Adsorbents

Selective Absorption of SO2

orlistat capsules price Le Vésinet Flue gas desulfurization done by designed plant in laboratory and industrial scale has been always an important issue and it is because of its harmful effect on environment and human health. Flue gas desulfurization (FDG) is one of the most common methods to remove and decrease its emission concentration in air. Among all designed method wet flue gas desulfurization is the most widespread method. This method was tested in research center of company. Results show that the ability of SO2 absorption by this sorbent (ASH-S100) is up to 10000 ppm and can decrease its concentration to the standard threshold.

circa resort and casino Karak City CO2 emission from combustion flue gases has become the primary factor in global warming. Post-combustion  carbon  capture  (PCC)  from  industrial  utility  flue  gases  by  reactive  absorption  can substantially contribute to reduce emissions of the greenhouse gas CO2 . Results show that the ability of CO2 absorption by this sorbent (ASH-S200) is up to 20% (vol %) and can decrease its concentration to the standard threshold.

You can count on ASH to provide reliable, high-performing products with low life-cycle costs. You can also rely on us to provide you with continuous product renewal to meet the changing needs of your business.

Our manufacturing experience, application product selection, consulting and technical services are unparalleled. To meet your needs, we offer the broadest range of molecular sieves and alumina adsorbents in the world, with production facilities in the IRAN.

image009

Pilot Plant for SO2 capture

Parts in Figure: 1-selinoid valve compressor, 2- solvent storage tank,3- stripper tower, 4-absorption tower, 5- boiler for making steam, 6- pump 3, 7- reflux drum, 8- heat exchanger, 9- solvent rotameters, 10- gas collector, 11- gas rotameters.

 

image010

ASH-S100

Untitled

image012

  ASH-S200

ADDITIVE

Pro-Strength Octane Booster

Octane Booster (ASH-A100) is specifically formulated to increase the octane rating of petrol used in high-performance and competition engines. High-performance, high-compression engines require higher octane fuel than normal passenger cars. Using a fuel that does not have a sufficiently high octane rating causes the engine to detonate (ping), which in turn can cause severe engine damage.

Every engine has a minimum octane requirement (OR) that depends upon engine design, in particular compression ratio. The higher the compression ratio, higher the OR. If the petrol used does not have a sufficiently high Research Octane Number (RON) to cater for the engine’s OR then detonation occurs. Detonation is the term used to describe the chemical breakdown of the fuel/air mixture which results in premature self- combustion during the compression stroke of the engine, i.e. the mixture explodes prior to ignition by the spark plug. Under these circumstances the force of the explosion is opposing the direction of piston travel, resulting in enormous loads. If detonation is allowed to continue, engine failure can occur. ASH-A100 substantially increases the RON of petrol, thus reducing the likelihood of detonation. ASH-A100 is compatible with all unleaded fuels including race fuel and Avgas.

It should be noted that the lower the RON of the base fuel, the greater the increase after the treatment. Conversely, high RON base fuel yields a much lower increase after treatment. This phenomenon applies to all octane enhancers.

Many high-performance modern engines are fitted with “knock sensors” that recognise the moment detonation commences and retard the ignition timing to stop further damaging detonation. However, while retarding the ignition timing protects the engine from damage, it robs the engine of performance and efficiency. Adding ASH-A100 at the correct ratio stops this whole cycle and promotes maximum performance and efficiency without risk of damage.

Many cars imported into Australia have to constantly operate on premium unleaded petrol (PULP) of 95 RON or higher, but in remote areas of Australia, PULP is unavailable. However, ASH-A100 effectively converts regular unleaded fuel to PULP when treated according to the directions. Strict testing of ASH-A100 ensures that no component will have a detrimental effect on any engine or fuel system part. All components have been tested for millions of kilometres


Benefits

  • Boosts octane by up to 30 RON (from 70 points)
  • Gain peak performance & acceleration
  • Obtain maximum horsepower
  • Prevents engine damage caused by detonation
  • Suitable for all petrol vehicles
  • Safe for catalytic converters & oxygen sensors

 

Scale Inhibitors

  • buy prednisolone 20 mg Gyál Scale Inhibitors  assist with oil and gas production by maintaining asset integrity. Multi-Chem’s specialty scale inhibitors work to control a wide variety of scale production challenges to help prolong the life of your well.

image013

 

if dealer has blackjack and player has 21 deservingly Benefits

  • Reduce downtime for mechanical, acid, and/or chemical cleanout;
  • Increase lifetime of well and well equipment by minimizing deposits that can cause excessive wear;
  • Maintain flow capacity of various flow lines associated with surface equipment; and
  • Polymer-type scale inhibitor traceable with a simple field test.

In oil and gas production systems, the inorganic mineral components of produced waters often become supersaturated, leading to scale deposition on the inner walls of flow lines, filters, valves, treating equipment, and tanks, and restricting or stopping the flow of fluids. These deposits can also reduce the heat transfer efficiency in heat exchangers and condensers, causing overheating and early tube failures.

Multi-Chem customizes scale inhibitors to prevent various types of mineral deposition and customizes scale dissolvers to remove deposits which have already formed. Relying on years of water-treating expertise, we work with you to analyze the water chemistry in your production and injection systems for scaling tendencies, and examine any deposits that may have formed to identify scale type. From there, we develop a specific scale-control program and chemical application that best fits your production needs, helping you increase your production and reduce the cost of operations associated with scale cleanup, removal, and disposal.

A chemical treatment used to control or prevent scale deposition in the production conduit or completion system. Scale-inhibitor chemicals may be continuously injected through a downhole injection point in the completion, or periodic squeezetreatments may be undertaken to place the inhibitor in the reservoir matrix for subsequent commingling with produced fluids. Some scale-inhibitor systems integrate scale inhibitors and fracture treatments into one step, which guarantees that the entire well is treated with scale inhibitor. In this type of treatment, a high-efficiency scale inhibitor is pumped into the matrix surrounding the fracture face during leakoff. It adsorbs to the matrix during pumping until the fracture begins to produce water. As water passes through the inhibitor-adsorbed zone, it dissolves sufficient inhibitor to prevent scale deposition. The inhibitor is better placed than in a conventional scale-inhibitor squeeze, which reduces the retreatment cost and improves production.