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Maria Sasi Febriaty
Pengaruh iradiasi sinar gamma pada karakteristika kimia dan fisika vitamin A palmitat, minyak zaitun dan campuran keduanya
"Telah dilakukan penelit'ian kemungkinan penggunaan
teknjk sterilisasj radiasi untuk vitamin A palmitat,minyak
zaitun dan campuran keduanya dengan cara mempela -
jar pengaruhiradiasi sinar gamma pada karakteristika
kimia dan fisika vitamin A palmitat, rninyak zaitun, dan
campuran keduanya dengan dosis radiasi 0, 10, 20,30 kGy
dan penyimpanan 0, 1, 2, 3 bulan. Parameter yang diuji
untuk minyak zaitun ialah kelarutan , bilangan asam,bilangan
penyabunan, bilangan iod, bobot jenis, indeka bi
as dan kestabilan 'metil asam lemak bebas dengan kroma -
tografi cairan-gas . Untuk vitamin A palmitat dilaku -
kan uji kestabilan kadar dengan kromatografi cairan
cairan
Hasil pengujian menunjukkan bahwa kadar vitamin
A palmitat , bilangan asam , bilangan penyabunan,bh1an
an lad dipengaruhi oleh dosis radiasi 10, 20, 30 kGy
Penyimpanan selama 1, 2, 3 bulan mempengaru.hi kadar vitamin
A palmitat, bilangan asam, bilangan penyabunan
bilangan iod dan indeks bias minyak zaitun ( p)o,05 )
The posibility of using radiosteri]4zation technic
for vitamine A palmitate, olive oil and mixture of both
by studying the effect of Gamma rays in chemical and
physical characteristics of vitamine A palmitate, olive
oil and their mixture with radiation dose ( 0, 10 , 20
30 ky ) 'and storage ( 0 9 1, 2, 3 months ). The parameter
tested for olive oil were solubility , acid - saponifica
tion - iod values , density, refraction index and stabi
lity of free fatty acid metil ester with Gas Liquid Chro
matography . Vitamine A palmitate assays was determined
using High Pressure Liquid Chromatography.
The results obtained suôh that the concentration
of vitamine palmitate , acid - saponification-jod values
weie affected by iradiation dose . (. 10, 20 , 30 kGy ).
Storage for. 1, 2 and 3 months influence the concentration
of vitamine A palmitate , acid-saponificatinn-iod values
and refraction index of olive oil. ( p )0.05 )"
Depok: Universitas Indonesia, 1985
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UI - Skripsi Membership  Universitas Indonesia Library
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Herlina Asnawi
Pengaruh iradiasi sinar gamma pada karakteristika kimia dan fisika vitamin D, minyak jagung dan campuran keduanya
"Telah dilakukan penelitian untuk mempelajari pengaruh
iradiasi sinar gamma pada karakteristika kimia dan fisika vitamin D, minyak jagung dan campuran keduanya dengan dosis radiasi 0,10,20 dan 30 kGy dan penyimpanan 0,1,2 dan 3 bulan. Penyimpanan untuk minyak jagung dilaksanakan pada suhu kamar (29 ± 2 0C), sedang untuk vitamin D dan campurannya disimpan ditempat yang sejuk (± 15°C).
Parameter yang diuji untuk minyak jagung meliputi bilangan asam, bilangan penyabunan, bilangan iod, bobot jenis, indeks bias, metil ester asam lemak dengan kromatografi Cairan-gas, kadar vitamin D . dengan spektrofotometer, titik lebur vitamin D dengan " Differential Thermal Analyzer " kestabilan vitamin D dan campurannya dengan kromatograf I cairan- cairan tekanan tinggi.
Hasil pengujian menunjukkan bahwa bilangan iod, bobot
jenis, indeks bias dan metil ester asazu lemak dan minyak jagung tidak dipengaruhi.dosis radiasi dan penyimpanan. Iradiasi sampai 30 kGy memberikan pengaruh terhadap bilangan asam minyak jagung dan menurunkan kestabilan camnpuran. Penyimpanan member ikan pengaruh terhadap b ilangan penyabunan dan bilangan asam minyak jagung. Titik lebur, kadar dan kestabilan vitamin D menurun karena iradiasi sampai 30kGy dan penyimpanan saiapai 3 bulan.
