kimre™ technology€¦ · · 2015-06-18production, reduced energy and maintenance costs, ......
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Kimre™ Technology
The introduction of Kimre™ patented high-performance, interlaced mesh structure revolutionized the technology of process fluid separation and air pollution control.
This unique, innovative concept is far superior to the usual tower packing, chevrons, and mesh pads used for mass and heat transfer, particulate removal and mist elimination.
As a result, industries around the world have increased production, reduced energy and maintenance costs, and reduced emissions to comply with ever more stringent air and water pollution control standards.
The Kimre interlaced mesh structure is simple, yet surprisingly effective. The basic structure of the mesh forms a ladder-like arrangement of thermoplastic filaments, forming double-V systems that intersect each other at right angles.
Our engineered mesh construction has a large surface area and void space. The choice of filament diameter and the physical arrangement of mesh layers optimize the effectiveness and range of solid or liquid particle removal.
Kimre B-GON® mist eliminator and KON-TANE® scrubber media are produced in a variety of thermoplastic filament materials which allows for continuous service 204° C (400° F) and process corrosion resistance.
PET: Polyethylene Terephthalate
PP: Polypropylene
HTPP: High Temperature PolypropylenePVDF: Polyvinylidene Fluoride Kynar™ (Trademark of Arkema)
ETFE: Ethylene‐Tetrafluoroethylene Tefzel™ (Trademark of DuPont)
PFA: Perfluoroalkoxy (copolymer)
Teflon™ (Trademark of DuPont)
One layer of Kimre'sstructured media on the left is compared to random knitted mesh on the right. The comparison shows the Kimre mesh has a higher percentage of fibers perpendicular to the gas flow which will result in higher collection efficiencies and lower pressure drops at the same flow rate.
0 25 50 75 100 125 150 175 200 225
PFA Teflon®
ETFE Tefzel®
PVDF Kynar ®
HTPP
PP
PET
Maximum Temperature (°C), for Continuous Service
Max imum Operating Temperatures for Kimre Media
Mist Eliminators The thermoplastic media eliminates problems associated with corrosion, contamination, and erosion. The lightweight material is flexible, offers exact fit and is easy to install, remove, and maintain.
Kimre offers a range of products, all based on its unique media that effectively removes solid and liquid particles below one micron while draining large volumes of liquid. Kimre products are so effective they make traditional tower packing and metal pads obsolete.
t
ors iency of smaller droplets.
ist elimination or demisting can be defined as the
mechanical separation of liquids from gases. The first and moswidely used separators were comprised of impaction devices in packed columns, such as packing and perforated plates. Cyclonic separators were later developed to lower the height of the packed columns. Then wire mesh mist eliminators were invented to lower the pressure drop of the cyclonic separatand improve the collection effic
The wire mist eliminators, commonly referred to as knitted mesh mist eliminators, collect droplets by the inertial impaction and interception mechanisms of collection. The wire mesh separators are commonly used to collect droplets above 5 microns in diameter. However, when the separation of droplets in the 1-3 µm is required, these wire mist eliminators are largely ineffective because of the mesh’s random structure, irregular density, and coarse fiber diameters. Kimre structured media expands on the wire mesh mist eliminators capacities, providing lower
Features and benefits of B-GON® Mist-Eliminators:
• Wide availability of materials and styles results in a unique solution for every application
• Composite pads are available • Can operate at the highest gas velocities based on the
largest fiber diameters in the industry • High void spaces and large fiber diameters contribute to
the highest resistance to fouling. • Highest collection efficiency of ANY material:
99+% @ 1 µm • Pads are supplied in sizes from 4" diameter to ANY size • Material is cleanable & reusable with extended service
life in the most harsh environments • Coalescers can be made from the finest styles of material • Support systems are available
This picture represents a composite mist eliminator supplied by Kimre. The various styles and materials manufactured by Kimre can be combined into single pads to meet your system's requirements. Grid supports and technical support are also available.
pressure drops, higher collection efficiencies and have greater tolerance for liquid loading and fouling resistance providing lower maintenance and operating cost.
** (Example: 8/96): Left‐hand number designates filament diameter in mils (1mil=0.001 inches). Right‐hand number designates the void
volumetric free space as a percent open. The above styles are standard. Other variations are available on special order.
