This presentation will help the students of Pharmacy in subjects like Pharmaceutics and industrial pharmacy. Hope you will find it better and helpful.
Regards
Amjad Anwar
email: amjadanwar77@gmail.com
Department of Pharmacy, University Of Malakand
This presentation will help the students of Pharmacy in subjects like Pharmaceutics and industrial pharmacy. Hope you will find it better and helpful.
Regards
Amjad Anwar
email: amjadanwar77@gmail.com
Department of Pharmacy, University Of Malakand
objectives, applications, mechanism of size separation, the official standard of powders, sieves, sieve shaker, cyclone separator, air separator, bag filter, elutriation tank
Definition of drying
Importance of drying
Difference between drying and evaporation
Drying is defined as removal of the liquid from a material by application of heat & is accomplished by transfer of a liquid from the surface into an unsaturated vapor phase .
Drying is the final removal of water from material (usually by heat)
Drying is commonly the last stage in a manufacture process
Non-thermal drying
1- As Squeezing wetted sponge
2- Adsorption by desiccant (desiccation)
3- Extraction.
Preservation of drug products
Preparation of bulk drugs
Improved handling
Improved characteristics
Equipments
Drying is necessary in order to avoid deterioration. A few examples are…
--blood products, tissues… undergo microbial growth
--effervescent tablets, synthetic & semi synthetic drugs undergo…. chemical decomposition.
Objectives, applications, Mechanism, official standards of powders, Sieve, Standard for Sieve, Principles, construction, working, uses, merits and demerits of Air separator.
Mixer Machines Mixer Machines are used in a number of different applications and industries in order to produce a final product that is the result of mixing or combining two or more materials.
Generally, size reduction and size separation are combined to obtain powder with the desired particle size distribution (PSD) for acceptable flow and compressibility for downstream processing . The mechanical process of reducing the particle size of a solid is also called milling.
Size reduction is a process of reducing large solid unit masses, coarse particles or fine particles.
Size reduction may be achieved by two methods:
1] Precipitation
2] Mechanical process
1] Precipitation method: Substance is dissolve in appropriate solvent.
2] Mechanical process: Mechanical force is introduce by using different equipments like ball mill, colloid mill etc.
Fluid energy mill for pharmacy principles, construction, working, uses, meri...ASHUTOSH SENGAR
this is an slideshare for pharmacy students, principles, construction, working, uses, merits and
demerits of , fluid energy mill its for b. pharm. and M. PHARM
Industrial pharmacy
Mixing
Introduction
Importance of mixing
Types of mixtures
Fluid mixing, its mechanisms and types of fluid mixers
Semi-solid mixing, mechanism and equipments used
Solid mixing, mechansims ans types of solid mixing equipments
Introduction
Importance of mixing
Types of mixtures
Fluid mixing, its mechanisms and types of fluid mixers
Semi-solid mixing, mechanism and equipments used
Solid mixing, mechansims ans types of solid mixing equipments
objectives, applications, mechanism of size separation, the official standard of powders, sieves, sieve shaker, cyclone separator, air separator, bag filter, elutriation tank
Definition of drying
Importance of drying
Difference between drying and evaporation
Drying is defined as removal of the liquid from a material by application of heat & is accomplished by transfer of a liquid from the surface into an unsaturated vapor phase .
Drying is the final removal of water from material (usually by heat)
Drying is commonly the last stage in a manufacture process
Non-thermal drying
1- As Squeezing wetted sponge
2- Adsorption by desiccant (desiccation)
3- Extraction.
Preservation of drug products
Preparation of bulk drugs
Improved handling
Improved characteristics
Equipments
Drying is necessary in order to avoid deterioration. A few examples are…
--blood products, tissues… undergo microbial growth
--effervescent tablets, synthetic & semi synthetic drugs undergo…. chemical decomposition.
Objectives, applications, Mechanism, official standards of powders, Sieve, Standard for Sieve, Principles, construction, working, uses, merits and demerits of Air separator.
Mixer Machines Mixer Machines are used in a number of different applications and industries in order to produce a final product that is the result of mixing or combining two or more materials.
Generally, size reduction and size separation are combined to obtain powder with the desired particle size distribution (PSD) for acceptable flow and compressibility for downstream processing . The mechanical process of reducing the particle size of a solid is also called milling.
Size reduction is a process of reducing large solid unit masses, coarse particles or fine particles.
Size reduction may be achieved by two methods:
1] Precipitation
2] Mechanical process
1] Precipitation method: Substance is dissolve in appropriate solvent.