Studies on effect of irradiation by gamma rays on
chemical and physical characteristics of vitamine D, corn
oil and their mixture with radiation dose 0,10,20.and 30 kGy
respectively and storage for 0,1,2 and 3 months have been
done. Corn oil was stored at room temperature (29 ± 2°C)
while vitamine D and the mixture were in a cool place
(.± 15°C).
The parameter studied were acid value, saponification
value, iod value, 'density, refraction index, fatty acid metil
ester of corn oil with Gas Liquid Chromatography; vitamine
•D assays with Spectrophotometre; melting 'point of vitamine
D with Differential Thermal Analyzer where stability
of vitamine D and the mixture by High Pressure Liquid Chromatography.
The results obtained, didn't show any influence of
radiation dose and storage periode towards iod value, density,
refraction index and fatty acid meti1 ester of corn oil.
Irradiation dose up to 30 kGy affected the acid value of
corn oil and decreased the mixture stability, while storage
periode changed saponification and acid value of corn oil.
Irradiation dose up to 30 kGy and storage until 3 months reduced
melting point, stability and concentration of vitamine
D."
Depok: Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Indonesia, 1985
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UI - Skripsi Membership  Universitas Indonesia Library
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Marlina Harahap
Indikator sinar gamma menggunakan ekstrak brassica oleraceae = Gamma-ray indicator using brassica oleraceae extract
"ABSTRAK Radiasi sinar gamma dapat digunakan untuk pengawetan makanan, sterilisasi peralatan kesehatan, pemuliaan tanaman, dan hidrologi. Penggunaan sinar gamma memiliki risiko tinggi, sehingga diperlukan dosimeter. Indikator sinar gamma yang dibuat dari ekstrak Brassica oleraceae (B.o) mengandung antosianin yang sensitif terhadap pH, suhu, enzim, cahaya, dan sinar ultraviolet. Energi sinar gamma membuat degradasi warna ekstrak B. setelah divariasikan menjadi pH 2, pH 7, dan pH 9. Polivinil alkohol (PVA) digunakan sebagai matriks untuk meningkatkan sensitivitas indikator. Kertas Whatman dibuat menjadi matriks selain PVA. Indikator telah dibuat dari ekstrak B.o., campuran ekstrak B.o. dan PVA, plastik dari campuran ekstrak B., dan PVA, serta film kertas dari ekstrak B., dan kertas. Hasil karakterisasi menunjukkan sensitivitas yang berbeda ketika terkena sinar gamma hingga 40 kGy. Warna indikator memudar setelah disinari oleh sinar gamma. Pengaruh pH dan PVA pada ekstrak B. membuat respons yang berbeda dari masing-masing indikator. B. Respons indikator ekstrak pH 2-PVA memudar pertama setelah terkena dosis 25 kGy. Stabilitas warna semua indikator dalam kondisi penyimpanan yang berbeda dengan suhu, kelembaban dan pencahayaan menghasilkan indikator yang stabil dalam kondisi kritis dan suhu 5 ° C sementara indikator film berada dalam kondisi normal dan suhu kamar.
