14 research outputs found
Buku pintar wanita-wanita dalam al-Qur'an: cahaya surga bagi para wanita
Buku Pintar Wanita-Wanita dalam Al-Qur'an. Penyejuk bagi jiwa-jiwa yang dahaga, penebar benih kasih peneguh jiwa, dan penawar kemelut hati yang tersakti. Dilengkapi dengan kisah-kisah inspiratif wanita kesayangan Allah, motivator bagi pejuang-pejuang wanita yang tengah lelah mendaki curamnya problema kehidupan.Asiyah yang hatinya diselimuti kesabaran, yang sangat kokoh meski badai menerpa bahtera rumah tangganya. Khadijah, seorang pengusaha wanita sukses yang sangat dicintai oleh suami terkasihnya Rasulullah, karena kesetiaannya. Aisyah Istri tercinta Rasulullah yang sangat cerdas dan dermawan laksana lentera penerang di tengah gelapnya ketidaktahuan
The Existing Policy on Prostitution in Indonesia: a Retrospective Evaluation
This paper presents the policy on prostitution existing in the last ten years of the period of the New Order Regime. By using qualitative analysis, in the frame of rationality and coherence, author describes of the policy on prostitution and its results. The practice that was done by the government to tackle the prostitutes tended to be unjust, while the implication of the Indonesian Criminal Codeas the one of the national law saved a discrimination. The spirit of the law saved a moral weakness to endorse the creation of good life for Indonesian having the way of life Pancasila. Linked to the policy, the government tended frontally to tackle the prostitutes. As the policy made by the government was based on unhistorical and unsubstantial views, the governmental intervention to them has been more bringing problems than solutions. The inconsistency of the local governtments in managing the localization of prostitutes has compounded the problem. The governmental policy could not grasp the goals: rehabilitation and resosialization. The policy has empowered the institutionalization of prostitution and pimps. The government has been tacitly the institution of serving pimps
Terosbosan Pembelajaran Berkelanjutan : Keterampilan Wiraswasta
- Pembelajaran berkelanjutan adalah suatu pengelolaan pengetahuan (knowledge management) berbasis pada SECI Model.- SECI Model adalah suatu proses perwujudan gagasan (explicit knowledge) berdasarkan suatu inovasi dari suatu gagasan (tacit knowledge) yang dikembangkan oleh Prof. Ikujiro Nonaka.- Perwujudan gagasan (explicit knowledge) adalah suatu mekanisme pembelajaran berkelanjutan.- Praktik perwujudan pembelajaran berkelanjutan merupakan wahana pembelajaran yang efektif dan efisien untuk bidang pendidikan, korporasi, dan pemerintahan.- Praktik perwujudan gagasan ini secara berkesinambungan direalisasikan pada suatu pembentukan budaya kerja berbasis kewiraswastaan.- Praktik perwujudannya berupa pengetahuan (cognition), perilaku (affection), dan keterampilan (skill) berbasis kewiraswastaan yang dilakukan secara individum kelompok, dan organisasi.267 hlm,; 14 x 20.5 c
Terosbosan Pembelajaran Berkelanjutan : Pengetahuan Wiraswasta
- Pembelajaran berkelanjutan adalah suatu pengelolaan pengetahuan (knowledge management) berbasis pada SECI Model.- SECI Model adalah suatu proses perwujudan gagasan (explicit knowledge) berdasarkan suatu inovasi dari suatu gagasan (tacit knowledge) yang dikembangkan oleh Prof. Ikujiro Nonaka.- Perwujudan gagasan (explicit knowledge) adalah suatu mekanisme pembelajaran berkelanjutan.- Praktik perwujudan pembelajaran berkelanjutan merupakan wahana pembelajaran yang efektif dan efisien untuk bidang pendidikan, korporasi, dan pemerintahan.- Praktik perwujudan gagasan ini secara berkesinambungan direalisasikan pada suatu pembentukan budaya kerja berbasis kewiraswastaan.- Praktik perwujudannya berupa pengetahuan (cognition), perilaku (affection), dan keterampilan (skill) berbasis kewiraswastaan yang dilakukan secara individum kelompok, dan organisasi.303 hlm,; 14 x 20.5 c
THE LEGAL RECONSTRUCTION OF STATE CIVIL APPARATUS (ASN) IN REGULATING ASN PERFORMANCE IN THE ERA OF GLOBALIZATION
The era of globalization requires State Civil Apparatus (ASN) to understand information technology in carrying out public services. Until the discourse of Work From Anywhere (WFA) emerged as a form of changing the pattern of e-government performance to establish good governance. For this reason, a legal reconstruction of the ASN is needed so that it does not violate the merit system in the ASN Law. However, significant changes and training are needed in all respects to make this happen. By using normative juridical methods and secondary data, the author considers that it is necessary to analyze the reconstruction of ASN Law in regulating ASN performance in the Globalization Era and how the mechanism for changing digital-based performance patterns is. The result of this article is legal reconstruction is needed in ASN regulations and the discourse on implementing WFA for ASN can actually be carried out with a merit system mechanism that fulfills five performance indicators namely, productivity, service quality, responsiveness, responsibility and accountability well