2] Mechanical process: Mechanical force is introduce by using different equipments like ball mill, colloid mill etc.
Fluid energy mill for pharmacy principles, construction, working, uses, meri...ASHUTOSH SENGAR
this is an slideshare for pharmacy students, principles, construction, working, uses, merits and
demerits of , fluid energy mill its for b. pharm. and M. PHARM
Industrial pharmacy
Mixing
Introduction
Importance of mixing
Types of mixtures
Fluid mixing, its mechanisms and types of fluid mixers
Semi-solid mixing, mechanism and equipments used
Solid mixing, mechansims ans types of solid mixing equipments
Introduction
Importance of mixing
Types of mixtures
Fluid mixing, its mechanisms and types of fluid mixers
Semi-solid mixing, mechanism and equipments used
Solid mixing, mechansims ans types of solid mixing equipments
Mixing is a general term that includes stirring, beating, blending, binding, creaming, whipping, and folding. In mixing, two or more ingredients are evenly dispersed in one another until they become one product.
Amidst the verdant foliage, a **lush bush** unfurls its vibrant petals, each a crimson stroke against the canvas of the sky. The gentle sunlight** weaves through leaves, illuminating this botanical masterpiece. 🌼
Mixing: Objectives, applications & factors affecting mixing,
Difference between solid and liquid mixing,
mechanism of solid mixing, liquids mixing and semisolids mixing.
Principles, Construction, Working, uses, Merits and Demerits of Double cone blender
Principles, Construction, Working, uses, Merits and Demerits of twin shell blender
Principles, Construction, Working, uses, Merits and Demerits of ribbon blender
Principles, Construction, Working, uses, Merits and Demerits of Sigma blade mixer
Principles, Construction, Working, uses, Merits and Demerits of planetary mixers
Principles, Construction, Working, uses, Merits and Demerits of Propellers
Principles, Construction, Working, uses, Merits and Demerits of Turbines
Principles, Construction, Working, uses, Merits and Demerits of Paddles
And
Principles, Construction, Working, uses, Merits and Demerits of Silverson Emulsifier.
This presentation contains all information on mixing and different mixing equipment used in food industry. The different equipment includes those for solids, liquids and semi solids. It consist of tumbling mixers, rotational screw mixers, agitators, impellers, paddle mixers, planetary mixers and so much more.
Instructions for Submissions thorugh G- Classroom.pptxJheel Barad
This presentation provides a briefing on how to upload submissions and documents in Google Classroom. It was prepared as part of an orientation for new Sainik School in-service teacher trainees. As a training officer, my goal is to ensure that you are comfortable and proficient with this essential tool for managing assignments and fostering student engagement.
The Roman Empire A Historical Colossus.pdfkaushalkr1407
The Roman Empire, a vast and enduring power, stands as one of history's most remarkable civilizations, leaving an indelible imprint on the world. It emerged from the Roman Republic, transitioning into an imperial powerhouse under the leadership of Augustus Caesar in 27 BCE. This transformation marked the beginning of an era defined by unprecedented territorial expansion, architectural marvels, and profound cultural influence.
The empire's roots lie in the city of Rome, founded, according to legend, by Romulus in 753 BCE. Over centuries, Rome evolved from a small settlement to a formidable republic, characterized by a complex political system with elected officials and checks on power. However, internal strife, class conflicts, and military ambitions paved the way for the end of the Republic. Julius Caesar’s dictatorship and subsequent assassination in 44 BCE created a power vacuum, leading to a civil war. Octavian, later Augustus, emerged victorious, heralding the Roman Empire’s birth.
Under Augustus, the empire experienced the Pax Romana, a 200-year period of relative peace and stability. Augustus reformed the military, established efficient administrative systems, and initiated grand construction projects. The empire's borders expanded, encompassing territories from Britain to Egypt and from Spain to the Euphrates. Roman legions, renowned for their discipline and engineering prowess, secured and maintained these vast territories, building roads, fortifications, and cities that facilitated control and integration.
The Roman Empire’s society was hierarchical, with a rigid class system. At the top were the patricians, wealthy elites who held significant political power. Below them were the plebeians, free citizens with limited political influence, and the vast numbers of slaves who formed the backbone of the economy. The family unit was central, governed by the paterfamilias, the male head who held absolute authority.
