• Title/Summary/Keyword: palm kernel oil

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Assessment of The Biomass Potential Recovered from Oil Palm Plantation and Crude Palm Oil Production in Indonesia (인도네시아 오일 팜 바이오매스 잠재량 평가)

  • Ahn, Byoung-Jun;Han, Gyu-Seoung;Choi, Don-Ha;Cho, Sung-Taig;Lee, Soo-Min
    • Journal of the Korean Wood Science and Technology
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    • v.42 no.3
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    • pp.231-243
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    • 2014
  • In this study, the potential of biomass, which is generated from oil palm cultivation and crude palm oil (CPO) production of Indonesia was assessed in the aspect of energy content. The types of oil palm biomass were classified on the basis of the cultivation stage and the CPO production stage. In the cultivation stage, biomass is considered to be produced from its' root, trunk and frond. Other possible biomass resources such as empty fruit bunch (EFB), palm kernel shell (PKS) and fiber were included in the CPO production stage. As results, total biomass from damaged plantation area of Indonesia was estimated to be annually from 3 million to 16 million tons in 2011. From CPO mills, approximately 49 million tons/yr of biomass residues were estimated to be annually occurred. Their total energy content from each biomass source in cultivation stage was analyzed to be from 593,000 to 3,197,000 TOEs in terms of gross calorific value. In the case of CPO mills, around 22.7 million TOEs was estimated to be potential energy producible by biomass based on gross calorific value of dry basis. If moisture content considered, net calorific value was analyzed to be decreased to 16.3 million TOEs. Based on the results, the total energy contents of all oil palm biomass were estimated to be up to 25,919,000 TOE in terms of gross calorific value. CPO : Crude Palm Oil, EFB : Empty Fruit Bunch, FFB: Fresh Fruit Bunch, PKS : Palm Kernel Shell, OPF : Oil Palm Frond, PKOC : Palm Kernel Oil Cake, ISPO : Indonesia Sustainable Palm Oil Commission, TOE : Tone of Oil Equivalent.

Value of palm kernel co-products in swine diets

  • Kim, Sheena;Kim, Byeonghyeon;Kim, Younghoon;Jung, Samooel;Kim, Younghwa;Park, Juncheol;Song, Minho;Oh, Sangnam
    • Korean Journal of Agricultural Science
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    • v.43 no.5
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    • pp.761-768
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    • 2016
  • Recently, swine production costs have increased due to increased feed cost, especially the price of corn and soybean meals. Soybean meal is traditionally an expensive ingredient, but the price of corn has dramatically increased because of increased biofuel production. This change has resulted in the swine industry looking for alternatives in order to reduce feed cost, resulting in decreased production costs. Thus, various alternatives have been used as feed ingredients to replace corn, soybean meal, or other expensive ingredients. One othercandidate may be palm kernel co-products that are a by-product of oil extraction from palm fruits. Palm kernel co-products have not been used in swine diets due to high fiber content and imbalanced amino acids compared with corn and soybean meal. However, recent studies showed that palm kernel co-products did not have any negative effects on growth performance of pigs when they replaced some proportions of corn and soybean meal. In addition, palm kernel co-products may provide some physiological properties to pigs by modifying gut microbiota and/or immunity of pigs, resulting in improvement of growth and health of pigs. Therefore, the value of palm kernel co-products were reviewed as one of the alternatives for corn, soybean meal, or other major ingredients in swine diets.

Study on free and bond glycerines in Biodiesel from PKO(Palm Kernel Oil) and coconut oil (PKO 및 코코넛유래 바이오디젤 중 글리세린함량 분석 방법 개선 연구)

