Our Citadel Engineering team made a strong impact at the recent Baghdad Exhibition, showcasing our expertise in serving the power sector! From calibration, maintenance, and testing of valves (MOV, control valves, and PSV), to inspecting boilers, heat exchangers, and vessels in compliance with ASME and National Board standards—Citadel is your trusted Authorized Inspection Agency (AIA). We’re especially proud of our flow meter calibration services, ensuring precision and reliability in every measurement. Feel free to reach out for more information or collaboration opportunities! 🌐 www.cec.ltd 📧 info@cec.ltd Rauzan Karim Shahriyar Majlesein Ali Al Issa Sarwan Dawoodi #citadel #inspection #calibration #WeAreCEC #Sustainability #Flowmeter #CustodyTransfer #PSV #Pressure #ASME #ISO #API #BaghdadExhibition #PowerSector #Engineering
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Good old manual pump selection , best to know how equipment is selected for the service , as this value will might differ down the road as operator might change the parameters , different liquid viscosity, debottlenecking etc..
Preliminary Centrifugal Pump Selection + Example Given Data: Q, TDH, NPSHA References: Centrifugal Pumps: Design, Performance and Selection - rasoul paydar Centrifugal Pumps - Johann Friedrich Gulich Surface Production Operations Volume IV 2019 API STD 610 2021 ANSI HI 9.6.1-2017 ANSI HI 9.6.3-2012 ANSI HI 9.6.7-2015 ANSI HI 20.3-2015 ISO 2858-1975 Worley KS-ME-DEG-0239 2019 Worley KS-PR-DEG-0138 2019 ADNOC AGES-SP-05-001
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At Anil Engineering, your safety is our top priority. Our Cryogenic Safety Relief Valves are engineered to perfection, ensuring unparalleled safety and reliability across all types of cryogenic storage and transport. 🛡️❄️ 1. Tailored Safety: Offering a wide range of set pressures to perfectly match your system's needs. 2. Supreme Quality: Constructed from the finest materials, our valves withstand extreme conditions with ease. 3. Versatile Applications: Designed for versatility, fitting seamlessly into tank mountings or pipelines. 4. Fail-Safe Mechanism: Our well-designed 90° angle type valves ensure a gradual pressure release, preventing system overpressure and ensuring operational safety. 5. Low Maintenance, High Reliability: Precision engineering results in valves that are not only safe but also low on maintenance, saving you time and resources. Trust in AEPL for cryogenic solutions that prioritize safety and efficiency, making us the go-to choice for industries worldwide. Let's protect your operations together. 🔒💼 Call +91 93247 30856 / 022 27672890 email sales@aeplglobe.com Visit: www.anil-engineering.com #AEPLCryoValves #SafetyFirst #ReliabilityGuaranteed #CryogenicSafety #EngineeringExcellence #IndustrialSafety #CryoValveWednesdays #PrecisionEngineering #TrustedSolutions #SafetyEngineering #anilengineering #goldstandardofengineering #goldstandard #engineeringexcellence #goldstandard #achievingsuccess
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At Anil Engineering, your safety is our top priority. Our Cryogenic Safety Relief Valves are engineered to perfection, ensuring unparalleled safety and reliability across all types of cryogenic storage and transport. 🛡️❄️ 1. Tailored Safety: Offering a wide range of set pressures to perfectly match your system's needs. 2. Supreme Quality: Constructed from the finest materials, our valves withstand extreme conditions with ease. 3. Versatile Applications: Designed for versatility, fitting seamlessly into tank mountings or pipelines. 4. Fail-Safe Mechanism: Our well-designed 90° angle type valves ensure a gradual pressure release, preventing system overpressure and ensuring operational safety. 5. Low Maintenance, High Reliability: Precision engineering results in valves that are not only safe but also low on maintenance, saving you time and resources. Trust in AEPL for cryogenic solutions that prioritize safety and efficiency, making us the go-to choice for industries worldwide. Let's protect your operations together. 🔒💼 Call +91 93247 30856 / 022 27672890 email sales@aeplglobe.com Visit: www.anil-engineering.com #AEPLCryoValves #SafetyFirst #ReliabilityGuaranteed #CryogenicSafety #EngineeringExcellence #IndustrialSafety #CryoValveWednesdays #PrecisionEngineering #TrustedSolutions #SafetyEngineering #anilengineering #goldstandardofengineering #goldstandard #engineeringexcellence #goldstandard #achievingsuccess