ABSTRACT Gamma ray radiation can be used for food preservation, sterilization of health equipment, plant breeding, and hydrology. The use of gamma rays has a high risk, so a radosimeter is needed. The gamma ray indicator made from Brassica oleraceae (B.o) extract contains anthocyanin which is sensitive to pH, temperature, enzymes, light, and ultraviolet light. Gamma ray energy makes the color degradation of extract B. after being varied to pH 2, pH 7, and pH 9. Polyvinyl alcohol (PVA) is used as a matrix to increase the sensitivity of the indicator. Whatman paper is made into a matrix other than PVA. Indicator has been made from extract B.o., mixture of extract B.o. and PVA, plastic from a mixture of B. extract, and PVA, as well as paper films from extract B., and paper. The characterization results show different sensitivity when exposed to gamma rays of up to 40 kGy. The indicator color fades after being illuminated by gamma rays. The effect of pH and PVA on extract B. makes a different response from each indicator. B. Response indicator extract 2-PVA pH fades first after being exposed to a dose of 25 kGy. The color stability of all indicators in different storage conditions with temperature, humidity and lighting produces a stable indicator in critical conditions and a temperature of 5 ° C while the film indicator is in normal condition and room temperature

 

Keywords: Indicator; gamma-ray; Brassica oleraceae; PVA

"
Depok: Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Indonesia, 2018
T52286
UI - Tesis Membership  Universitas Indonesia Library
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Nabila Prihandina Purwanto
Identifikasi sebaran reservoir menggunakan metode Probalistic Neural Network Pada lapangan 'OZ', cekungan Bonaparte = Identification of reservoir distribution using probabilistic neural method field network 'OZ', Bonaparte
"Potensi hidrokarbon di Lapangan 'OZ', Cekungan Bonaparte belum dimanfaatkan karena risiko pengeboran yang tinggi yang disebabkan oleh heterogenitas reservoir. Karena sifat reservoir yang heterogen, maka dilakukan identifikasi dan karakterisasi untuk melihat sebaran litologi dan fluida reservoirnya. Metode Probabilistic Neural Network (PNN) adalah metode utama dalam analisis multi-atribut untuk menemukan hubungan nonlinier antara data seismik dan data sumur di Lapangan 'OZ' dan kemudian menghasilkan model untuk distribusi data sinar gamma, porositas, dan saturasi air dengan nilai koefisien korelasi masing-masing pelatihan sebesar 0,8871, 0,9778, 0,9719 dan koefisien korelasi validasi sebesar 0,7836, 0,8554, 0,8187. Integrasi antara model distribusi data sinar gamma, porositas, saturasi air, ditambah dengan hasil inversi impedansi akustik (AI), dapat menjadi sarana untuk mengklasifikasikan dan mengidentifikasi distribusi reservoir hidrokarbon. Lapangan 'OZ' memiliki karakteristik reservoir yang mengandung gas hidrokarbon dan memiliki litologi batupasir bersih dengan sesar normal sebagai traps serta batupasir rapat dan batuan serpih sebagai seal yang tersebar di bagian Selatan dan Tengah lapangan OZ.
The hydrocarbon potential in the 'OZ' Field, Bonaparte Basin has not been exploited due to the high drilling risk caused by reservoir heterogeneity. Due to the heterogeneous nature of the reservoir, identification and characterization were carried out to see the distribution of lithology and reservoir fluids. The Probabilistic Neural Network (PNN) method is the main method in multi-attribute analysis to find a nonlinear relationship between seismic data and well data in the 'OZ' Field and then generate a model for the distribution of gamma ray, porosity, and water saturation data with the respective correlation coefficient values. -each training is 0.8871, 0.9778, 0.9719 and the validation correlation coefficient is 0.7836, 0.8554, 0.8187. The integration between the distribution model of gamma ray data, porosity, water saturation, coupled with the results of acoustic impedance inversion (AI), can be a means to classify and identify the distribution of hydrocarbon reservoirs. The 'OZ' field has reservoir characteristics containing hydrocarbon gas and has a clean sandstone lithology with normal faults as traps as well as dense sandstone and shale rock as seals which are scattered in the Southern and Central parts of the OZ field."
Depok: Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Indonesia, 2020
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UI - Skripsi Membership  Universitas Indonesia Library
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Pengaruh iradiasi sinar gamma terhadap pertumbuhan dan pembungaan stek pucuk krisan (chrysanthemum morifolium ramat) CV. Pink Fiji
AIDR 3(1-2)2007
Artikel Jurnal  Universitas Indonesia Library
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Identifikasi dan estimasi kadar mineralisasi uranium secara kuantitatif Berdasarkan Log Gross-Count Gamma Ray di Sektor Lemajung, Kalimantan Barat
"Sektor Lemajung, merupakan salah satu sektor potensial uranium di daerah Kalan, Kalimantan Barat. Mineralisasi uranium dijumpai pada batuan metalanau dan metapelit sekistosan, dengan arah umum mineralisasi timur-barat miring ± 700 ke utara sejajar dengan arah foliasinya (S1). Pemboran evaluasi telah dilaksanakan pada tahun 2013 di R-05 (LEML- 40), dengan total kedalaman 300 meter dan telah dilakukan logging dengan menggunakan gross-count gamma ray pada lubang bor tersebut. Tujuan dari kegiatan ini adalah menentukan kadar mineralisasi uranium dalam batuan secara kuantitatif dan mengetahui kondisi geologi di daerah sekitar pemboran. Metodologi penelitian meliputi penentuan nilai k-faktor, pemetaan geologi di sekitar lubang bor, penentuan ketebalan dan estimasi kadar mineralisasi uranium dengan gross-count gamma ray. Hasil estimasi kadar uranium dengan menggunakan log gross-count gamma ray dapat diketahui bahwa kadar eU3O8 pada lubang bor R-05 (LEML-40) tertinggi mencapai 0,7493 ≈ 6354 ppm eU dijumpai pada interval kedalaman 30,10 ? 34,96 m. Mineralisasi uranium hadir sebagai isian fraktur (urat) atau sebagai isian matrik breksi tektonik pada metalanau dengan ketebalan 0,1 ? 2,4 m berasosiasi dengan sulfida (pirit) dan dicirikan dengan rasio U/Th yang tinggi."