  • Lee, Don-Min;Park, Chun-Kyu;Ha, Jong-Han;Lee, Bong-Hee
    • Journal of the Korean Applied Science and Technology
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    • v.32 no.2
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    • pp.348-361
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    • 2015
  • To reduce the effects of greenhouse gas (GHG) emissions, the government has announced the special platform of technologies as parts of an effort to minimize global climate change, and the government distributed biodiesel since 2006 as the further efforts. Although there are some debates about some quality specifications and unbalanced of source (44% from palm oil), more than 400kton/year of biodiesel was produced in 2013. Moreover the amounts will be increased when the RFS is activated. To solve the unbalanced situation and to achieve the diversity of feeds, it is essential that many researches should be considered. Especially, free and bond glycerines are one of the important properties seriously affected to the combustion system in vehicle & cold properties. Previous method (KS M 2412) couldn't cover the biodiesel derived from lauric oil($C_{12:0}$) such as PKO (Palm Kernel Oil), Coconut oil because those compositions are lighter than other conventional biodiesel sources. In this study, we review the existed method and figure out the factors should improve to analysis the glycerine from PKO and Coconut oil biodiesel. Modifying the analysis conditions to enhance the resolution and change the internal standards to avoid the overlapped- peaks between Capric acid ME ($C_{10:0}$) and standard#1(1,2,4-butantriol). From this revised method, we could solve the restrictions of previous methods. And check the possibility of new method to analyze the glycerine in biodiesel regardless of sources.

Effects of Dietary Inclusion of Palm Kernel Cake and Palm Oil, and Enzyme Supplementation on Performance of Laying Hens

  • Chong, C.H.;Zulkifli, I.;Blair, R.
    • Asian-Australasian Journal of Animal Sciences
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    • v.21 no.7
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    • pp.1053-1058
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    • 2008
  • A total of 392 twenty eight week-old laying hens was used to study the effects of dietary inclusion of solvent-extracted palm kernel cake (PKC) (0%, 12.5% and 25%) and enzyme (mixture of mannanase, ${\alpha}$-galactosidase and protease) supplementation (0 kg/t, 1 kg/t and 2 kg/t) on the performance of laying hens. The levels of PKC did not significantly influence nitrogen corrected true metabolizable energy (TMEn) of the diets. Enzyme-supplemented PKC had significantly higher AME and TMEn values than PKC diets with no enzyme supplementation. Dietary inclusion of 12.5% and 25% PKC in the diets of laying hens did not adversely affect mean egg production or daily egg mass. However, layers consumed significantly more PKC-based diets and had significantly poorer feed conversion ratios (FCR) than controls. However, the feed intake and FCR of hens provided the 12.5% PKC-based diets with enzyme supplementation at 1 kg/t did not differ from the controls. Dietary inclusion of PKC or enzyme did not affect eggshell quality, but egg yolk colour was significantly paler when layers were fed the 25% PKC diet.

Morphogenetic Behavior of Tropical Marine Yeast Yarrowia lipolytica in Response to Hydrophobic Substrates

  • Zinjarde, Smita S.;Kale, Bhagyashree V.;Vishwasrao, Paresh V.;Kumar, Ameeta R.
    • Journal of Microbiology and Biotechnology
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    • v.18 no.9
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    • pp.1522-1528
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    • 2008
  • The morphogenetic behavior of a tropical marine Yarrowia lipolytica strain on hydrophobic substrates was studied. Media containing coconut oil or palm kernel oil (rich in lauric and myristic acids) prepared in distilled water or seawater at a neutral pH supported 95% of the cells to undergo a transition from the yeast form to the mycelium form. With potassium laurate, 51 % of the cells were in the mycelium form, whereas with myristate, 32% were in the mycelium form. However, combinations of these two fatty acids in proportions that are present in coconut oil or palm kernel oil enhanced the mycelium formation to 65%. The culture also produced extracellular lipases during the morphogenetic change. The yeast cells were found to attach to the large droplets of the hydrophobic substrates during the transition, while the mycelia were associated with the aqueous phase. The alkane-grown yeast partitioned more efficiently in the hydrophobic phases when compared with the coconut oil-grown mycelia. A fatty acid analysis of the mycelial form revealed the presence of lauric acid in addition to the long-chain saturated and unsaturated fatty acids observed in the yeast form. The mycelia underwent a rapid transition to the yeast form with n-dodecane, a medium-chain aliphatic hydrocarbon. Thus, the fungus displayed a differential behavior towards the two types of saturated hydrophobic substrates.