Kimre developed a structured mesh to combat the weaknesses of the wire mesh already on the market. The material has been described as ladder-like or honeycomb-like and is comprised of three-dimensionally interlocked plastic monofilaments. Since 93% of the fibers are perpendicular to the gas flow, the pressure loss through the media is dramatically lower for the same level of efficiency as a traditional knitted mesh mist eliminator. Because of Kimre’s unique structure, we are able to produce our media in the widest range of fiber diameters in the industry. This allows Kimre’s engineers to design for the highest level of performance at any particle or mist size.
Description of B-GON® Kimre offers custom designed mist eliminators for collection of droplets and particulates above 0.8 microns in diameter. Several standard pad designs are available for routine installations, but thousands of pad combinations are available for unique situations. The following graph displays the collection efficiency and clean operating pressure drop of some standard pad designs operating in an air/water environment under ambient conditions. Please feel free to use this information for general information purposes only. We strongly recommend that you contact Kimre to discuss your particular application and determine the best design for you.
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Competitive Advantages: Particle Dominant Elimination Kimre Size Range Competitor(s) Technology Advantages (Microns) MECS Candle Filters Low capital Investment, < 1 µ Begg Cousland Deep fiber‐beds (separate vessel) Ease of maintenance, Low‐pressure drop. Otto H. York Co. Range of styles, 1 – 10 µ ACS Industries Mesh Pad Mist Eliminators Low pressure drop, Koch Engineering Material selection, Resistance to plugging.
>10 µ Munters Chevron Mist Eliminators Flexibility of pads, Particle size range.
Much Electrostatic Precipitator Much lower initial investment, L arger µ Mist Elimination and Lower operating cost.
Competition Examples for Knitted Mesh Mist Eliminators: Koch (Fleximesh™) York Demister™ ACS Material of Construction 4120 4BA Metal 4210 421 Metal 4310 431 4CA Metal 3710 371 Metal 3260 326 3BF Metal 6440 644 Metal 5310 531 5CA Metal 9310 931 7CA Metal 2212 221 8T Teflon 2414 241 8P Polypropylene
KIMRE engineered structured mesh comprised of interlaced non‐metallic
monofilaments providing high temperature and corrosion
resistance.
Schematic cross-section of KIMRE media
Primary Features: Secondary Features: You:
Customized Design: Ability to Custom Design for a Variety of: Droplet Removal Efficiencies and Pressure Drops,
Wide Range of Smallest Filament Diameters Best Collection Efficiency at Small Diameters Monofilament Diameters: Largest Filament Diameters Best Pluggage Resistance
Highest Flow Capacity (When Combined with High Void Fraction), Highest Filament Resiliency and Strength.
Provides the Best Customizable Capacity Designs for: Dust Loading, Liquid Loading, Particle Size & Pressure Drop.
Individual Layers of Media: Composite Construction Provides for a Wide Range of Conditions: Multiple Functions in One Composite Pad. Composite Pad is Used to Complement other Technologies.
Highest Removal Efficiency Per Pressure Drop,Integral, Uniform 3-D Structure: Highest Removal Efficiency Per Length of Fiber
Lowest Potential for Pluggage
Supports higher mechanical Loads than ANY Other MeshIntegral, Uniform 3-D Structure: Self Supporting and Resilient NO Need for Support Rods thru the Media which Causes Bypassing.
Cleanable and Re-usable
Integral, Uniform 3-D Structure: Extraordinary Strength High Fiber Tensile Strength Provides the Ability for Large Pads to Withstand Higher Degrees of Loadings and Stress.
Integral, Uniform 3-D Structure: Built-in Drain Points Accommodates Large Liquid Loadings and Higher Velocities.Best Design Program Accurate Prediction of Efficiency, Flow Capacity & Pressure Drop
Provides Easer Installation and Maintenance.Integral, Uniform 3-D Structure: Flexibility Problems and Repairs are Readily Remedied by use of Edge
Wrapping Media (Quick and Economical Repairs).
Retains Shape and ThicknessIntegral, Uniform 3-D Structure: Withstands Mechanical Damage Can Handle High Pressure Washing.
Cleanable by Crushing Media to Remove Scale.
Non-Isotropic Flow Properties: Gas Flow Spreads-out within the Media which Evens the FlowIntegral, Uniform 3-D Structure: Flow Resistance Inside the Across the Media, Providing Flow Stability, Complementing other
Media is Lower than the Flow Products such as Chevrons, Making for Excellent Operation Resistance Through the Media for Carbon Bed Supports, as well in Cyclone Separators.