Advanced low-thermal fortification strategy for dill juice: Enhanced bioaccessibility and functional properties through MLP-RSM optimization
In this study, a combination of ultrasound and microwave technologies (USMW) was applied to increase the functional properties of Anethum graveolens L. (dill) juice and the obtained samples were comprehensively evaluated in terms of biofunctionality. Total phenolic content (TPC), β-carotene, total chlorophyll, antioxidant capacity (FRAP) and antidiabetic enzyme inhibition (α-glucosidase, α-amylase) were determined. The optimum process parameters were successfully estimated by Response Surface Methodology (RSM) and Multilayer Perceptron (MLP) models. USMW process increased the extraction of phenolic compounds and carotenoids, providing significant increases in TPC (126.08 mg GAE/100 mL), β-carotene (42.82 mg/100 mL) and chlorophyll (4.42 g/100 mL) levels (*p < 0.05). In the simulated post-digestion bioavailability assessments, the ultrasound and microwave (DJ-USMW) group showed the highest recovery rates. In addition, potential antidiabetic effects were confirmed by the inhibition of α-glucosidase (61.65%) and α-amylase (53.11%). PCA and clustering analyses showed that USMW application significantly separated the samples. The obtained results demonstrate that USMW technology is a sustainable and effective method, especially for the development of functional beverages, as an alternative to traditional heat treatments.The author(s) declare that financial support was received for the research and/or publication of this article. This research was funded by Princess Nourah bint Abdulrahman University Researchers Supporting Project Number (PNURSP2025R251), and by Ongoing Research Funding program (ORF-2025-1074), King Saud University, Riyadh, Saudi Arabia.
Yazar(lar), bu araştırma ve/veya makalenin yayımlanması için mali destek aldıklarını beyan etmektedir.
Bu araştırma, Prenses Nourah bint Abdulrahman Üniversitesi Araştırmacıları Destekleme Projesi (Proje Numarası: PNURSP2025R251) ve Süregelen Araştırma Fonlama Programı (ORF-2025-1074), Kral Suud Üniversitesi, Riyad, Suudi Arabistan tarafından finanse edilmiştir.
Research Funding program (ORF-2025-1074), King Saud University, Riyadh, Saudi Arabia.
Araştırma Fonlama programı (ORF-2025-1074), Kral Suud Üniversitesi, Riyad, Suudi Arabistan
Design Study of Full Scale Accelerator Driven System (ADS), for Transmuting High Level Waste of MA/Pu
The ADS system used in this study consisting of a high intensity proton linear accelerator, a spallation target, and a sub-critical reactor core. The Pb-Bi spallation target is bombarded by high intensity protons coming from the accelerator. The fast neutrons generated from the spallation reaction were used to drive the sub-critical reactor core. In this ADS system, the neutron source is in the center of reactor core region, so that the neutron distribution was concentrated in the center of core region. In this case, the B/T of MA/Pu could be performed effectively in the center of core region. The neutron energy in the outer region of reactor core was decreased due to the moderation of fuel and coolant materials. Such condition gives a chance to perform Burning and/or Transmutation of LLFPs.The basic parameters of this system are shown in the form of neutronic design, neutron spectrum and B/T rate, including other aspects related to the safety operation system. Furthermore, the analysis of the ADS system was accomplished using ATRAS computer code of the Japan Atomic Energy Research Institute, JAERI[1]. Due to the complexity of the reactor calculation codes, the author has carried out only those calculations needed for analyzing the neutronics system and some parameters related to the safety system. Design study of the transmutation system was a full-scale power level system of 657.53 MWt sub-critical reactor for an accelerator-driven transmutation system. The liquid Pb-Bi was used together as the spallation target materials and coolant of the system, because of some advantages of Pb-Bi in the system concerning the comparison with the sodium coolant. Moreover, they have a possibility to achieve a hard neutron energy spectrum, avoid a positive void reactivity coefficient, allow much lower system operating temperatures, and are favorable for safety in the event of coolant leakage. The multiplication factor of sub-critical core design was adjusted exclusively through the high intensity protons beam accelerator at the spallation target. The fuel was assumed to have homogeneous compositions in the form of (MA-Pu) ZrN mixture with 15N enriched. The compositions of Pu and MA were the same with the compositions of UO2 fuel from 33-GWd/t burn-up in PWRs spent fuel after 5 year cooling. The results have been compared with the spent fuel composition from 45 and 60 GWd/t burn-up in PWRs at the same cooling time. The calculation of the burn-up step was 730 days per one batch reloading by using 4-regions core calculation model. The specific parameters of ADS system used in the calculation are described in Table1