Culturally, the Romans were eclectic, absorbing and adapting elements from the civilizations they encountered, particularly the Greeks. Roman art, literature, and philosophy reflected this synthesis, creating a rich cultural tapestry. Latin, the Roman language, became the lingua franca of the Western world, influencing numerous modern languages.
Roman architecture and engineering achievements were monumental. They perfected the arch, vault, and dome, constructing enduring structures like the Colosseum, Pantheon, and aqueducts. These engineering marvels not only showcased Roman ingenuity but also served practical purposes, from public entertainment to water supply.
2024.06.01 Introducing a competency framework for languag learning materials ...Sandy Millin
http://sandymillin.wordpress.com/iateflwebinar2024
Published classroom materials form the basis of syllabuses, drive teacher professional development, and have a potentially huge influence on learners, teachers and education systems. All teachers also create their own materials, whether a few sentences on a blackboard, a highly-structured fully-realised online course, or anything in between. Despite this, the knowledge and skills needed to create effective language learning materials are rarely part of teacher training, and are mostly learnt by trial and error.
Knowledge and skills frameworks, generally called competency frameworks, for ELT teachers, trainers and managers have existed for a few years now. However, until I created one for my MA dissertation, there wasn’t one drawing together what we need to know and do to be able to effectively produce language learning materials.
This webinar will introduce you to my framework, highlighting the key competencies I identified from my research. It will also show how anybody involved in language teaching (any language, not just English!), teacher training, managing schools or developing language learning materials can benefit from using the framework.
How to Make a Field invisible in Odoo 17Celine George
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Students, digital devices and success - Andreas Schleicher - 27 May 2024..pptxEduSkills OECD
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This is a presentation by Dada Robert in a Your Skill Boost masterclass organised by the Excellence Foundation for South Sudan (EFSS) on Saturday, the 25th and Sunday, the 26th of May 2024.
He discussed the concept of quality improvement, emphasizing its applicability to various aspects of life, including personal, project, and program improvements. He defined quality as doing the right thing at the right time in the right way to achieve the best possible results and discussed the concept of the "gap" between what we know and what we do, and how this gap represents the areas we need to improve. He explained the scientific approach to quality improvement, which involves systematic performance analysis, testing and learning, and implementing change ideas. He also highlighted the importance of client focus and a team approach to quality improvement.
Operation “Blue Star” is the only event in the history of Independent India where the state went into war with its own people. Even after about 40 years it is not clear if it was culmination of states anger over people of the region, a political game of power or start of dictatorial chapter in the democratic setup.
The people of Punjab felt alienated from main stream due to denial of their just demands during a long democratic struggle since independence. As it happen all over the word, it led to militant struggle with great loss of lives of military, police and civilian personnel. Killing of Indira Gandhi and massacre of innocent Sikhs in Delhi and other India cities was also associated with this movement.
Read| The latest issue of The Challenger is here! We are thrilled to announce that our school paper has qualified for the NATIONAL SCHOOLS PRESS CONFERENCE (NSPC) 2024. Thank you for your unwavering support and trust. Dive into the stories that made us stand out!
How to Split Bills in the Odoo 17 POS ModuleCeline George
Bills have a main role in point of sale procedure. It will help to track sales, handling payments and giving receipts to customers. Bill splitting also has an important role in POS. For example, If some friends come together for dinner and if they want to divide the bill then it is possible by POS bill splitting. This slide will show how to split bills in odoo 17 POS.
The Indian economy is classified into different sectors to simplify the analysis and understanding of economic activities. For Class 10, it's essential to grasp the sectors of the Indian economy, understand their characteristics, and recognize their importance. This guide will provide detailed notes on the Sectors of the Indian Economy Class 10, using specific long-tail keywords to enhance comprehension.
For more information, visit-www.vavaclasses.com
Sectors of the Indian Economy - Class 10 Study Notes pdf
Mixing by ankita yagnik
1. MIXING : Theory and
Equipment
Prepared By: Ankita Yagnik
Assistant Professor
Akshar-Preet Institute Of Pharmacy, Jamnagar
2. Introduction
Mixing is defined as a process that tends to
result in a randomization of dissimilar particles within a system.
• The term MIX means to put together in one mass.
• The term BLENDING means to mix smoothly and inseparably
together during which a minimum energy is imparted to the bed.
• The terms MIXING and BLENDING are commonly used
interchangeable in the pharmaceutical industry.
3. Classification of mixing
A. Mixing of solids
B. Mixing of liquids
C. Mixing of immiscible liquids
D. Mixing of semisolids
4. A. Mixing of solids
• In the manufacture of tablets or granules normally a number of additives are
added. Therefore mixing of powder becomes essential part of the process.
