Abstrak. Penelitian ini bertujuan untuk mengetahui kualitas gabah yang dihasilkan pada berbagai kombinasi ketebalan tumpukan gabah dan penambahan jumlah zeolit pada proses pengeringan, serta kualitas beras giling yang dihasilkan berdasarkan persentase kadar air, butir beras kepala dan butir beras patah. Metode yang digunakan dalam penelitian ini adalah metode ekperimental menggunakan box dryer, sedangkan design penelitian yang digunakan adalah Rancangan Acak Kelompok Faktorial dengan tiga kali ulangan pada setiap kombinasi perlakuan. Hasil penelitian menunjukkan bahwa semakin tipis lapisan gabah, maka proses pengeringan menjadi lebih cepat. Demikian pula dengan semakin banyak zeolit yang ditambahkan, maka proses pengeringan membutuhkan waktu yang lebih singkat. Perlakuan lapisan gabah 30 cm dan komposisi zeolit 10% mampu memberikan waktu pengeringan tercepat, yaitu sembilan jam dengan rerata kadar air gabah 13,5%. Ketebalan lapisan gabah dan penambahan zeolit secara signifikan mempengaruhi kualitas fisik beras giling, meliputi persentase kadar air, butir beras kepala, beras patah, beras menir dan butir gabah. Perlakuan ketebalan lapisan gabah 30 cm dengan persentase komposisi zeolit 10% memberikan nilai persentase butir beras kepala tertinggi, yaitu 92,5% dan butir beras patah terendah, yaitu 4,1%. Sebagian besar perlakuan menghasilkan beras dengan kualitas komersial dengan mutu menengah.

Improving The Quality Of Milled Rice Using Zeolite At Various Levels Of Paddy Drying Layer Thickness.

Abstract. The aim of this study was to determine the quality of the grain produced at various combinations of the paddy pile thickness and the addition of the amount of zeolite in the drying process, as well as the quality of milled rice produced based on the percentage of water content, head rice grains, and broken rice grains. The method used in this research is an experimental method using a box dryer. While the research design used was a factorial randomized block design with three replications for each treatment combination. The results showed that the thinner the layer of paddy, the faster the drying process. Likewise, the more zeolite was added, the drying process took a shorter time. Treatment of 30 cm paddy layer and 10% zeolite composition was able to provide the fastest drying time, which was nine hours with an average grain moisture content of 13.5%. The thickness of the paddy layer and the addition of zeolite significantly affected the physical quality of milled rice, including the percentage of moisture content, head of rice grains, broken rice, groats, and grain. Treatment of the thickness of the 30 cm grain layer with 10 % zeolite composition percentage gave the highest grain percentage value of rice heads, namely 92.5%, and the lowest broken rice grains, namely 4.1%. Most of the treatments produced rice of medium quality commercial quality.

Amin, S., Jamaluddin, & Rais, M. (2018). Laju Pindah Panas Dan Massa Pada Proses Pengeringan Gabah Menggunakan Alat Pengering Tipe Bak (Batch Dryer). Jurnal Pendidikan Teknologi Pertanian, 4, 87–104.

BPS. (2020). Statistik Indonesia 2020. Jakarta.

BSN. (2015). Standar Mutu Beras. Jakarta.

Butardo, V. M., Sreenivasulu, N., & Juliano, B. O. (2018). Improving Rice Grain Quality: State-of-the-Art and Future Prospects. In N. Sreenivasulu (Ed.), Rice Grain Quality: Methods and Protocols (pp. 19–55). https://doi.org/doi:10.1007/978-1-4939-8914-0_2

Djaeni, M., Aishah, N., Nissaulfasha, H., & Buchori, L. (2013). Corn Drying with Zeolite in The Fluidized Bed Dryer under Medium Temperature. IPTEK, The Journal for Technology and Science, 24(2), 1–6. https://doi.org/10.12962/j20882033.v24i2.182

Djaeni, M., Bartels, P., Sanders, J., Straten, G. van, & Boxtel, A. J. B. van. (2007). Heat Efficiency ff Multi-Stage Zeolite Systems for Low Temperature Drying. Proceedings of The 5th Asia-Pacific Drying Conference, Hong Kong, August 13-15, 2007, 589–594.

Erni, N., Kadirman, & Fadilah, R. (2018). Pengaruh Suhu Dan Lama Pengeringan Terhadap Sifat Kimia Danorganoleptik Tepung Umbi Talas (Colocasia esculenta). Jurnal Pendidikan Teknologi Pertanian, 4, 95–105.

Figiarto, R., Galvani, S. L., & Djaeni, M. (2012). Peningkatan kualitas gabah dengan proses pengeringan menggunakan zeolit alam pada unggun terfluidisasi. Jurnal Teknologi Kimia Dan Industri, 1(1), 206–212.

Graciafernandy, M. A., Ratnawati, & Buchori, L. (2012). Pengaruh Suhu Udara Pengering Dan Komposisi Zeolit 3a Terhadap Lama Waktu Pengeringan Gabah Pada Fluidized Bed Dryer. Momentum, 8(2), 6–10.

