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( Kurniawan Kurniawan ),( Sookyung Kim ),( Jae-chun Lee ) 한국폐기물자원순환학회 2022 ISSE 초록집 Vol.2022 No.-
Waste printed circuit boards (WPCBs) are considered a fairly good quality secondary resource for various critical/strategic, and high-value metals, including precious metals (Au, Ag, Pt, Pd), rare and rare earth metals (Sc, Y, La, Ce), base metals (Cu, Ni, Sn, Pb, Al), etc. Therefore, recovering these metals from WPCBs can be a part of efforts to ensure their sustainable supply in the future. However, the recovery process faces challenges due to the presence of organic substrates chelated to the metals. This study proposed pyrolysis and mechanical-physical separation to recover the valuable metals from WPCBs. Firstly the WPCBs were treated by pyrolysis to not only decompose the organic, but also ease the separation of organic substrates with that of metal sheets. The results of metal analysis showed no loss of metals during the pyrolysis step, which is important for the recovery process. The suitable pyrolysis parameters considered were 500 °C temperature, 20 °C/min heating rate, 0.3 L/min N2 flow rate, and 10 min holding time. The solid char products so obtained were subjected to mechanical process particularly the sieving at three different sizes (+4.75 mm, +0.5 mm, and -0.5 mm). Most of the metals were concentrated and present in +4.75 and +0.5 mm samples, and consequently, they were recovered by the magnetic- and electrostatic separation processes. In the case of the -0.5 mm sample, the metals were separated by a simple float-sink method. This study contributed to efficiently recycle the valuable metals by applying a suitable hydrometallurgical process from the concentrated fractions generated as above while treating the WPCBs.
Current status of the recycling of e-waste in Indonesia
Kurniawan Kurniawan,Soefihara Muhammad Dzikri Ahira,Nababan Deddy Chandra,Kim Sookyung 한국자원공학회 2022 Geosystem engineering Vol.25 No.3
Electronic waste (e-waste) has become a major economic and environmental concern. It requires the development of sustainable and integrated recycling systems capable of recovering valuable constituents while simultaneously protecting the environment. While many developed countries have established such recycling systems, most developing countries, including Indonesia, lack such systems and have a low level of public awareness about e-waste. This article focuses on the current state of e-waste recycling in Indonesia. The estimated amount of e-waste generation and distribution in the country, potential economic recovery, relevant legal frameworks, and recycling practices are presented. The review also highlights barriers to formal e-waste management and recycling in Indonesia, such as (i) superiority of the informal sector, (ii) lack of regulation and infrastructure, (iii) lack of awareness and reliable data about e-waste, (iv) low rate of research works on recycling technology development, and (v) large diversity of socio-economic and geographic conditions in Indonesia. The study suggests strategies for establishing a sustainable e-waste recycling system in Indonesia, including potential processing routes and scenarios that integrate the actors involved in e-waste collection, pretreatment, and metal extraction.
Kurniawan Febri Yuda,Putri Saifa Usni,Linggabuwana Aviesta,Lawrie Muhammad Dylan,Purwantoro Aziz,Semiarti Endang 한국원예학회 2024 Horticulture, Environment, and Biotechnology Vol.65 No.1
Phalaenopsis ‘Sogo Vivien’ is a hybrid orchid that can produce a mutant with foliar variegation. Variegation can be divided into structural-type and pigment-type variegation. Foliar variegation was mostly caused by mutations in plastid genes. Even though there are various studies on foliar variegation in other plants, studies on foliar variegation in orchids are quite limited. This study aimed to determine the variegated leaf phenotype characteristics and their cause in P . ‘Sogo Vivien’. This study observed the anatomy of variegated leaves by comparing the green and white parts of the leaf, measured the concentration of chlorophyll pigments, and detected leaf starch content between both parts. In addition, polymorphism analysis was also performed on the VAR2 gene partial sequences. Based on leaf anatomy structure, the diff erence between variegated zones is only in the number of chloroplasts, the diameter of parenchyma cells, and chloroplasts. The chloroplast diameter within the white part is smaller than the green part. The chloroplasts’ diameters in the green part are two times larger than the white part, with four times more in amount. The two parts were formed due to diff erences in the distribution pattern of functional chloroplasts in the leaves. The concentration of chlorophyll in the green part is higher than in the white part, a characteristic of the chlorophyll-type variegation. The green parts have more starch grains than the white parts. Stomata distance between variegated zones on the abaxial side is diff erent, and it was suggested as a distinctive character between variegated zones. A thymine insertion in exon 1 contributed to nonsense and missense mutations on the VAR2 gene isolated from the white part. This mutation caused the amino acid motif to change from KAKFQ to KA—Q. This mutation is suggested to cause the variegated leaf phenomenon in P . ‘Sogo Vivien’.