• Mixing is considered as a critical factor, especially in case of potent drugs and
low dose drugs where high amounts of adjuvants are added.
• The diverse characteristics of particles such as size shape volume surface area
density porosity flow charge contribute to the solid mixing.
• Depending on their flow properties solids are divided into two classes as
cohesive and non cohesive.
5. Interparticle interactions & segregation
1.Inertial forces:
These forces hold neighboring particles in fixed relative
position.
E.g.: Vander Waal forces, electrostatic forces, surface forces.
Surface forces:
Cohesive forces and frictional forces results in surface-surface
interactions which resist the movement of particles, hence they should
be minimal.
During mixing, the particles develop surface charge which produce
particle-particle repulsions, which make random mixing impossible.
These depend on surface area, surface roughness, polarity, charge,
moisture.
6. Segregation
• Poor flow properties.
• Particle size difference.
• Difference in mobilities.
• Differences in particle density and shape.
• Transporting stage.
• Dusting stage.
It may occur even after mixing.
7. 2. Gravitational forces
• Improve the movement of two adjacent particles or groups of
particles
• When particle-particle collisions occur , exchange of momentum is
achieved continuous exchange or distribution of momentum
between transitional and rotational modes is necessary for effective
mixing
• Efficiency of momentum transfer depends on
Elasticity of the collisions
Coefficient of friction
Surface area of contact
Centrifugal forces
8. Mechanismof mixing of solids
1. Convective mixing/Macro mixing:
Inversion of the powder bed using blades or paddles or
screw element, in which large mass of material moves from one
place to another.
2. Shear mixing:
In this type, forces of attraction are broken down so that
each particle moves on its own between regions of different
components and parallel to their surface.
3. Diffusion mixing/Micro mixing:
Involves the random motion of particle within the
powder bed, thereby particles change their position relative to one
another.
9. Mixing process -steps
• In the solid-solid mixing operations , four steps are involves.
These are:
1. Expansion of the bed of solids
2. Application of 3-dimensional shear forces to the powder bed.
3. Mix long enough to permit true randomization of particles.
4. Maintain randomization.
10. The law of mixing appears to follow first order,
𝑴 = 𝑨 (𝟏 − 𝒆−𝒌𝒕
)
Where M = degree of mixing after time t,
T = time
A and k = constants
A and k depends on the
Mixer geometry
Physical characteristics of the powders and
Proportion of the material being mixed.
11. Degree of mixing
• Ideal mixing or perfect mixing:
• Acceptable mixing:
1. Random mixing
2. Ordered mixing
– Mechanical means of ordered mixing
– Adhesion means of ordered mixing
– Coating means of ordered mixing
13. Statisticalparameters
Relative standard deviation:
• It replace the S.D as a measure of sample uniformity.
• Useful for comparing the efficiency of two or more mixing operations or
different sample size or different composition.
𝑝𝑒𝑟𝑐𝑒𝑛𝑡 𝑟𝑒𝑙𝑎𝑡𝑖𝑣𝑒 𝑆. 𝐷 =
𝑠𝑡𝑎𝑛𝑑𝑎𝑟𝑑 𝑑𝑒𝑣𝑖𝑎𝑡𝑖𝑜𝑛(𝜎)
𝑚𝑒𝑎𝑛 ȳ
𝑋 100
Arithmetic mean:
Size distribution is calculated
Arithmetic mean ȳ = 𝑖
𝑛 𝑦 𝑖
𝑛
Standard deviation:
Used to know the spread of dispersion.
Standard deviation 𝜎 = 𝑖
𝑛(𝑦 𝑖−ȳ)2
(𝑛−1)
• Mixing should be continued until the amount of the active drug that
is required is with in ± 3 SD units that of found by assay in a
representative number of sample dose.
14. Mixing indices
• Involves the comparison of SD of sample of a mixture under
study with the estimated standard deviation of a completely
random mixture.
• It can be expressed in two ways:-
𝑀 =
𝜎 𝑅
𝜎
or 𝑀 =
𝜎 𝑜 −𝜎
𝜎 𝑜 − 𝜎 𝑅
Where,
M = mixing index
𝜎 𝑅 = standard deviation of the random blend
𝜎 = standard deviation of the sample blend
𝜎𝑜 = standard deviation of the unmixed powder
15. Statisticalevaluation
Objectives:
• To compare the efficiency of two or more mixing operations.