Effects of Palm Kernel Cake on Performance and Blood Lipids in Rats

  • Loh, T.C.;Foo, H.L.;Tan, B.K.;Jelan, Z.A.
    • Asian-Australasian Journal of Animal Sciences
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    • v.15 no.8
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    • pp.1165-1169
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    • 2002
  • Palm kernel cake (PKC), a by-product of oil palm seeds after extraction of their oil. The aim of this study was to investigate the effects of different levels of PKC on growth performance and blood lipids in rats. A total of 64 Sprague-Dawley (8 weeks of age) male rats were assigned individually to four treatments with different levels of PKC in the diet: 0, 15, 20 and 25%. No differences (p<0.05) were found in daily feed intake (6-8 g/day), body weight, growth rate and epididymal fat weight for all the dietary groups. Plasma protein and very low density lipoprotein (VLDL) triacylglycerol (TG) were higher (p<0.05) for 20% PKC fed rats than the control rats. Conversely, the plasma cholesterol and TG and VLDL-phospholipid (PL) concentrations of the control rats were higher (p<0.05) than those of PKC fed rats. The VLDL-protein, total cholesterol, free cholesterol (FC) and cholesteryl ester (CE) were not significantly different (p>0.05) among the treatment groups. Rats fed PKC had greater (p<0.05) ratios of total surface to core lipid components [(FC+PL)/(CE+TG)] than control rats. The results reflect dissimilarities of VLDL particle size between PKC treatment and control rats, where the plasma of the PKC treated rats contained more lipid rich VLDL. In conclusion, there was no adverse effect on growth performance when inclusion of PKC up to 25%. However, fibre content may affect the plasma lipid concentrations.

Characterization of a Tacky Poly(3-Hydroxyalkanoate) Produced by Pseudomonas chlororaphis HS21 from Palm Kernel Oil

  • YUN, HYE SUN;DO YOUNG KIM;CHUNG WOOK CHUNG;HYUNG WOO KIM;YOUNG KI YANG;YOUNG HA RHEE
    • Journal of Microbiology and Biotechnology
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    • v.13 no.1
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    • pp.64-69
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    • 2003
  • Pseudomonas chlororaphis HS21 was isolated from a soil sample and found to produce medium-chain-length polyhydroxyalkanoates (MCL-PHAs) using palm kernel oil (PKO) as the sole carbon source. Up to 3.3 g/1 dry cell weight containing $45\%$ MCL-PHA was produced, when the strain was grown for 21 h in a jar fermentor culture containing 5 g/1 PKO. The polymer produced from PKO consisted of unsaturated monomers of $7.3\%$ 3-hydroxy-5-cis-tetradecenoate and $2.3\%$ 3-hydroxy-5,8,-cis, cis-tetradecadienoate as well as saturated even-carbon number monomers ranging from $C_6\;to\;C_14$, as determined by GC and El GC/MS The PHA was a transparent, sticky material at room temperature. A differential scanning calorimetric analysis revealed that the polymer was amorphous with a $-44^{\circ}C$ glass transition temperature. The number average molecular weight and polydispersity index of the PHA were 83,000 and 1.53, respectively. Although the PHA was practically biodegradable, its degradability was lower than that of poly(3-hydroxyoctanoate) based on a comp:trison of the clear zones formed by growing PHA depolymerase-producing bacteria on an agar plate containing the respective polymers.

Change of Hydrolysis Rate on Hydrogenated Palm Kernel Oil and Shea Butter Blendings Using In Vitro Digestion System (In Vitro Digestion에서 팜핵경화유와 시어버터 혼합 비율에 따른 가수분해율 변화)

  • Lee, Hyeon-Hwa;Shin, Jung-Ah;Lee, Ki-Teak
    • Journal of the Korean Society of Food Science and Nutrition
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    • v.46 no.10
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    • pp.1205-1215
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    • 2017
  • In this study, the hydrolysis rate of palm kernel oil (HPKO) and shea butter were compared by in vitro digestion to develop low-digestible fats. HPKO exhibited a higher hydrolysis rate than shea butter. The initial rate and ${\Phi}max$ value of HPKO were 0.315 mM/s and 78.0%, while the corresponding values for shea butter were 0.117 mM/s and 41.4%. When the two fats were blended at various ratios, the hydrolysis rate, in terms of the ${\Phi}max$ value, was similar to that of shea butter until 2:8 (HPKO : shea butter, w/w). After the analysis of triacylglycerol species and the positional fatty acid composition, the factors that affected the hydrolysis rate were determined. The results suggest that the low hydrolysis rate of shea butter would be due mostly to the stearic acid located at the sn-1,3 positions of triacylglycerol molecules. These properties of shea butter are expected to be the nutritional benefits as a low-digestible fat in foods.