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Unlock Precision Control with Morris Valves® API6D Trunnion Mounted Ball Valves. Dive into the world of superior fluid control with our API6D Trunnion Mounted Ball Valves – the epitome of reliability and performance! Here's what sets them apart: 1️⃣ Trunnion Mounted Mechanism: The name "trunnion mounted" stems from the design of the valve, where the ball is supported by trunnions (pivot points) at the top and bottom of the ball. This unique mechanism ensures enhanced stability and prevents excessive wear on the valve seats, allowing for smooth operation and long-term reliability. 2️⃣ Diverse Industry Applications: From oil and gas to petrochemical, power generation, and beyond, industries requiring high-pressure and high-temperature fluid control solutions rely on API6D Trunnion Mounted Ball Valves. Their robust construction and reliable performance make them indispensable in critical processes where safety and efficiency are paramount. 3️⃣ Difference from Floating Ball Valves: Unlike floating ball valves, where the ball is free to move within the valve body, trunnion mounted ball valves feature fixed ball positions supported by trunnions. This design offers several advantages, including improved sealing capabilities, reduced torque requirements, and enhanced performance in high-pressure applications. Experience the difference that API6D Trunnion Mounted Ball Valves can make in your fluid control systems. Elevate your performance and reliability with our trusted solutions today. #MorrisValves #TrunnionMountedValves #PrecisionControl #IndustrialApplications #Reliability
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Cryogenic Piping Arrangement Cryogenics is part of physics that deals with the properties of materials at very low temperatures. Very cold and extremely cold temperature changes the chemical and physical properties of materials. Cryogenic piping refers to systems that operate in extremely low temperatures, generally around -40 degrees C or as low as (196°C). Due to such low temperatures, cryogenic pipes face unique corrosion and worsening condition challenges. Hence, normally used materials for pipes are not suitable for process application in cryogenic piping. Cryogenic Piping is used in many chemical manufacturing processes and industrial applications such as methane, ethane, or other liquid natural gas shipping. Accommodating the cryogenic fluid properties affects the piping arrangement. Because the cryogenic fluid is colder than ambient air, calculating the continuous heat leak from ambient air to the piping system is a requirement. There are other peculiarities, whenever cryogenic liquid can inadvertently be trapped between two closed valves, a line block safety valve must be provided to prevent over-pressurization caused by heat transfer from ambient air to the cryogenic liquid. The types of valves used in cryogenic service are similar to those used for conventional fluids, except that the valves may require bizarre-looking design features due to the extreme temperatures, for example, a gate valve could have an extended stem, approximately a meter long. In cold situations, the primary requirements are insulation integrity and resistance to heat transfer. The pipe must be insulated and protected against ingress of temperature and moisture. KEKSA has manufactured many cryogenic pipe supports. We can help you with your cryogenic requirements. Kinetic Energy Factory Company Ltd.– KEKSA Section N, Block 9, Lot No. 10, Road No. 267, Support Industries Area 3, 31951 Jubail – KSA Call Sachin Shetti +973 3469 0400 or Junaid Ali at +966 56 767 1431 Reference “Piping Handbook,” Mohinder l. Nayyar, Seventh Edition 2000 McGraw Hill #cryogenic #support #piping #insulated #maintenance #atmosphere #system #integrity #heat #system #water #ambient #lowtemperature #liquid #moisture #temperature #extendedstem #valve