Integral, Uniform 3-D Structure: Wide Variety of Void Fractions: Provides for a Wide Range of Liquid Loadings. 60 to 97% Allows use in "Plugging" services, and in High Load Bearing Conditions.
Fewer Seams are Needed virtually Eliminating the Possibility of Bypass.Large & Wide Pieces: Fewer Component Pieces. Makes for Faster Installation.
Provides the Capability for a Variety of Shapes, including "Candles".
Large & Wide Pieces: One-Piece Construction Interleaving Allows the Construction of Huge Single Piece Pads. Allows the "In-Place" Construction of Seamless Pads in Large Vessels.
Materials of Construction: Selected for the Process Enables a Wide Range of Chemical & Temperature Resistance
Hot Wire Edge Cutting: Very Accurate To Size" Cuts Provides the Best Fit and the Lowest Risk of By-Passing
Hot Wire Edge Cutting: Cut Edges are Always Denser Provides Less Risk for By-Passing.than the Body of the Pad Reduces the Risk for Localized Flooding.
Proprietary Thermal Stabilization: Media is Stabilized Provides the Best Heat Stability of any Non-metallic Mesh Pad.
Provides the Composite Pad with a High Resistance to Pluggage.Stagewise Particle Separation: Composite Pad Construction The "As-Installed" Pressure Drop Stays Consistently Lower,
in Comparison to Others.
We at KIMRE™ Engineer the Product to Satisfy the Process Needs.
We DO NOT Limit the Process to Fit the Product.
KIMRE™ Custom Engineered Solutions:
PHASE SEPARATION TECHNOLOGY
90+% of Fibers are Perpendicular to the Gas Flow
TM
TM
® ®
Philosophy
PHASE SEPARATION TECHNOLOGY
KIMRE™ Management Philosophy: Vision Statement Achieving cleaner air, water and improved gas-liquid process operations using Kimre™ Technologies.
Mission Statement We are a world leader in the design and implementation of innovative technologies
We will do this by: • Proactively identifying and responding to global environmental needs and opportunities. • Fostering a team environment. • Building mutually profitable customer relationships. • Understanding and supporting customer needs. • Promoting environmental education and awareness. • Maintaining positive and effective communications internally and externally.
"God created it, we polluted it, “Kimre” cleans it."
Value Statement Commitment:
• Staying focused and dedicated to following through and achieving goals.
Respect: • Treating everyone with dignity and honesty.
Effective Communication: • Our Common Goal. • Knowing what is expected. • Knowing where you stand.
744 SW 1st Street Homestead FL 33030 USATel: (305) 233‐4249 Fax: (305) 233‐8687
Email: [email protected] Internet: http://www.kimre.com
which clean and protect our environment to create a better world for future generations.
We are ready to assist you with any gas-
liquid, gas-solid, and liquid-liquid separation
question. We offer proven world-class
products and a commitment to responding
to your needs. Our practical, experience-
based team is knowledgeable in all areas of
emission control.
You will find we never lose sight of the
ultimate goal: increasing process
effectiveness and productivity while
minimizing operating and maintenance costs.
Kimre Inc.744 S.W. 1st Street
Fax: (305) 233-8687
KIMRE: Your Clear Solution to
Phase Separation, Mass and
Heat Transfer, and
Air Pollution Control.
TM
Homestead, FL 33030 USATel: (305) 233-4249
(Rev.2f)AEROSEP TM, DRIFTOR®, B-GON®, SXF® , KON-TANE , LIQUI-NOMIX® are
Email: [email protected]
® registered
trademarks
of
Kimre,
Inc. © Copyright 2014 by Kimre, Inc.
PHASE SEPARATION TECHNOLOGY
Evergreen Technologies Pvt. Ltd. France
Tel: +91 22-6156 6969, 2201 2461 F- 95046 Cergy Pontoise cedex 1
3-D Maker Bhavan-2 ZI du Vert Galant18 New Marine Lines 21 avenue des Gros ChevauxMumbai - 400 020, India CS 30015 ST OUEN L' AUMONE
Fax:+91 22-2201 0024 Francewww.kimre.com E-mail: [email protected] Tel: +33 (0) 1 34 35 11 50
Fax: +33 (0) 1 34 35 11 51 E-mail: [email protected]
WATERLEAU