Enhancing Homogeneity and Particle Size Reduction in Coffee–Creamer Mixtures Using Fluidized Bed Mixer

Penulis

DOI:

https://doi.org/10.22441/ijimeam.v7i1.31132

Kata Kunci:

Fluidized bed mixer, powder mixing, particle size reduction, moisture content, coffee-creamer blends

Abstrak

This study investigates the application of a fluidized bed mixer to improve the homogeneity, particle size distribution, and moisture reduction of coffee and creamer powder mixtures. The research focuses on three types of coffee particles—Type A (145 μm), Type B (100 μm), and Type C (50 μm)—which were mixed with creamer in a weight ratio of 1:0.7. The mixing process was conducted using a prototype fluidized bed mixer with a capacity of 1,000 grams and a blower speed range of 2,800–3,000 rpm. After 10 minutes of mixing, significant reductions in particle size were observed: Type A decreased by 20–30%, Type B by 10–15%, and Type C by 5–10%, with creamer particles also experiencing a 15% reduction. Moisture content dropped from 10.63% to 8.5%, demonstrating the system’s dual function of mixing and drying. Microscopic analysis revealed a uniform particle distribution with minimal agglomeration or segregation, confirming the effectiveness of the fluidized bed mixer in achieving a homogeneous blend. These findings underscore the potential of fluidized bed technology in improving the quality, stability, and handling properties of powder-based products. The results have important implications for instant beverage production, food formulation, and broader powder processing industries, where consistent product performance is essential.

Unduhan

Data unduhan belum tersedia.

Referensi

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Diterbitkan

2025-03-05

Cara Mengutip

1.
Ruhyat N, Multahada E, Sirait AF. Enhancing Homogeneity and Particle Size Reduction in Coffee–Creamer Mixtures Using Fluidized Bed Mixer. Int. J. Innov. Mech. Eng. Adv. Mater [Internet]. 5 Maret 2025 [dikutip 4 Juni 2026];7(1):20-31. Tersedia pada: https://publikasi.mercubuana.ac.id/index.php/ijimeam/article/view/31132

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Vol 7 No 1 (2025)

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