• To compare the efficiency of two or more equipment.
• To follow the mixing process with time.
• To optimize processing parameters
• To investigate the mechanism of mixing in a given piece of equipment.
Sample size:
• Approximately a unit dose of the final product.
Number of samples:
• Required – 30
• Ideal – 100
• Economical sampling – 20
Sample collection:
• At different intervals when the blend is in motion.
• After blending is completed
Sample utilization:
• Scooping sampling
• Thief probing
Sampling methods:
• Non destructive
• destructive
16. Factors influencing mixing
• Nature of the surface
• Density of the particles
• Particle size
• Particle shape
• Particle charge
• Proportion of materials
17. EQUIPMENT
Criteria:
1. Powder bed should not be filled for more than 60%
2. Particles should be subjected to movement in three
directions
3. Shearing force should be sufficient to prevent
aggregation.
4. There should be no centrifugal effect
5. Forces should not cause breakage of the particles.
6. The mixing process should be stopped abruptly.
18. Classificationof equipmentfor solidmixing
• Based on flow properties:
1.Free flowing solids:
e.g.: V cone blend , Double cone blender
2.Cohesive solids:
e.g.: Sigma blender, Planetary mixer
• Based on scale of mixing:
1.Batch type(small scale):
e.g.: Mortar and pestle, V cone blender, Double cone blender,
Ribbon blender, Sigma blender, Planetary paddle, Fluidized
mixer
2.Continuous type(large scale):
e.g.: barrel type, zigzag type
19. S.no. Nature of mixer Examples Mechanism of
mixing
1 Batch type Mortar pestle Trituration
2 Tumbling mixers or cylindrical
mixers with no mixing blade
Double cone blender
V cone blender
Tumbling action
3 Tumbling mixer with a mixing
blade
V cone blender double
cone blender
Tumbling action as
well as shearing with
blade
4 Static mixers Ribbon blender
Sigma blender
Planetary paddle
Stationary shell and
rotating blade
5 Air mixers or fluidized mixers Fluidized mixer Air supported
blending
6 Continuous type Barrel type
Zigzag type
Rotating shell with
rotating blade
20. Tumblers or cylindrical blenders
with no mixing blade
• Meant for dry powders
• Equipment consists of a container of any geometric form.
• Container is mounted on special roller so that it can be rotated about any
axis.
• Edge of 27 degrees is good for mixing.
• Efficiency of a tumbler mixer highly depends on the speed of rotation. It
should be critical and optimum.
• Slow rotation- no intense tumbling, No cascade motion, Not enough shear
rates are applied.
• Rapid rotation-sufficient centrifugal action to the powder to the side of
the mixer, more dusting and segregation of fines is possible.
• Rate of rotation depends upon size , shape of the tumbler and nature of
the material to be mixed. Common range is 30-100rpm.
• Mixing is done by tumbling motion, which is accentuated by virtue of the
shape of the container.
21. Twin shell blender or V cone blender
• It is V shaped and made up of stainless
steel or transparent plastic.
• Material is loaded through shell hatches
and emptying is normally done through
and apex port.
• The material is loaded approximately
50-60% of the total volume.
• Small models – 20 kg , rotate at 35rpm
• Large models – 1 ton, rotate at 15rpm
• As the blender rotates , the material
undergoes tumbling motion.
• When V is inverted, the material splits
into two portions. This process of
dividing and recombining continuously
yields ordered mixing by mechanical
means.
22. Double cone blender
• It consists of double cone on rotating shaft.
• It is usually used for small amount of
powders.
• It is efficient for mixing powders of
different densities.
• Material is loaded and emptying is done
through the same port.
• The rate of rotation should be optimum
depending upon the size, shape of the
tumbler and nature of the material to be
mixed.
• The rate of rotation commonly ranges from
30-100rpm.
• Mixing occurs due to tumbling motion. Double cone
blender
23. Advantages of V cone blender and double cone blenders:
• If fragile granules are to be blended, twin shell blender is suitable
because of minimum attrition.
• They handle large capacities.
• Easy to clean , load, and unload.
• This equipment requires minimum maintenance.
Disadvantages of V cone blender and double cone blenders:
• Twin shell blender needs high headspace for installation.
• It is not suitable for fine particulate system or ingredients of large
differences in the particle size distribution, because not enough
shear is applied.
• If powders are free flowing, serial dilution is required for the
addition of low dose active ingredients.
