Design of kaffir lime peel extract tablets by direct compression: Effects of filler-binder on rheological properties

Irawaty, Wenny, Hadisoewignyo, Lannie, Wijaya, Jenifer, Sababalat, Shindy Saera and Tanjaya, Andy Sebastian (2019) Design of kaffir lime peel extract tablets by direct compression: Effects of filler-binder on rheological properties. In: AIP Conference Proceeding: Exploring Resources, Process and Desin for Sustainable Urban Development., 26 Juni 2019, UNMUH Surakarta.

[thumbnail of Design of kaffir lime peel extract tablets by direct compression: Effects of filler-binder on rheological properties]
Preview
Text (Design of kaffir lime peel extract tablets by direct compression: Effects of filler-binder on rheological properties)
16-Design_of_kaffir_lime_Artikel.pdf

Download (2MB) | Preview
[thumbnail of Design of kaffir lime peel extract tablets by direct compression: Effects of filler-binder on rheological properties]
Preview
Text (Design of kaffir lime peel extract tablets by direct compression: Effects of filler-binder on rheological properties)
16-Design_of_kaffir_lime_Hasil Cek Similarity.pdf

Download (140kB) | Preview
[thumbnail of Design of kaffir lime peel extract tablets by direct compression: Effects of filler-binder on rheological properties_peer_review_]
Preview
Text (Design of kaffir lime peel extract tablets by direct compression: Effects of filler-binder on rheological properties_peer_review_)
16-R1&2-Design_of_kaffir_Peer Review.pdf

Download (1MB) | Preview
[thumbnail of Design of kaffir lime peel extract tablets by direct compression: Effects of filler-binder on rheological properties]
Preview
Text (Design of kaffir lime peel extract tablets by direct compression: Effects of filler-binder on rheological properties)
16-Design_of_kaffir_Artikel Repository.pdf

Download (2MB) | Preview
[thumbnail of Design of kaffir lime peel extract tablets by direct compression: Effects of filler-binder on rheological properties_peer_review_] Text (Design of kaffir lime peel extract tablets by direct compression: Effects of filler-binder on rheological properties_peer_review_)
26pi-R1&2-Design_of_kaffir_lime_peel_.pdf

Download (1MB)
[thumbnail of Design of kaffir lime peel extract tablets by direct compression: Effects of filler-binder on rheological properties] Text (Design of kaffir lime peel extract tablets by direct compression: Effects of filler-binder on rheological properties)
26pi-Design_of_kaffir_lime_peel_.pdf

Download (2MB)

Abstract

Dried kaffir lime peels from Citrus hystrix were extracted with ethanol by maceration method, followed by solvent evaporation to obtain dry extract. Due to economical aspect and good flow properties of the extract, a direct compression method was applied in making the tablets. The main objective of this study was to study the influence of filler-binder (Avicel PH 102, Emcompress and Lactose) on rheological properties of kaffir lime peel extract tablet dough. Firstly, kaffir lime peel extract was prepared by peeling, cutting and drying kaffir lime peels prior to soaking them to ethanol. After separating the solid part, the extract was subsequently concentrated and filler was added into the crude extract to obtain dry product. Secondly, dry extract was then combined with filler-binder, sweetener and lubricant prior to the compression. Rheological properties evaluated in this study were density, flow time, the Carr index and the Hausner ratio. Thirdly, the best formulation dough was compressed to produce tablets. From the results, it can be concluded that ethanol is the best solvent to extract polyphenols from kaffir lime peels. In addition, the use of a mixture of lactose and Avicel PH 102 as the filler-binder agent exhibited the best formulation

Item Type: Conference or Workshop Item (Paper)
Uncontrolled Keywords: -
Subjects: Engineering > Chemical Engineering
Divisions: Proceeding
Depositing User: F.X. Hadi
Date Deposited: 03 Oct 2019 01:25
Last Modified: 08 May 2023 04:45
URI: https://repository.ukwms.ac.id/id/eprint/20121

Actions (login required)

View Item View Item