EKSPLOR 35 : 2 (2014)
Artikel Jurnal  Universitas Indonesia Library
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Anisa Nur Istiqomah
Rancang Bangun Real-Time Dosimeter Sinar Gamma Menggunakan Sensor Geiger Muller = Design of Real-Time Gamma Ray Dosimeter Using Geiger Muller Sensor
"Pemeriksaan di instalasi radiologi setiap tahun semakin bertambah jumlahnya yang menyebabkan meningkatnya resiko bahaya radiasi pada petugas yang bekerja di medan radiasi. Pemantauan dosis radiasi telah dilakukan pada setiap petugas menggunakan dosimeter analog akan tetapi alat yang digunakan hanya dapat dibaca dalam 3 bulan sekali dan memiliki efek fading atau hilangnya dosis selama pemakaian. Lamanya waktu pembacaan dosis pada alat dosimeter analog menyebabkan petugas tidak menerima hasil bacaan tepat waktu. Penelitian ini bertujuan untuk membuat dosimeter secara digital yang mampu menampilkan hasil secara real-time dan memiliki penyimpanan yang baik pada website berbasis internet of things. Penelitian dilakukan dengan menggunakan sensor Geiger Muller M4011, rangkaian tegangan tinggi 350-400 Volt DC, rangkaian pembaca sinyal dan mikrokontroler ESP32. Pengujian kemampuan alat dilakukan dengan cara memberikan radiasi gamma pada alat prototipe dan dibandingkan hasilnya dengan alat standar Fluke 481. Analisis data dilihat rata-rata tiap pengujian dan standar deviasinya. Uji statistik menggunakan aplikasi Graphad Prism 9 untuk menyajikan statistik deskriptif dan uji beda menggunakan Mann Whitney test. Hasil perakitan sensor Geiger Muller M4011 dihubungkan dengan rangkaian tegangan tinggi 400 Volt dan mikrokontroler NodeMCU ESP32 DevKit V1 berhasil dirancang. Hasil dosis radiasi yang telah diolah ditampilkan dalam display OLED 128×64 dan aplikasi ThingSpeak melalui jaringan Wi-Fi. Prototipe mampu menangkap radiasi dengan rata-rata dan standar deviasi 0,02±0,01, pada alat standar Fluke 481 yaitu 0,01±0,002 pada jarak 15cm, 0,01±0,01 dan 0,009±0,00 pada jarak 30cm dan 0,008±0,009 dan 0,009±0,00 pada jarak 45cm. Hasil uji beda menggunakan Mann Whitney test mendapat p-value 0,0015, >0,9999, dan 0,018. Perbaikan dimensi alat dan pemilihan jenis sensor dapat dilakukan meningkatkan kemampuan prototipe serta pengujian alat menggunakan sumber radioaktif berenergi besar atau menggunakan pesawat sinar-X untuk melihat kemampuan alat menangkap energi terendah dan tertinggi.