25. Advantages of tumblers with blades:
• Baffles are useful for both wet and dry mixing.
• Wide range of shearing force can be applied with agitator bars permitting
the intimate mixing of very fine as well as coarse powders.
• Serial dilution is not needed when incorporating low-dose active
ingredients.
Disadvantages of tumblers with blades:
• Attrition is large, size reduction of friable particles results.
• Scale-up can prove a problem, because general principles of scale-up do
not work
• Cleaning may be a problem, because agitator assembly must be removed
and the packing should be replaced for a product changeover
• Potential packing (sealing) problems occur.
26. Ribbon blender
Principle:
Mechanism of mixing is shear. Shear is
transferred by moving blades. High shear rates
are effective in breaking lumps and aggregates.
Convective mixing also occurs as the powder bed
is lifted and allowed to cascade to the bottom of
the container. An equilibrium state of mixing can
be achieved.
Construction:
• Consists of horizontal cylindrical trough
usually open at the top. It is fitted with two
helical blades, which are mounted on the
same shaft through the long axis of the
trough.
• Blades have both right and left hand twists.
• Blades are connected to fixed speed drive.
• It can be loaded by top loading and emptying
is done through bottom port.
27. Working:
Uses:
Used for mixing of finely divided solids, wet solid mass, and
plastic solids.
Uniform size and density materials can be easily mixed.
Used for solid – solid and liquid – solid mixing.
28. Advantages of ribbon blender:
• High shear can be applied by using perforated baffles,
which bring about a rubbing and breakdown
aggregates.
• Headroom requires less space.
Disadvantages of ribbon blender:
• It is a poor mixer, because movement of particles is two
dimensional..
• Shearing action is less than in planetary mixer.
• Dead spots are observed in the mixer, though they are
minimum.
• It has fixed speed drive.
29. Sigma blade mixer
Principle –shear. Inter meshing of sigma blades
creates high shear and kneading action.
Constructionand working:
• It consists of double tough shaped stationary bowl.
• Two sigma shaped blades are fitted horizontally in
each tough of the bowl.
• These blades are connected to a fixed speed drive.
• Mixer is loaded from top and unloaded by tilting the
entire bowl.
• The blades move at different speeds , one about
twice than the other, which allows movement of
powder from sides to centers.
• The material also moves top to downwards and gets
sheared between the blades and the wall of the
tough resulting cascading action.
• Perforated blades can be used to break lumps and
aggregates which creates high shear forces.
• The final stage of mix represents an equilibrium
state.
Sigma blade mixer
30. Uses of sigma blade mixer:
• Used in the wet granulation process in the manufacture of
tablets, pill masses and ointments,
• It is primarily used for liquid – solid mixing, although it can
be used for solid – solid mixing.
Advantages of sigma blade mixer:
• Sigma blade mixer creates a minimum dead space during
mixing.
• It has close tolerances between the blades and the sidewalls as
well as bottom of the mixer shell.
Disadvantages of sigma blade mixer:
• Sigma blade mixer works at a fixed speed.
31. Planetary mixer
Principle:
Mechanism of mixing is shear. Shear is
applied between moving blade and stationary
wall. Mixing arm moves around its own axis and
around the central axis so that it reaches every
spot of the vessel. The plates in the blades are
sloped so that powder makes an upward
movement to achieve tumbling action also.
Construction:
• Consists of vertical cylinder shell which can be
removed.
• The blade is mounted from the top of the
bowl.
• Mixing shaft is driven by planetary gear and it
is normally built with variable speed drive.
32. Uses :
• Break down agglomerates rapidly.
• Low speeds are used for dry blending and fast for wet
granulation.
Advantages:
• Speed of rotation can be varied at will.
• More useful for wet granulation process.
Disadvantages:
• Mechanical heat is buildup within the powder mix.
• It requires high power.
• It has limited size and is useful for batch work only.
33. Applicationsof solidmixing
• Involved in the preparation of many types of
formulations.
• It is also an intermediate stage in the production
of several dosage forms.
– Wet mixing in the granulation step in the production
of tablets and capsules.
– Dry mixing of several ingredients ready for direct
compression as in tablets.
– Dry blending of powders in capsules, dry syrups and
compound powders.
– Production of pellets for capsules.
34. B. Mixingof Fluids
Mechanism:
• Bulk transport: Movement of large portion o a material from one location to
another location in a give system. Rotating blades and paddles are used.
