@article{scholars11818, year = {2019}, pages = {149--155}, journal = {Drying Technology}, publisher = {Taylor and Francis Inc.}, doi = {10.1080/07373937.2018.1444634}, number = {2}, volume = {37}, note = {cited By 10}, title = {Experimental analysis on a novel low-temperature vacuum drying with induced nucleation technique for dewatering stingless bees honey}, issn = {07373937}, author = {Ramli, A. S. and Basrawi, F. and Yusof, M. H. B. and Oumer, A. N. and Johari, N. A. and Muhamad, A. and Mamat, M. R. and Habib, K. and Ibrahim, T. K.}, keywords = {Dewatering; Energy storage; Fermentation; Food products; Nuclear magnetic resonance; Nucleation; Temperature; Water content, Experimental analysis; honey; Induced nucleation; Low temperatures; NMR analysis; Nuclear Magnetic Resonance (NMR); stingless bees; Vacuum drying, Chemical analysis, Fermentation; Moisture Content; Nuclear Magnetic Resonance; Nucleation; Temperature; Water Removal}, url = {https://www.scopus.com/inward/record.uri?eid=2-s2.0-85043511039&doi=10.1080\%2f07373937.2018.1444634&partnerID=40&md5=6ab884d05918f24b0bc0e0c1dc92b154}, abstract = {Honey spoilage is a major problem in storing stingless bee honey. A new method of honey dewatering was developed using a low-temperature vacuum drying with induced nucleation technique. The research{\^a}??s objective is to investigate the performance of this method in reducing honey{\^a}??s water content. Two different dewatering temperatures were applied until honey{\^a}??s water content reached below 20. The honey{\^a}??s chemical compound before{\^a}??after dewatering from one of the samples was tested using nuclear magnetic resonance (NMR) analysis. The dewatering rate improves significantly with higher temperature. The NMR analysis result found no changes in chemical compound before{\^a}??after experiment except for ethanol. {\^A}{\copyright} 2018, {\^A}{\copyright} 2018 Taylor \& Francis.} }