray water nozzle sizes along with the maximum recommended number of nozzles are shown in Table 1. Contact BHGE engineering for use of different nozzle for special applications. 4 BHGE 2017 Baker Hughes, a GE Company. All rights reserved.

Sizes and Connection Types DSH Series Desuperheaters are available from 4 inch up to 40 inch diameter. Desuperheaters can be engineered to desired lengths and are available with butt weld connections and raised flange connections. Water manifold connections can also be specified with options shown in Table 2. Precise Temperature Control The DSH Series Desuperheater is intended to be placed in conjunction with a downstream temperature probe and a feedback system signaling a control valve upstream of the water manifold. With years of research, BHGE engineers have worked to optimize the manifold/nozzle delivery system to maximize performance of the desuperheater. For recommendations on probe locations and appropriate feedback loops, see IOM/Install Guide. Avoid Cavitation and Flashing The DSH series desuperheater is designed to allow proper drainage of condensate and avoid any flashing causing damage to the flow profiler, liner, or nozzles. The nozzles are also designed, when used with a proper control valve and feedback system, to avoid excess water being sent into the main pipeline. Materials of Construction Detail of Flow Profiler Style Desuperheater Liner Style Desuperheater 2017 Baker Hughes, a GE Company. All rights reserved. Masoneilan DSH Series Desuperheater Technical Specifications 5

Materials of Construction Table 1 : Pipe sizes and connections Nominal DSH Pipe Size Nozzle Size CV0.4 CV0.8 CV1.5 CV3 CV5 CV10 Min Number of Nozzles Max Number of Nozzles 6 2 2 2 2 2-1 8 2 2 2 2 2 2 1 10 4 4 4 4 4 2 2 12 4 4 4 4 4 4 2 14 6 6 6 5 5 4 2 16 8 8 6 6 6 5 3 18 8 8 6 6 6 5 3 20 8 8 6 6 6 6 4 24 8 8 8 6 6 6 4 26 8 8 8 6 6 6 4 28 8 8 8 6 6 6 4 30 8 8 8 8 8 8 4 32 8 8 8 8 8 8 4 36 8 8 8 8 8 8 4 40 8 8 8 8 8 8 4 Specifications Body : Nozzles Manifold Material Carbon Steel Chrome-Moly Size 4 in. to 40 in. Ratings End Connections Butt Weld Raised Flange End Connections ASME: SWE Table 2 : Pipe sizes and connections Socket Weld End Pipe Schedules Nominal DSH Pipe Size Socket Weld Class Designation 3000 6000 9000 1 1.5 2 2.5 3 4 6 80 XXS N/A N/A 6 BHGE 2017 Baker Hughes, a GE Company. All rights reserved.

Reference Materials Table 3 : Reference materials Nom Size 1, 1.5, 2, 2.5, 3 ASME Class 150 300 600 900 1500 2500 Connection Type Schedule / Class Nom Size 4,6 ASME Class Connection Type Schedule / Class 150 SWE (1) SWE (1) 300 SWE (1) SWE (1) 600 STD/40 SWE (1) SWE (1) 900 SWE (1) STD/40 SWE (1) SWE (1) - Flanged Connection - Ring Type Joint 1500 XXS SWE (1) XXS XXS SWE (1) - Buttwelded End 2500 SWE - Socket Welded End Connection XXS Note 1: Please see table 2 for guidance on SWE connection pipe schedules. XXS XXS SWE (1) 2017 Baker Hughes, a GE Company. All rights reserved. Masoneilan DSH Series Desuperheater Technical Specifications 7

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