Design Study of Full Scale Accelerator Driven System (ADS), for Transmuting High Level Waste of MA/Pu
The ADS system used in this study consisting of a high intensity proton linear accelerator, a spallation target, and a sub-critical reactor core. The Pb-Bi spallation target is bombarded by high intensity protons coming from the accelerator. The fast neutrons generated from the spallation reaction were used to drive the sub-critical reactor core. In this ADS system, the neutron source is in the center of reactor core region, so that the neutron distribution was concentrated in the center of core region. In this case, the B/T of MA/Pu could be performed effectively in the center of core region. The neutron energy in the outer region of reactor core was decreased due to the moderation of fuel and coolant materials. Such condition gives a chance to perform Burning and/or Transmutation of LLFPs.The basic parameters of this system are shown in the form of neutronic design, neutron spectrum and B/T rate, including other aspects related to the safety operation system. Furthermore, the analysis of the ADS system was accomplished using ATRAS computer code of the Japan Atomic Energy Research Institute, JAERI[1]. Due to the complexity of the reactor calculation codes, the author has carried out only those calculations needed for analyzing the neutronics system and some parameters related to the safety system. Design study of the transmutation system was a full-scale power level system of 657.53 MWt sub-critical reactor for an accelerator-driven transmutation system. The liquid Pb-Bi was used together as the spallation target materials and coolant of the system, because of some advantages of Pb-Bi in the system concerning the comparison with the sodium coolant. Moreover, they have a possibility to achieve a hard neutron energy spectrum, avoid a positive void reactivity coefficient, allow much lower system operating temperatures, and are favorable for safety in the event of coolant leakage. The multiplication factor of sub-critical core design was adjusted exclusively through the high intensity protons beam accelerator at the spallation target. The fuel was assumed to have homogeneous compositions in the form of (MA-Pu) ZrN mixture with 15N enriched. The compositions of Pu and MA were the same with the compositions of UO2 fuel from 33-GWd/t burn-up in PWRs spent fuel after 5 year cooling. The results have been compared with the spent fuel composition from 45 and 60 GWd/t burn-up in PWRs at the same cooling time. The calculation of the burn-up step was 730 days per one batch reloading by using 4-regions core calculation model. The specific parameters of ADS system used in the calculation are described in Table1
Thermosonication-assisted fortification of kiwi juice with bee bread: Enhancing nutritional and functional properties through ANFIS-RSM optimization
This study investigated the effects of thermosonication on the preservation and enhancement of bioactive components in kiwi juice fortified with bee bread. Response Surface Methodology (RSM) and Adaptive Neuro-Fuzzy Inference System (ANFIS) were employed to optimize processing parameters by evaluating FRAP, total phenolics, total chlorophyll, and ascorbic acid levels. Thermosonication significantly enhanced the levels of phenolic compounds (127.97 GAE mg/100 mL) and ascorbic acid (14.89 mg/100 mL), while a reduction in chlorophyll content was observed. The ANFIS model provided more accurate predictions compared to RSM, particularly under optimal processing conditions. Additionally, the thermosonication-treated kiwi juice with bee bread (TS-KJB) exhibited the highest antioxidant capacity, total flavonoid, and dietary fiber content. The findings demonstrate that thermosonication is an effective and sustainable technique for improving the functional and nutritional properties of bee bread-fortified kiwi juice. This approach offers a promising alternative for the production of additive- and preservative-free functional fruit juices.The author(s) declare that financial support was received for the research and/or publication of this article. This research was funded by Princess Nourah Bint Abdulrahman University Researchers Supporting Project Number (PNURSP2025R251), and by Ongoing Research Funding program (ORF-2025-1074), King Saud University, Riyadh, Saudi Arabia.
Yazar(lar), bu makalenin araştırılması ve/veya yayınlanması için finansal destek aldıklarını beyan eder. Bu araştırma, Prenses Nourah Bint Abdulrahman Üniversitesi Araştırmacıları Destekleyici Proje Numarası (PNURSP2025R251) ve Devam Eden Araştırma Fonu programı (ORF-2025-1074) tarafından, Kral Suud Üniversitesi, Riyad, Suudi Arabistan tarafından finanse edilmiştir