Examinations at radiology installations are increasing every year which causes an increased risk of radiation hazards for officers working in the radiation field. Radiation dose monitoring has been carried out for each officer using an analog dosimeter, but the tool used can only be read once every 3 months and has a fading effect or loss of dose during use. The length of time it takes to read the dose on the analog dosimeter device causes officers not to receive the readings on time. This study aims to create a digital dosimeter capable of displaying real-time results and having good storage based on internet of things (IoT). The research was conducted using the Geiger Muller M4011 sensor, a high voltage circuit of 350-400 Volt DC, a signal reader circuit and an ESP32 microcontroller. Testing the capability of the device is carried out by giving gamma radiation to the prototype and comparing the results with the standard Fluke 481. Data analysis looks at the average of each test and its standard deviation. The statistical test used the Graphpad Prism 9 application to present descriptive statistics and the different test used the Mann Whitney test. The results of the Geiger Muller M4011 sensor assembly connected to a 400 Volt high voltage circuit and the NodeMCU ESP32 DevKit V1 microcontroller were successfully designed. The processed dose results are displayed on a 128×64 OLED display and the ThingSpeak application via a Wi-Fi network. The prototype captured radiation with a mean and standard deviation of 0.02±0.01, on the standard Fluke 481 0.01±0.002 at 15cm distance, 0.01±0.01 and 0.009±0.00 at 30cm distance and 0.008±0.009 and 0.009±0.00 at a distance of 45cm. The different test results using the Mann Whitney test got p-values of 0.0015, >0.9999, and 0.018. Improvements to the dimensions of the tool and the selection of the type of sensor can be carried out to increase the ability of the prototype as well as testing the device using high-energy radioactive sources or using an X-ray machine to see the ability of the device to capture the lowest and highest energy."
Depok: Fakultas Teknik Universitas Indonesia, 2023
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UI - Tesis Membership  Universitas Indonesia Library
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Irawan Y. Tribuana
Optimization of measurement speed for spectral gamma ray and clay mineral identification / Irawan Y. Tribuana, Ade Yogi, Prabowo, Andy S. Wibowo, Puteri Sudija, Yudhi Durahman
"ABSTRACT
Gamma ray log is a logging tool to capture the radioactive level of a rock or formation measured in API units. This logging tool generally has a capability to differentiate between permeable and impermeable layers. Usually the impermeable layer tends to have higher radioactivity compared to the permeable one except for the feldspar bearing formation. In addition, another capability of this logging tool is ti determine the kind of clay mineral by using ratio data between Thorium and Potassium. This laboratory experiment uses Spectral Gamma Ray Equipment at LEMIGAS Routine Core Laboratory. The Quality of gamma ray log measurement is significantly affected by the speed of the conveyor belt. During the experiment, the measurement speed of 30 m/hour is the optimum speed to achieve good quality data and time efficiency with the data amount of 169 points/meter. The result of SGR measurement gives the reading on the content of Uranium, Thorium, and Potassium. The Thorium and Potassium content are compared and plotted in a Quirein graphic which was modified by Schlumberger in 1985. Using this crossplot, we can identify the presence of the Chlorite, Montmorillonite, Kaolinite, Illite, mixed with layer Feldspar, Mica, Glauconite minerals and so on. A case study conducted on Wells A1, A2, A3, and A4 indicated that the result of this crossplot was similar to the measurement using XRD."