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Valve and Flow Control Specialists distribute the full range of DK-Lok Instrumentation Fittings and Valves within Australasia. A small part of this range is ISO 228.1 or BSPP (parallel thread) fittings. When connecting gauges or gauge cocks to a system a DK-Lok fitting such as a DCF is used. This is pretty much standard and comes in NPT and BSPT but what happens when its BSPP?? ISO 228-1 standardises the older BS DIN and JIS references representing internal and external parallel pipe threads where pressure joints are NOT made on the threads. Compressing two tightening surfaces outside the threads or interposing a gasket seal will make the internal and external thread assembly pressure tight joint. Enter the DK-Lok DCFGG fitting primarily for this application. BSPP as such utilizing a gasket such as from NBR /FKM and copper material. More info on page 9, 27 and 42 of the DK-Lok fittings catalogue. The selection of the ring or gasket will be dependent on the application media pressure temps although copper is the most popular. Due to the variables the basic fitting ½” fitting would be DCFGG-8-8-S plus the gasket eg copper DGG8 Like the standard fittings these are available in reducing or upsizing so if your tube is smaller or larger than the gauge requirement its an easy fix to use a 6-8 or 8-6 size etc Allow us to be of assistance to find out more: https://lnkd.in/gsjS7K3F Looking under twin ferrule tube fittings brochure #instrumentation #instrumentfitter #electricalengineering #chemicalindustry #chemicalengineering #engineeringdesign #engineeringindustry #subsea #fpso #oilandgas #oilandgasindustry #offshore #topside #transmitters #refinery #mechanicalengineering #pressuremeasurement #temperaturemeasurement #temperaturemonitoring #gauges #processcontrol #powergeneration #waterindustry #miningindustry #procurement #cng #lngindustry #ngv #pipelineconstruction #pipelineintegrity #sugarmills #pulpandpaperindustry #foodequipment #foodandbeverageindustry #gasdistribution #steamboiler
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Very interesting article regarding pressure relief valve sizing #PRV #WELLTESTING https://lnkd.in/eYTSAc-2
#reliefvalve #twophaseflow #psv #sizing #HEM #API520 #API521 Dear Engineers, Today’s post discusses the sizing of relief valves, orifices, and nozzles for two-phase flow at the inlet of the relief valve. Following technical considerations need to be considered for the sizing of relief valves and orifices for two-phase flow: ✅ The Homogeneous Equilibrium Model (HEM) technique is applied for the sizing of two-phase flow PSVs. ✅ The technique involves solving the Bernoulli flow equation for specific mass flux (kg/s.m2) denoted as “G”. The point at which the specific mass flux is at a maximum corresponds to the choking pressure and flow rate. ✅ It also involves numerically integrating the density-pressure term which is done by performing a series of constant entropy flash calculations from the pressure upstream of the PSV to a downstream value. ✅ The relieving pressure at the inlet of the PSV can be considered as the first of the series of steps for the isentropic flash calculations. A series of expanders shall be used in any process simulation software. The steps may be divided for a pressure drop of 5% for each step across the orifice of the PSV. ✅ For each step of isentropic flash involving a small pressure drop, the simulation will provide the vapor and liquid fraction, the corresponding vapor density, and the liquid density which in turn shall be used to calculate the mixed phase density. The mixed phase density and the pressure drop shall then be used to calculate G (kg/s.m2). ✅ Each of these isentropic flash steps shall be tabulated and the step which provides the highest specific mass flux (kg/s.m2) as calculated by the equations in the attachment shall be used for determining the orifice area. ✅ The mass flow rate (W) which is also required for the calculation of the orifice area (size of the PSV) shall be obtained from the relief governing case for the particular PSV. The governing cases generally encountered for such two-phase flows are external pool fire and thermal expansion due to blocked in fluid and heating source on. The equations for determining mass flow for these cases are provided in API STD 521. ✅ The equations for calculating the specific mass flux “G” and the orifice area are provided in the attachment of the post and the reference is Annex C of API STD 520 Part 1. Please feel free to share your views and comments. Best Regards,
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