• Turbulent mixing: Highly effective, mixing is due to turbulent flow which
results in random fluctuation of the fluid velocity at any given point within
the system. Fluid velocity at a given point changes in 3 directions (X, Y and
Z).
• Laminar mixing: Mixing of two dissimilar liquids through laminar flow, i.e.,
applied shear stretches the interface between them. Suitable for liquids
which require moderate mixing.
• Molecular diffusion: Mixing at molecular level in which molecules diffuse
due to thermal motion.
36. Mixing Device
• Based on shape and pitch , the are classified into 3
types,
»Propellers
»Turbines
»Paddles
37. Propellers
• It consists of number of blades, generally 3 bladed
design is most common for liquids. Blades may be
right or left handed depending upon the slant of their
blades.
• Two are more propellers are used for deep tank.
• Size of propeller is small and may increased up to
0.5metres depending upon the size of the tank.
• Small size propellers can rotate up to 8000rpm and
produce longitudinal movement.
38. Advantages of propellers:
Used when high mixing capacity is required.
Effective for liquids which have maximum viscosity of 2.0pascals.sec
or slurry up to 10% solids of fine mesh size.
Effective gas-liquid dispersion is possible at laboratory scale.
Disadvantages of propellers:
Propellers are not normally effective with liquids of viscosity greater
than 5pascal.second, such as glycerin castor oil, etc.,
39. Turbines
• A turbine consists of a circular disc to
which a number of short blades are
attached. Blades may be straight or
curved.
• The diameter of the turbine ranges from
30-50% of the diameter of the vessel.
• Turbines rotates at a lower speed than the
propellers (50-200rpm).
• Flat blade turbines produce radial and
tangential flow but as the speed increases
radial flow dominates. Pitched blade
turbine produces axial flow.
Near the impeller zone of rapid currents, high turbulence and
intense shear is observed. Shear produced by turbines can be further
enhanced using a diffuser ring (stationary perforated ring which surrounds
the turbine).
Diffuser ring increase the shear forces and liquid passes
through the perforations reducing rotational swirling and vortexing.
40. Advantages of Turbines:
• Turbines give greater shearing forces
than propellers through the pumping
rate is less. Therefore suitable for
emulsification.
• Effective for high viscous solutions
with a wide range of viscosities up to
7.0 Pascal. Second.
• In low viscous materials of large volumes turbine create a strong
currents which spread throughout the tank destroying stagnant
pockets.
• They can handle slurries with 60% solids.
• Turbines are suitable for liquids of large volume and high
viscosity, if the tank is baffled.
41. Paddles
• A paddle consists of a central hub with
long flat blades attached to it vertically.
• Two blades or four blades are common.
sometimes the blades are pitched and
may be dished or hemispherical in
shape and have a large surface area in
relation to the tank in which they are
used.
• Paddles rotates at a low speed of
100rpm.
• They push the liquid radially and tangentially with almost no axial action unless
blades are pitched.
• In deep tanks several paddles are attached one above the other on the same
shaft.
• At very low speeds it gives mild agitation in unbaffled tank but as for high speeds
baffles are necessary.
42. Uses of paddles:
Paddles are used in
the manufacture of antacid
suspensions, agar and pectin
related purgatives, antidiarrheal
mixtures such as bismuth-
kaolin.
Advantages of paddles:
Vortex formation is not possible with paddle
impellers because of low speed mixing.
Disadvantages of paddles:
Mixing of the suspension is poor therefore baffled
tanks are required.
43. Factors influencingmixingof liquidsin tanks
Material relatedfactors-
– Properties of liquids: physical properties of materials to be mixed.
e.g.: Density, Viscosity and miscibility.
Equipmentrelatedfactors-
– Shape of impeller: Propeller type, straight, vertical, curved, or pitched.
– Position of impeller: Central, off-center, side entry, vertical or inclined etc.,
– Shape and size of the container: cylindrical or other geometric forms.
Presence or absence of baffles.
– Cost of equipment and its maintenance.
Processrelatedfactors-
– Speed of rotation of the impeller.
– Time required for mixing.
– Amount of power that can be expended.
– Ease of operation.
– Batch size.
44. Advantagesof liquidmixing
• Liquid mixing promotes heat transfer between liquid
and a heating source. This step is essential in the
crystallization of drug substances. Uniform heat
transfer in the solution yields crystals of same size.
• Liquid mixing is essential in the manufacture of
number of dosageforms.