Jakarta: LEMIGAS Research and Development Centre for Oil and Gas Technology Afilliation and Publication Division, 2015
620 SCI 38: 2 (2015)
Artikel Jurnal  Universitas Indonesia Library
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Aulia Nova Kusumaningtyas
Studi Pengaruh Iradiasi Sinar Gamma Terhadap Kualitas dan Aktivitas Antiinflamasi Ekstrak Etanol 70% Jahe Merah (Zingiber officinale Roscoe var. rubrum) = Study of the Irradiation Gamma Ray Effect on the Quality and Anti-Inflammatory Activity of 70% Ethanol Extract of Red Ginger (Zingiber officinale Roscoe var. rubrum)
"Jahe merah telah lama dimanfaatkan sebagai salah satu obat tradisional untuk mengurangi peradangan atau inflamasi. Namun, herbal rimpang seperti jahe merah dilaporkan mengandung cemaran mikroorganisme yang relatif tinggi. Sehingga diperlukan metode sterilisasi untuk mendekontaminasi cemaran mikroorganisme tersebut. Iradiasi gamma sering menjadi pilihan untuk dekontaminasi, tetapi belum diketahui dosis yang efektif membunuh mikroorganisme dan tidak mempengaruhi kadar senyawa bioaktif serta aktivitas biologis jahe merah. Penelitian ini bertujuan mengevaluasi pengaruh iradiasi gamma terhadap cemaran mikroorganisme, kadar senyawa 6-gingerol, 8-gingerol,10-gingerol, dan 6-shogaol serta aktivitas antiinflamasi ekstrak etanol 70% jahe merah. Serbuk rimpang jahe merah terlebih dahulu diekstraksi dengan metode maserasi menggunakan etanol 70% 1:5. Ekstrak jahe merah kemudian diiradiasi dengan dosis 0, 5, 7,5, 10, dan 15 kGy. Evaluasi cemaran mikroba angka lempeng total dan angka kapang khamir dilakukan dengan metode tuang. Evaluasi kadar bioaktif dianalisis dengan metode Kromatografi Cair Kinerja Tinggi. Aktivitas antiinflamasi diukur dengan metode penghambatan denaturasi protein BSA dengan spektrofotometer UV-Vis. Efektivitas iradiasi sinar gamma dalam menurunkan angka cemaran mikroorganisme meningkat seiring meningkatnya dosis iradiasi (p<0,05). Kadar bioaktif 6-gingerol menunjukkan kadar yang paling tinggi diantara tiga senyawa bioaktif lainnya. Namun, secara keseluruhan dosis iradiasi gamma yang diberikan tidak berpengaruh signifikan terhadap kandungan 6-gingerol,8-gingerol,10-gingerol dan 6-shogaol dalam ekstrak etanol 70% jahe merah (p>0,05). Aktivitas antiinflamasi ekstrak etanol 70% jahe merah juga tidak berbeda signifikan setelah di iradiasi dengan dosis 0-15 kGy (p>0,05).
Red ginger has long been used as a traditional medicine to reduce inflammation. However, rhizome herbs such as red ginger are reported to contain relatively high levels of contamination by microorganisms. So a sterilization method is needed to decontaminate the microorganisms. Gamma irradiation is often an option for decontamination, but it is not yet known which dose is effective in killing microorganisms and does not affect the levels of bioactive compounds or the biological activity of red ginger. This study aims to evaluate the effect of gamma irradiation on contamination of microorganisms, levels of compounds 6-gingerol, 8-gingerol, 10-gingerol, and 6-shogaol, and the anti-inflammatory activity of a 70% ethanol extract of red ginger. Red ginger rhizome powder was first extracted by the maceration method using 70% ethanol at 1:5. The red ginger extract was then irradiated at doses of 0, 5, 7.5, 10, and 15 kGy. The evaluation of microbial contamination of the total plate count and yeast mold count was carried out by the pouring method. The evaluation of bioactive levels was analyzed using the high-performance liquid chromatography method. Anti-inflammatory activity was measured by inhibiting BSA protein denaturation with a UV-Vis spectrophotometer. The effectiveness of gamma irradiation in reducing the number of microorganisms contaminating the environment increased with increasing irradiation dose (p 0.05). The level of bioactive 6-gingerol showed the highest level among the other three bioactive compounds. However, overall, the dose of gamma irradiation given had no significant effect on the content of 6-gingerol, 8-gingerol, 10-gingerol, and 6-shogaol in the 70% ethanol extract of red ginger (p > 0.05). The anti-inflammatory activity of the 70% ethanol extract of red ginger was also not significantly different after irradiation with dose 0-15 kGy (p > 0.05)."
Depok: Fakultas Farmasi Universitas Indonesia, 2023
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UI - Tesis Membership  Universitas Indonesia Library
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Andrian Danurwenda
Karakterisasi reservoar dan kandungan fluida menggunakan extended elastic impedance (EEI) dan analisis Avo: studi kasus reservoar batupasir berumur pliosen formasi Kampung Baru Cekungan Kutai = Reservoir characterization and fluid content using extended elastic impedance eei and avo analysis study case sandstone reservoir Kampung Baru formation Kutei basin
"[ABSTRAK
Lapangan AAA merupakan lapangan gas yang terdapat pada lingkungan Delta
Mahakam, Cekungan Kutai, Kalimantan Timur. Lapangan AAA merupakan bagian
dari lapangan gas dengan produksi terbesar di Indonesia yang telah dieksplorasi dan
diproduksi lebih dari 40 tahun. Salah satu tahapan penting setelah proses eksplorasi
adalah mengaplikasikan metode karakterisasi reservoar untuk pengembangan
lapangan. Karakterisasi reservoar dalam penentuan distribusi lithologi dan fluida
sangat penting dilakukan untuk mengetahui daerah berprospek ekonomis yang belum
ditembus oleh sumur produksi.
