Veolia Water Technologies & Solutions’ Post

Thermal fluid systems are simple to maintain and do not pose the scale formation or corrosion risks associated with pressurized steam systems. Learn more about their benefits and uses: https://hubs.ly/Q02jmrVg0

Evaporators are meant to treat Effluent by concentrating salts and separating clear reusable water. Conventional Evaporators easily choke after 20% salt saturation. Lombardyne MVR Evaporators with Unique reactor Technology does not choke even at 60% salt concentration.!!!! Output is a fully precipitated salt concentrate ready to be fed into a filter press unit. No need for ATFD!!!

Internal surfaces of the heat exchanger at one of the largest Methanol Plants in the Middle East experienced micro Stress Corrosion Cracking (SCC), causing concerns over further crack propagation and reliability. 🔄 Read the case study to learn how this problem was solved. #Corrosionprotection | #IGS

Are you struggling with corrosion and deposition in your steam generators?   For chemical processors and refineries using high-pressure, high-purity steam generators, the four pillars of steam cycle treatment offer a useful tool for understanding boiler treatment best practices:   1. High-quality feedwater production 2. Condensate and corrosion reduction 3. Internal treatment selection and all-volatile treatment 4. Dispersant treatment for metal transport   Learn more about how these foundational pillars can help you maintain and enhance the reliability of your boilers and turbines: https://hubs.li/Q02dRQy_0

I can draw a profound parallel between the TOL case and a project I managed, wherein a pipeline replacement arose merely five years into operation. The corrosion allowance had peaked at 50%, with a mere one-year lifespan remaining. Beyond the factors highlighted, encompassing watercuts, condensation, and the presence of sweet and sour gases, an additional discerned cause was the depletion of wells. Consequently, a comprehensive reevaluation ensued, involving meticulous recalculation of wall thickness and scrutiny of lateral buckling considerations.

With vessels and tubes containing combustible gases or dusts, it is important to acquire knowledge of the conditions under which a fuel and oxidizer could undergo explosive reactions. In this excerpt from an ioKinetic white paper, view a one-dimensional model of deflagration calculated in SuperChems™ to illustrate an explosion in a given vented vessel with a fuel-oxidizer mixture. Five different values of laminar flame speeds were taken into account in the calculations to highlight how explosion potential varies with temperature, pressure, and equivalent ratio. Calculations performed at each step determined the combustion reaction products, flame temperature, reactant temperature, and pressure. The primary goal of this research was to provide reliable data on laminar flame speeds to ensure accurate calculations for a Process Hazard Analysis (PHA). Characterizing potential explosive reactions is one of the main objectives of hazard assessment. Safeguards to be implemented in process equipment, best process conditions, appropriate prevention and/or mitigation measures, are some of the key purposes to be clarified when handling flammable mixtures. This characterization requires knowledge of several parameters that directly influence on the explosive reaction behavior. One of these parameters is the Laminar Flame Speed, a key factor that defines the kinetics of the reaction. #ExplosiveReactions #CombustibleGas #ProcessSafety

There are few causes of Top of the Line Corrosion (TOL/TLC) mainly happened in wet gas production pipelines: 1. If there present of stratified flow or wavy stratified flow regimes. 2. Present of both corrosive sweet (CO2) and sour (H2S) gases. 3. Water Vapour Condensation 4. No insulation cover, thus partial pressures and temperature increase the corrosion rate (depending on the kinetics energy) of TOL corrosion rate of reaction at upperside between 9:00 to 15:00 o’clock. 5. Common Scales FeCO3 Feel free to share more about TOL because it quite an interesting integrity issue for new and older pipelines that has cold spot of internal metal loss. #iml #tolcorrosion #assetintegrity

Plate-trough graphite heat exchanger The steam chamber and the liquid chamber of the plate-trough graphite heat exchanger are overlapped and bonded together with phenolic binder. The upper and lower two graphite cover plates are cemented into a whole with the steam and liquid chamber, and the inlet and outlet pipes of the steam and liquid chamber are made of impervious graphite. Therefore, it can be used for heat exchange of two corrosive media. The form of graphite heat exchanger has high heat transfer efficiency and can be composed of different specifications by changing the number of heat exchange blocks. It is suitable for heating, cooling, condensation and absorption processes, but it is difficult to repair internal leaks. #Graphite heat exchanger #chemical equipment #silicon carbide #anticorrosive #acid corrosive #Environmental protection #chemicalindustry #bio-pharmaceutic

Corrosion modelling just got easier ⭐ ECE™ 5.9 now includes CO2 fluid analysis for CO2 transport systems and more improvements.   ECE, the world's leading corrosion prediction software, has added GUTS ✅ (Grand Unified Thermodynamic System), an essential tool to ensure the integrity and efficiency of CO2 pipelines.   Accurately predict the phase envelope for specific CO2 compositions and assess the likelihood of aqueous phase formation under various operational conditions in CO2 pipelines💦   👉 See what's new and get a free trial:  https://lnkd.in/enPKHVAA #piping #corrosion #co2

A drop in heat transfer caused by fouling of heat exchanger surfaces will affect the #refrigeration unit’s capacity, leading to extended #compressor run times, which in turn increases energy consumption and affects system lifetime. To maintain any system, preventive treatment is the ideal solution, to limit the risk of scaling and oxidation in the hydraulic systems and prevent the risk of clogging in the heat exchangers. This will stop a drop in thermal exchange and of the flow of transfer fluids. Read more on how you can protect performance and the lifetime of equipment: https://lnkd.in/eWZwzeyX #heatexchange #cleaning #energysaving CLIMALIFE