Hanafi, R., Siregar, K., & Nurba, D. (2017). Modifikasi Dan Uji Kinerja Alat Pengering Energi Surya-Hybrid Tipe Rak Untuk Pengeringan Ikan Teri. Jurnal Rona Teknik Pertanian, 10(1), 9–20.

Indrasari, S. D., Rakhmi, A. T., Subekti, A., & Kristamtini. (2016). Mutu Fisik , Mutu Giling dan Mutu Fungsional Beras Varietas Lokal Kalimantan Barat. Penelitian Pertanian Tanaman Pangan, 35(1), 19–28.

IRRI. (2004). Measuring moisture content. Retrieved June 10, 2021, from http://www.knowledgebank.irri.org/step-by-step-production/postharvest/milling/milling-and-quality/measuring-moisture-content-in-milling.

Iswanto, P. H., Akbar, A. R., & Rahmi, A. (2018). Pengaruh Kadar Air Gabah Terhadap Mutu Beras. JTAM Inovasi Agroindustri, 1(1), 12–23.

Jumali, Handoko, D. D., & Indrasari, S. D. (2020). Pengaruh Cara Pengeringan Gabah terhadap Mutu Fisik , Fisikokimia , dan Organoleptik Beras Varietas Unggul Padi. Penelitian Pertanian Tanaman Pangan, 4(2), 97–103.

Karbassi, A., & Mehdizadeh, Z. (2008). Drying Rough Rice in a Fluidized Bed Dryer. J. Agric. Sci. Technol., 10, 233–241.

Krstic, V. (2021). Role of zeolite adsorbent in water treatment. In Handbook of Nanomaterials for Wastewater Treatment (pp. 417–481). https://doi.org/10.1016/B978-0-12-821496-1.00024-6

Listyawati. (2007). Kajian Susut Pasca Panen dan Pengaruh Kadar Air Gabah Terhadap Mutu Beras Giling Varietas Ciherang (Studi Kasus di Kecamatan Telagasari, Kabupaten Karawang) (Institut Pertanian Bogor). Retrieved from https://repository.ipb.ac.id/handle/123456789/33145

Manfaati, R., Baskoro, H., & Rifai, M. M. (2019). Pengaruh Waktu Dan Suhu Terhadap Proses Pengeringan Bawang Merah Menggunakan Tray Dryer. Jurnal Fluida, 12(2), 43–49.

Ng, P. P., Law, C. L., Tasirin, S. M., & Daud, W. R. W. (2005). Drying Technology : An Drying Characteristics of Malaysian Paddy : Kinetics & Grain Cracking Quality. Drying Technology: An International Journal, 23(12), 2477–2489. https://doi.org/10.1080/07373930500341724

Osorio-Revilla, G., Gallardo-Velazquez, T., Lopez-Cortes, S., & Arellano-Cardenas, S. (2006). Immersion Drying of Wheat Using Al-PILC , Zeolite , Clay , and Sand as Particulate Media. Drying Technology, 24, 1033–1038. https://doi.org/10.1080/07373930600776225

Soerjandoko, R. N. E. (2010). Teknik Pengujian Mutu Beras Skala Laboratorium. Buletin Teknik Pertanian, 15(2), 44–47.

Soponronnarit, S. (2003). Fluidized Bed Grain Drying. Proceedings of the 3rd Asia Pacific Drying Conference, 1-3 September 2003., 55–71. Asian Institute of Technology, Bangkok, Thailand.

Sreethong, T., Prom-u-thai, C., Rerkasem, B., Dell, B., & Jamjod, S. (2018). Variation of Milling and Grain Physical Quality of Dry Season Pathum Thani 1 in Thailand. CMU J. Nat. Sci., 17(3), 191–201. https://doi.org/10.12982/CMUJNS.2018.0014

Sutrisno, S., Raharjo, B., & Hutapea, Y. (2007). Perbedaan tebal tumpukan gabah terhadap tingkat keseragaman kadar air pada pengeringan gabah menggunakan box dryer. Seminar Nasional BPTP Maluku, 240–244. Balai Besar Pengkajian dan Pengembangan Teknologi Pertanian.

Wongpornchai, S., Dumri, K., Jongkaewwattana, S., & Siri, B. (2004). Food Chemistry Effects of drying methods and storage time on the aroma and milling quality of rice (Oryza sativa L.) cv . Khao Dawk Mali 105. Food Chemistry, 87, 407–414. https://doi.org/10.1016/j.foodchem.2003.12.014

Yeong, S., & Ho, K. (2013). Effect of Quality Characteristics on Brown Rice Produced from Paddy Rice with Different Moisture Contents. J Korean Soc Appl Biol Chem, 56, 289–293. https://doi.org/10.1007/s13765-012-3151-9

Yunita, A. I., Sulistyaningsih, T., & Widiarti, N. (2019). Karakterisasi dan Uji Sifat Fisik Material Zeolit Modifikasi Magnetit sebagai Adsorben Ion Klorida dalam Larutan Berair. Indonesian Journal of Chemical Science, 8(2), 6–11.