Pada penelitian ini karakterisasi reservoar yang digunakan adalah metode Analisa
AVO dan Extended Elastic Impedance (EEI). Analisis AVO mengunakan data prestack
3D gather dan bantuan velocity cube. Data DTS yang digunakan pada penelitian
ini terdapat pada sumur 3A45, 3A50, dan 3A45. Metode Extended Elastic Impedance
(EEI) dimulai dengan penentuan sudut Chi (X) pada nilai koeffisien korelasi yang
maksimum (mendekati nilai 1) dan analisis crossplot untuk menentukan nilai cut-off
indikator lithologi dan indikator fluida pada setiap parameter fisika dari data sumur.
Hasil analisis menyebutkan bahwa fluida pada daerah penelitian merupakan AVO
kelas III. Indikator lihtologi (reservoar dan non reservoar) dapat dipisahkan dengan
parameter Gamma Ray (reservoar bernilai 20 – 60 GAPI) dan Density (reservoar
bernilai 1.75 – 2.17 g/cc). Sedangkan indikator fluida (gas dan water) dapat
dipisahkan dengan parameter Lambda-Rho (gas bernilai 1.5 – 9 Gpa*g/cc), Lambda
per Mu (gas bernilai 0.5 – 2.5), Vp per Vs (gas bernilai 1.5 – 2.2), dan Poisson Ratio
(gas bernilai 0.16 – 0.35). Hasil inversi Extended Elastic Impedance (EEI) pada GTS
3A menyebutkan bahwa inversi Lambda-Rho mempunyai akurasi 78.57% (MFA) dan
85.71% (MFB), inversi Lambda per Mu mempunyai akurasi 50% (MFA) dan 85.71%
(MFB), inversi Vp per Vs mempunyai akurasi 71.42% (MFA) dan 71.42% (MFB),
Inversi Poisson Ratio mempunyai akurasi sebesar 71.42% (MFA) dan 78.57% (MFB).
ABSTRACT
AAA field is a gas field that located in Delta Mahakam environment, Kutei Basin,
East Kalimantan. AAA field is a part of giant gas field which has biggest production
in Indonesia already explored and produced almost over 40 years. One of important
steps after exploration of the field is to conduct a reservoir characterization for field
development. Reservoir characterization to determine lithology distribution and fluid
content is very important to know the prospect area which has economical values and
not penetrated yet by infill wells or production wells.
Reservoir characterization method that has been used in this study are AVO analysis
and Extended Elastic Impedance (EEI). Pre-stack 3D gather data and velocity cube
used for AVO analysis in this study. DTS logs only available in 3A45, 3A50, and
3A55. Extended Elastic Impedance method started with determination of Chi (X)
angle that has maximum correlation coefficient (near to 1 value) and cross-plot
analysis to determine cut-off value for lithology indicator and fluid indicator in each
well data parameter.
Analysis results show that fluid class in this study is AVO class III. Lithology
indicator (reservoir and non reservoir) can be separated by Gamma Ray (value of
reservoir between 20 – 60 GAPI) and Density (value of reservoir is between 1.75 –
2.17 g/cc). Fluid indicator (gas and water) can be separated by Lambda-Rho (value
of gas is between 1.5 – 9 Gpa*g/cc), Lambda per Mu (value of gas is between 0.5 –
2.5), Vp per Vs (value of gas is between 1.5 – 2.2), and Poisson Ratio (value of gas is
between 0.16 – 0.35). Results of Extended Elastic Impedance inversion in GTS 3A
show that Lambda-Rho inversion has 78.57% accuracy (in MFA) and 85.71%
accuracy (in MFB), Lambda per Mu inversion has 50% accuracy (in MFA) and
85.71% accuracy (in MFB), Vp per Vs inversion has 71.42% accuracy (in MFA) and
71.42% (in MFB), Poisson Ration has 71.42% accuracy (in MFA) and 78.57%
accuracy (in MFB).;AAA field is a gas field that located in Delta Mahakam environment, Kutei Basin,
East Kalimantan. AAA field is a part of giant gas field which has biggest production
in Indonesia already explored and produced almost over 40 years. One of important
steps after exploration of the field is to conduct a reservoir characterization for field
development. Reservoir characterization to determine lithology distribution and fluid
content is very important to know the prospect area which has economical values and
not penetrated yet by infill wells or production wells.