Kurniawan, Rendi,Thirumalai Kumaran, S.,Arumuga Prabu, V.,Zhen, Yu,Park, Ki Moon,Kwak, Ye In,Mofizul Islam, Md.,Ko, Tae Jo Elsevier 2017 MEASUREMENT -LONDON- Vol.110 No.-
<P><B>Abstract</B></P> <P>An ultrasonic assisted dry electrical discharge machining (US-EDM) process in a gaseous fluid medium was proposed to remove the burrs formed on the exit region of a drilled hole. In preliminary experiment, three different electrode tools (copper, brass, and aluminum) were utilized. In secondary experiment, US-EDM and dry-EDM were compared and performed using the copper tool. US-EDM parameters, such as capacitance (C), pulse-on time (T<SUB>ON</SUB>), and vibration amplitude (A<SUB>p-p</SUB>) were considered as functions of the predicted burr removal rates (BRRs) model. Based on signal to noise (S/N) ratio analysis, machining parameters C=10<SUP>−2</SUP> µF, T<SUB>ON</SUB> =150µs, and A<SUB>p-p</SUB> =4.919µm provided the optimal BRR. The BRR was affected the most by capacitance, followed by pulse-on time and ultrasonic vibration amplitude. The copper tool provided a higher BRR than other tools. US-EDM is considerably effective when T<SUB>ON</SUB> is low and the performance of US-EDM is better than that of Dry-EDM. Scanning electron microscopy (SEM) analysis showed that the US-EDM method created a heat-affected zone surrounding the machined surface of the deburred exit hole in range of 200µm–500µm.</P> <P><B>Highlights</B></P> <P> <UL> <LI> The novelty of a burr removal rate (BRR) model was proposed and validated in this study. </LI> <LI> The influence of the US-EDM process parameters on the BRR value was studied. </LI> <LI> The relationship between the input and output processes was evaluated statistically. </LI> <LI> The optimal machining parameter for the BRR value was validated. </LI> <LI> The comparison between US-EDM and Dry-EDM process was evaluated. </LI> </UL> </P> <P><B>Graphical abstract</B></P> <P>[DISPLAY OMISSION]</P>
Kurniawan Candra,Djuhana Dede,Soegijono Bambang,Kim Dong-Hyun 한국물리학회 2021 Current Applied Physics Vol.27 No.-
We report our micromagnetic simulations based on Landau-Lifshitz-Gilbert (LLG) equation for CoFeB nanowire which was exposed by sub-nanosecond magnetic pulse with varied pulse width between 100 and 1000 ps. It is found that the Walker Breakdown field (HWB) shifted as the field pulse duration decreased and reached at the highest value in case of 100 ps pulse width, then decreased steeply with respect to the pulse width up to 400 ps. HWB values are not significantly dependent for pulses longer than 500 ps. It is observed that, below the HWB, the exchange energy is larger than the demagnetization energy in the wider nanowire. By energy density analysis, it is understood that the increase of HWB values in the cases of narrower pulse width was to compensate the energy needed to move the DW.
Kurniawan, Fachrul,Haviluddin, Haviluddin,Collantes, Leonel Hernandez,Nugroho, Supeno Mardi Susiki,Hariadi, Mochamad International Journal of Computer ScienceNetwork S 2022 International journal of computer science and netw Vol.22 No.7
Continuous development is the key of development issue in developing nations. Smart city measurement is prevalently carried through in the cities in which the nations have been classified as industrialized countries. In addition, cities in Europe becomes the models of smart city system. Smart city concept used in the cities in Europe applies six predominant features i.e. smart economic, smart mobility, smart environment, smart people, smart living, and smart governance. This paper focuses on figuring out city' development strategy in developing nations particularly Indonesia in regard with European Framework by way of Multi Expert Multi Criterion Decision Making (ME-MCDM). Recommendation is resulted from the tests using the data collected from one of the metropolis cities in Indonesia, whereby issuing recommendation must firstly implement smart education, secondly communication, thirdly smart government, and fourthly smart health, as well as simultaneously implement smart energy and smart mobility.