Two different products were tested to help a customer who was finding some difficulty in obtaining homogeneous mixes of small volumes of material that were considered difficult to mix to a homogeneous state in the batch sizes required.
PRODUCT 1, TRIAL 1
A mix of sugar and salt in the ratio of 2:1
A batch of 100 grams of household sugar was weighed and added to the mixing bowl, together with a batch of 50 grams of table salt. A full sized standard bowl without the insert was used. Inserts are available and can be useful when smaller volumes are used but were not necessary in this case.
This batch was mixed for about 30 seconds at 125 rpm and it appeared that with this particular mix (with a tapped bulk density of 1.35) the mixing process worked but was not optimum. This volume was a little too much to achieve very effective mixing quickly.
The qualitative results shown in the pictures below indicate that a thorough mix is achieved with samples with a mix time of about 90 seconds.
In the photograph below the mixing bowl is removed from the Mixer/Granulator base and the front plate is removed from the mixing bowl to allow a qualitative visual inspection of the mix.
A homogeneous mix of sugar and salt (ratio 2:1) with 0.4 ml of red food dye added for the last 30 seconds of mixing. The sample is clearly homogeneous demonstrating the mixing efficiency of the standard bowl with powders of unequal particle size and weight.
PRODUCT 1 - TRIAL 2
In a second trial with the same material the sigma blade system was used. In this case the mixing was significantly less efficient (it was taking longer). The picture below shows the mix state in the sigma bowl after 90 seconds. It is believed that the eventual effectiveness of the mixing would equal that of the standard blade set in this case but a longer mix time would be required.
A homogeneous mix of sugar and salt (ratio 2:1) with 0.4 ml of red food dye added for the 90 seconds of mixing. The sample appears to take longer to reach a homogeneous mix than in the trial with the standard bowl and blade set. This is expected as the sigma blades were designed for mixing high viscosity materials and not dry powder mixing.
PRODUCT 2 - TRIAL 1
In a second set of trials an attempt was made to mix a fine oat bran (tapped bulk density 0.54) with “room temperature solid” palm oil with a melting point of about 80 degrees C.
The standard bowl and blade set were used as the shear activity was considered important in case the palm oil began to solidify before being fully dispersed.
In this test the optional water jacketed bowl was not available and thus not used (but generally this would be recommended in such a case) but the bowl was heated before use by immersion in hot water (at about 80 deg C).
A batch size of 50 g of oat bran was added to the mixing bowl and the mixer run at 150 rpm. With the very low bulk density of the oat bran a 50 g batch was added to the mixer and it was already too full. A sample of 10 g was removed from the mixer and the mixing activity was good.
A 5 ml sample of liquid palm oil (heated in a water bath to approximately 80 degrees C) was taken into a 5 ml syringe and quickly added to the sample being mixed.
The mixer was allowed to run at 150 rpm for 10 minutes. After 10 minutes the resulting mixture had the appearance of being completely homogeneous.
The solidified oil caused a visible colour change which appeared homogeneous throughout the sample.
The image below shows a homogeneous distribution of a “room temperature solid” palm oil mixed for 10 minutes at a high speed in the mixing bowl of the Caleva Multi Lab. The standard blade and bowl set of the CML with it’s high shear mixing performance proved excellent for mixing a 5 ml sample of palm oil in a 40 gram batch of fine oat bran.
PRODUCT 2 - TRIAL 2
In the second trial the amount of oil added to the 40g of oat bran was increased to 8ml.
The oil was added to the mix in 2 x 4 ml lots with the mixer running at 150 rpm
With the higher quantity of palm oil, and after 10 minutes there was some sticking of material on the mixing blades. This material was scraped from the blade and the material was mixed for an additional 2 minutes at 240 rpm. The additional mixing removed this small amount of material and the mix was homogeneous.
In practice, this additional second mixing is a reasonable step in the few instances that it may be required.
With the highest proportion of the “solid” palm oil in the 40 gram batch of fine oat bran the mix was homogeneous but in this case an additional second 2 minute mix was required.
PRODUCT 2 - TRIAL 3
In a final trial, 40 g of fine oat bran was mixed with 2 ml of palm oil for 10 minutes at 240 rpm. This smaller quantity mixed effectively and the resulting mixture was again homogeneous as shown below.
- The mixer/granulator component of the Caleva Multi Lab gives excellent performance as a standalone mixer for distributing small amounts of liquid through a fine powder matrix.
- It also offers excellent performance as a standalone mixer for mixing powder samples of different size and weight.
- The amount of the powder component that can be mixed in a single batch is dependent on the bulk density of the product. In the reported trials, using a product with a bulk density of 1.35 a batch of 125 g can be mixed effectively. A product with a bulk density of 0.54 a batch of 40 grams was effectively mixed.
- Oil can be effectively mixed even when the oil is a solid at room temperature. A water jacketed bowl would be an advantage and should be considered.
- A range of bowl sizes and blade designs are available and can be chosen depending on the properties of the materials to be mixed or granulated. Contact Caleva for additional advice.
- The Caleva Mixer/Blender/Granulator is suitable for use in industries such as pharmaceutical, chemical, catalyst, aquaculture and many others where small samples are required to be efficiently mixed together.
MIXER VOLUME AVAILABLE WITH DIFFERENT CONFIGURATIONS
Bowl and blade configuration
Mix chamber volume
Standard full size bowl with blades and without insert
Up to 275 ml
Standard full sized bowl with blades and with insert
Up to 241 ml
Half size bowl with blades and without insert
Up to 71 ml
Half size bowl with blades and with insert
Up to 52 ml
Sigma bowl and blade set with blades and without insert
Up to 113 ml
Sigma bowl and blade set with blades and with insert
Up to 74 ml
The CML is offered with two types of mixing bowls. The standard mixing bowls are available in full and reduced size. The sigma blade bowl system is available only in full size. All bowls are available with and without water jackets.
The standard bowl has an internal volume of 275 ml. The reduced height bowl has a volume of 71 ml. The contra-rotating blades running at different speeds are designed to impart shear on the product during the mixing and granulating process. This property can be useful in many circumstances and this is the standard option for most products.
Full sized standard bowl with insert for use with smaller volumes
Half sized standard bowl for use with smaller volumes
Full sized standard bowl without insert
A set of standard high shear blades
Sigma Blade & Bowl System:
A second option is a bowl and blade system where the blades do not overlap (but do move at different speeds). This system is designed for situations where greater emphasis is required for the mixing component of the process and less emphasis on the level of shear required. This bowl and blade set is particularly useful when working with high viscosity materials.
This system can be particularly useful for mixing products that are more difficult to work with.
The most appropriate bowl and blade system will be determined on a case by case basis. This bowl and blade system is also available with and without a water jacket. A water jacket can be useful when you wish to add to, or remove heat from, the mixing chamber.
Full sized sigma blade bowl with insert
Standard sigma bowl and blade components
Sigma blades (for high viscosity material)
Sigma blades in a standard bowl size