BASF
19-Aug-2019 11:02

Master Builders Solutions by BASF launches its new website: www.masterfiber.basf.com and presents the advantages of MasterFiber replacing the conventional steel reinforcement of concrete. Customers can save money and have greater flexibility in the production process. Currently, experts are supporting the renovation of the port of Barcelona – the polypropylene fibers MasterFiber 249 are going to improve the chloride resistance and durability of 60.000 m2 of pavement. #Construction #MasterBuildersSolutions

Master Builders Solutions® launches new MasterFiber website
The Master Builders Solutions® experts have launched their new website www.masterfiber.basf.com presenting the benefits of MasterFiber and the unique customer service offered by a global team of concrete experts. With MasterFiber, customers can save money and have greater flexibility in the production process. The innovative fibers can partially, or completely, replace the conventional steel reinforcement of concrete. This reflects in a strong sustainability contribution as it enables customers to eliminate the use of steel which is costly, heavy, difficult to handle and generates waste.

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BASF
30-Aug-2019 07:03

BASF and Oriental Yuhong signed a Joint Development Agreement today in China to reinforce their partnership to co-develop the next-generation of near-zero emission waterproofing solutions for China’s construction industry. The two companies will develop cutting-edge products to meet the most stringent emission category certified by the EMICODE® EC1 PLUS label.

BASF and Oriental Yuhong expand collaboration by co-developing sustainable waterproofing solutions in China
Beijing, China – August 29, 2019 – BASF and Oriental Yuhong Waterproof Technology Co. Ltd. (Oriental Yuhong) have signed a Joint Development Agreement (JDA) in China to further strengthen their partnership to co-develop the next-generation of environmentally-friendly waterproofing solutions. The partnership intends to reinforce the strategic cooperation in construction solutions and develop waterproofing solutions with near-zero emissions that will set a new standard in China’s construction market.

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BASF
29-Aug-2019 12:48

BASF and Oriental Yuhong signed a Joint Development Agreement today in China to reinforce their partnership to co-develop the next-generation of near-zero emission waterproofing solutions for China’s construction industry. The two companies will develop cutting-edge products to meet the most stringent emission category certified by the EMICODE® EC1 PLUS label.

BASF and Oriental Yuhong expand collaboration by co-developing sustainable waterproofing solutions in China
Beijing, China – August 29, 2019 – BASF and Oriental Yuhong Waterproof Technology Co. Ltd. (Oriental Yuhong) have signed a Joint Development Agreement (JDA) in China to further strengthen their partnership to co-develop the next-generation of environmentally-friendly waterproofing solutions. The partnership intends to reinforce the strategic cooperation in construction solutions and develop waterproofing solutions with near-zero emissions that will set a new standard in China’s construction market.

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BASF
01-Dec-2019 06:14

The need for high-quality dispersion solutions is growing fast in the South Asian markets. BASF India plans to double its capacity for polymer dispersions with a new production line at its site in Dahej, Gujarat, aiming to provide a reliable supply of low-VOC and low-odor dispersions for industries, such as architectural coatings, construction, paper and adhesives.

#PolymerDispersions #WeCreateChemistry

BASF to double production capacity for polymer dispersions in Dahej, India
<p>BASF India plans to double its capacity for polymer dispersions with a new production line at its site in Dahej, Gujarat. Through the investment, BASF aims to provide a reliable supply of high-quality dispersion solutions to customers in the fast-growing Indian and South Asian markets.</p>

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Chemarc
10-May-2022 01:36

Procurement in the Chemical industry

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Processes are streamlined based on the purity and impurity profiles of the raw materials, and small deviations can lead to poor quality of the finished product. So, supply sources have to be carefully chosen. It is therefore important to connect with the right suppliers and manage your entire procurement process well to make sure you get the right materials in time and at the best possible prices.

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KWALITY PROCESS EQUIPMENTS PVT LTD
25-Oct-2019 08:01

GENERAL PROCESS CONSIDERATIONS IN THE SELECTION OF AGITATORS FOR SIMPLE APPLICATIONS AND IMPELLER DESIGN

Classification towards Purpose

a. Blending of miscible liquids

Easiest of agitating applications and normally axial turbine or hydrofoil impellers are preferred. Jet mixing by recirculation with an ordinary pump is equally good at lower cost

b. Dissolving

In dissolving, we want provision of high flow rate and low shear past the solid surface. Unless the solid is polymeric or sticky or viscous in nature, it is an easy operation. Data solicited are solid percentage, physical characteristics with interim changes, temp, solubility and permissible dissolving time.

c. Dispersion (liquid- liquid, solid-liquid)


Dispersion refers to mixing of non-miscible liquids or of solids in liquids, into somewhat homogeneous mass whose stability is measured by its life before reasonable separation occurs. Power input varies greatly depending on purpose and impellers generally used are pitched blade turbine, or saw tooth cutter. This is most critical of mixing problems and unless properly understood, the design is liable to fail.


d. Heat exchange

Used to speed up heat transfer by forced convection. Apparently simple but for critical applications, following data helps.