Reservoir characterization method that has been used in this study are AVO analysis
and Extended Elastic Impedance (EEI). Pre-stack 3D gather data and velocity cube
used for AVO analysis in this study. DTS logs only available in 3A45, 3A50, and
3A55. Extended Elastic Impedance method started with determination of Chi (X)
angle that has maximum correlation coefficient (near to 1 value) and cross-plot
analysis to determine cut-off value for lithology indicator and fluid indicator in each
well data parameter.
Analysis results show that fluid class in this study is AVO class III. Lithology
indicator (reservoir and non reservoir) can be separated by Gamma Ray (value of
reservoir between 20 – 60 GAPI) and Density (value of reservoir is between 1.75 –
2.17 g/cc). Fluid indicator (gas and water) can be separated by Lambda-Rho (value
of gas is between 1.5 – 9 Gpa*g/cc), Lambda per Mu (value of gas is between 0.5 –
2.5), Vp per Vs (value of gas is between 1.5 – 2.2), and Poisson Ratio (value of gas is
between 0.16 – 0.35). Results of Extended Elastic Impedance inversion in GTS 3A
show that Lambda-Rho inversion has 78.57% accuracy (in MFA) and 85.71%
accuracy (in MFB), Lambda per Mu inversion has 50% accuracy (in MFA) and
85.71% accuracy (in MFB), Vp per Vs inversion has 71.42% accuracy (in MFA) and
71.42% (in MFB), Poisson Ration has 71.42% accuracy (in MFA) and 78.57%
accuracy (in MFB)., AAA field is a gas field that located in Delta Mahakam environment, Kutei Basin,
East Kalimantan. AAA field is a part of giant gas field which has biggest production
in Indonesia already explored and produced almost over 40 years. One of important
steps after exploration of the field is to conduct a reservoir characterization for field
development. Reservoir characterization to determine lithology distribution and fluid
content is very important to know the prospect area which has economical values and
not penetrated yet by infill wells or production wells.
Reservoir characterization method that has been used in this study are AVO analysis
and Extended Elastic Impedance (EEI). Pre-stack 3D gather data and velocity cube
used for AVO analysis in this study. DTS logs only available in 3A45, 3A50, and
3A55. Extended Elastic Impedance method started with determination of Chi (X)
angle that has maximum correlation coefficient (near to 1 value) and cross-plot
analysis to determine cut-off value for lithology indicator and fluid indicator in each
well data parameter.
Analysis results show that fluid class in this study is AVO class III. Lithology
indicator (reservoir and non reservoir) can be separated by Gamma Ray (value of
reservoir between 20 – 60 GAPI) and Density (value of reservoir is between 1.75 –
2.17 g/cc). Fluid indicator (gas and water) can be separated by Lambda-Rho (value
of gas is between 1.5 – 9 Gpa*g/cc), Lambda per Mu (value of gas is between 0.5 –
2.5), Vp per Vs (value of gas is between 1.5 – 2.2), and Poisson Ratio (value of gas is
between 0.16 – 0.35). Results of Extended Elastic Impedance inversion in GTS 3A
show that Lambda-Rho inversion has 78.57% accuracy (in MFA) and 85.71%
accuracy (in MFB), Lambda per Mu inversion has 50% accuracy (in MFA) and
85.71% accuracy (in MFB), Vp per Vs inversion has 71.42% accuracy (in MFA) and
71.42% (in MFB), Poisson Ration has 71.42% accuracy (in MFA) and 78.57%
accuracy (in MFB).]"
2015
T44662
UI - Tesis Membership  Universitas Indonesia Library
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