E.g.:
– Suspensions
– Emulsions
– Solutions
– Aerosols
45. C. Mixing of immiscible Liquids
Carried mainly in the manufacture of emulsions, and the
equipment used for the preparation of an emulsion is known as emulsifier. Also
known as homogenizer as it results in fine emulsion.
Fine emulsion is prepared in 2 stages.
In 1st stage coarse emulsion is prepared by using one of the following
process:-
– Wedge wood
– Mechanical blender
– Hand homogenizer
– Porcelain mortar and pestle
– Milk shake mixer
– Propeller in a baffled tank
Some times the above equipment directly gives fine emulsion.
Otherwise coarse emulsion is subjected to homogenizer in the 2nd
stage to get fine emulsion by using following process:-
– Silverson emulsifier
– Colloidal mill
– Rapisonic homogenizer
46. Factors influencing selection of an
emulsifier
1. Quantity of emulsion to be prepared: batch wise or
continuous operation
2. Flow properties of liquids: Newtonian, plastic, pseudo
plastic or dilatant.
3. Temperature maintenance: mixing will be effective at
high temperatures provided the material is stable.
4. Desired rate of cooling: if elevated temperatures are
applied
48. Silversonmixer -Emulsifier
Principle:
• It produces intense shearing forces and
turbulence by use of high speed rotors.
• Circulation of material takes place through
the head by the suction produced in the
inlet at the bottom of the head.
• Circulation of the material ensures rapid
breakdown of the dispersed liquid into
smaller globules.
• It consists of long supporting columns and
a central portion. Central portion consists
of a shaft which is connected to motor at
one end and other to the head.
• Head carries turbine blades.
• Blades are surrounded by a mesh, which is
further enclosed by a cover having
openings.
49. Uses:
• Used for the preparation of emulsions and creams
of fine particle size.
Advantages:
• Silver son mixer is available in different sizes to
handle the liquids ranging from a few milli liters
to several thousand liters.
• Can be used for batch operations as well as for
continuous operations by incorporating into a
pipeline, through which the immiscible liquids
flow.
• Disadvantages:
• Occasionally, there is a chance is clogging of
pores of the mesh.
50. D. Mixing ofsemisolids
• Semi solids dosageforms include ointments, pastes, creams, jellies, etc., while
mixing such dosageforms , the material must be brought to the agitator or
the agitator must move the material throughout the mixer.
• The mixing action include combination of low speed shear, smearing, wiping,
folding, stretching and compressing.
• A large amount of mechanical energy is applied to the material by moving
parts. Sometimes a part of the supplied energy appears as heat.
• The forces required for efficient mixing are high and consumption of power is
also high. Hence the equipment must be rugged constructed to tolerate
these forces.
• Some semisolids exhibit dilatant property i.e., viscosity increases with
increase in shear rates. Therefore, mixing must be done at lower speeds.
• The speed must be changed accordingly to thixotropic, plastic and pseudo
plastic materials.
51. Classificationof equipment
• Agitator mixers:
e.g.:- Sigma mixers and Planetary mixer.
• Shear mixers:
e.g.:- Triple roller mill and Colloidal mill.
Selectionof mixingequipment for semi solids
• Physical properties of the materials – density viscosity and
miscibility.
• Economic considerations regarding processing – time required
for mixing and power consumption.
• The cost of equipment and its maintenance.
52. Triplerollermill
Principle:- High shear , which causes
crushing of aggregates, particles and also
distributes the drug uniformly throughout
the semi solid base.
• It consists of 3 parallel rollers of equal
diameters made up of stainless steel.
• These are mounted on rigid frame
work horizontally.
• The gap between the first 2 rollers is
more than that of the gap between
the last two.
• A hopper is placed in between the first
two rollers.
• A scrapper is attached to the last roller.
• First roller rotates at lower speed
compared to the 2nd similarly 2nd roller
speed is less than the 3rd roller.
53. Advantages of triple roller mill
• From the small to the large batch - Three roll mills are ideally
suited for processing the smallest and also very large quantities.
• Excellent temperature control - Three roll mills enable excellent
control of the product temperature, since the product is processed
as a thin film on the roller. This way, the product can be warmed or
cooled off depending on your requirements.
• Avoid contamination - Through the selection of materials for the
rollers and scraper knives, which are available in a broad spectrum
of chrome-plated steel, aluminium oxide, zirconium oxide, and
silicon carbide, it is possible to avoid product contamination due to
metal abrasion.
• Extremely uniform dispersion is obtained.
• low material loss.
• easy cleaning.