Tank dimensions and details of jacket and coils, preferably G.A.drawing.

Heat transfer co-efficients

Specific heats and thermal conductivities

Temp. of batch at start and end of cycle

Temp. – Viscosity curve of components

Whether solid suspension is included

e. Emulsification

Imparting a high power to break the molecular chains and to form the oil-water emulsion with a non-ionic surfactant. Other applications are mainly in paints & lubricants sector. Some emulsion may be steady for years and some break within minutes. Static mixers are preferred than agitators for high instantaneous power resulting better emulsion but washing pump & pipeline is problematic.


f. Solids suspension

It is simple physical (like mixing) operation but power consumption varies greatly on purpose e.g. a> complete motion of solids, b> complete suspension of solids, c> complete uniformity. Power req. is in ratio of 1: 2: 5 for said operations.


g. Chemical reaction

It can be considered as combination of blending, dissolving, heat transfer, extraction, gas dispersion, and solid suspension etc. Usually an easy task from agitator designer’s point but to be sure, pilot plant study is always recommended. A haphazard selection is vulnerable and over design (like peripheral impeller tip speed) has various detrimental effects on the final product.


h. Extraction including washing and leaching

This is normally a continuous counter- current (fluidized bed) process like solid suspension involving water to be well mixed up with other ingredients and the ingredients separates out by gravity separation. Usually of interest for mining people.


i. Gas dispersion, absorption, and stripping

Gas is impregnated from bottom as small bubbles and intimately distributed throughout the liquid usually resulting a chemical reaction. Generally curved vane impeller or multiple turbines are preferred with high speed. Fully baffled tanks should be tall and narrow in construction. Pressurized chamber accelerates the process. A better way is by static mixer employing a liquid pump and a pressurized semi- permeable solid wall to impregnate gas under pressure.


j. Crystallization

It is opposite of dissolving and is accomplished by cooling a saturated solution or by heating to drive out the solvent. The heat transfer requires a good flow. Satisfactory handling of crystals is of prime importance. Pilot plant data are desired. Generally crystals deposit at the bottom but if process deserves to be uniformly suspended, much study on the crystal structure & sensitivity is to be made for speed selection. Fluid-foil or aerofoil impellers with high flow and low shear are suggested.

NOW LET US TRY TO UNDERSTAND BASIC IMPELLER DESIGN.


As like fan (for air handling) or hydel power turbines, much research has been conducted towards agitator impeller design and it is a very wide subject with much more further scope to research and improve. Impeller is designed mainly keeping in mind the purpose or application and sometimes custom built.

The basic designs are as follows.


A. Marine Propeller

Looks like a table fan blade. Suitable for high flow and low shear e.g. blending, dissolving, heat transfer, etc. Unsuitable for solid suspension, dispersion, extraction, gas dispersion, etc. flow efficiency- 50-60%. Getting outdated but manufacturers with their old proven designs are still sticking to that.

B. Pitched Blade Turbine

Looks like a table fan blade. Suitable for high flow and low shear e.g. blending, dissolving, heat transfer, etc. Unsuitable for solid suspension, dispersion, extraction, gas dispersion, etc. flow efficiency- 50-60%. Getting outdated but manufacturers with their old proven designs are still sticking to that.


C. Hydrofoil

Hydrofoil is supposed to be a foil in water and looks like pitched blade turbine with an angled cut on the lower periphery. Its flow efficiency is better than marine propeller, replacing the later in most applications and is most desired for mixing purposes but unsuitable for high shear application.

D. Aerofoil

aerofoil is having a classic stand fan blade type look and its properties are almost like hydrofoil impellers. Of interest for mining people for mineral washing and beneficiation for energy efficiency.

E. Curved Vane

Curved Vane impeller looks like straight Pelton wheel designed to hold moving particles for some time e.g. for air absorption.

F. Stator Rotor

Old outdated design supposed to bring highest shearing action and usually specified for oil-water emulsion.


G. Saw Tooth Cutter

Saw Tooth Cutter is reasonably good for handling medium to high viscous liquids. It is most economic for emulsification. Bad design for blending simple solutions as well as handling semi solids (grease, honey etc.). Suggested for oil-water emulsion, lubricants, paints, etc.

H. Anchor

Anchor (with its namely look) is used for heat transfer from bottom or scraping viscous liquids.

I. Helical Ribbon

Helical Ribbon looking like screwed ladder or double helix model of our gene. With its diameter close to tank diameter, is used for viscosity above 80 poise.

Another very effective design for handling viscous fluid is to use pitched blade turbine placed at bottom of draft tube (equaling 70% of tank dia.) at medium speed.

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