No.ArticleYear 
1Nur Sulihatimarsyila, A W; Yunus, R, Lau, H L N; Choong, T S Y and Abd-Aziz, S (2021). Immobilized lipase-catalyzed transesterification for synthesis of biolubricant from palm oil methyl ester and trimethylolpropane. Journal of Bioprocess and Biosystems Engineering. 44: 2429-2444.2021
2Haryati, Z; Subramaniam, V; Zainon, Z and Kheang, S (2021). Complementing Social Life Cycle Assessment to Reach Sustainable Development Goals – A Case Study from the Malaysian Oil Palm Industry. Chem. Eng. Trans., 83: 331–336.2021
3Haryati, Z; Subramaniam, V; Noor, Z Z; Hashim, Z; Loh, S K and Aziz, A A (2021). Social Life Cycle Assessment of Crude Palm Oil Production in Malaysia. Sustain. Prod. Consum. 29: 90–99.2021
4Subramaniam, V; Loh, S K and Aziz, A A (2021). GHG analysis of the production of crude palm oil considering the conversion of agricultural wastes to by-products. Sustain. Prod. Consum. 28: 1552–1564.2021
5Loh, SK and Muzzammil, N (2021). Palm olein lubricates and removes freshly baked concrete from its formwork. J. Oil Palm Res., DOI:https://doi.org/10.21894/jopr.2021.0038. 2021
6Parveez, GKA; Ahmad Tarmizi, AH; Sundram, S; Loh, SK; Ong-Abdullah, M; Poo Palam, KD; Salleh, KM; Ishak, SM and Idris, Z (2021). Oil palm economic performance in Malaysia and R&D progress in 2020. J. Oil Palm Res. 33: 181-214.2021
7Yap, CC; Loh, SK; Chan, YJ; Supramaniam, CV; Chong, MF; Soh, AC; Lim, LK; Loo, LS (2021). Synergistic effect of anaerobic co-digestion of palm oil mill effluent (POME) with Moringa oleifera extract. Biomass and Bioenergy 144, 105885.2021
8Yap, CC; Chan, YJ; Loh, SK; Supramaniam, CV; Soh, AC; Chong, MF; Lim, LK (2021). Pilot-scale investigation of the integrated anaerobic?aerobic bioreactor (IAAB) treating palm oil mill effluent (POME): startup and performance evaluation. Industrial & Engineering Chemistry Research 60(10): 3839-3859.2021
9Sukiran, MA; Wan Daud, WMA; Abnisa, F; Nasrin, AB, Abdul Aziz, A and Loh, SK (2021). A comprehensive study on torrefaction of empty fruit bunches: Characterization of solid, liquid and gas products. Energy 230: 120877.2021
10Bukhari, NA; Loh, SK, Luthfi, AAI, Abdul, PM, Nasrin, AB, Harun, S, Jahim, JM (2021). Whole slurry saccharification of mild oxalic acid-pretreated oil palm trunk biomass improves succinic acid production. Industrial Crops & Products 171: 113854.2021
11Bukhari, NA; Loh, SK, Luthfi, AAI, Abdul, PM, Jahim, JM (2021). Low cost nutrient-rich oil palm trunk bagasse hydrolysate for bio-succinic acid production by Actinobacillus succinogenes. Preparative Biochemistry & Biotechnology, doi:10.1080/10826068.2021.2015692.2021
12Nasrin, AB; Loh, SK; Sukiran, MA; Bukhari, NA; Aziz, AA; Lim, J; Lim, S & Chin, E (2021). Production and characterization of low?ash empty fruit bunches pellets as a solid biofuel. BioEnergy Research. https://doi.org/10.1007/s12155-021-10316-x2021
13Teh, SS., & Lau, HLN (2021). Quality assessment of refined red palm-pressed mesocarp olein. Food Chemistry, 340, 127912.2021
14Teh, SS; Mah, SH; Lau, HLN; Teng, KT; Loganathan, R (2021). Antioxidant potential of red palm-pressed mesocarp olein. Journal of Oleo Science, 70, (12), 1719-1729.2021
15Teh, SS; Gunter, NV; Lau, HLN (2021) Nutritional potential of supercritical fluid-extracted palm fruit. Journal of Oil Palm Research. Doi: 10.21894/jopr.2021.00442021
16Rusli, MQ; Muhamad SMF; Sulaiman, AM; Roslan, MF; Veza, I; Mohd Perang, MR; Lau, HLN; Abd Wafti, NS (2021) Performance and Emission Measurement of a Single Cylinder Diesel Engine Fueled with Palm Oil Biodiesel Fuel Blends. IOP Conference Series: Materials Science and Engineering 1068, 012020.2021
17Aller, MM; Ong, DS; Lau, HLN; Preu, S (2021) Broadband Determination of Biodiesel Content in Petroleum Diesel Blends by Terahertz Time Domain Spectroscopy. IEEE Transactions on Terahertz Science and Technology 11, 339-344.2021
18Jin, Y; Teh, SS; Lau, HLN; Mah, S.H. (2021) In vivo Toxicity Assessment of Refined Red Palm-pressed Mesocarp Olein in Sprague-Dawley Rats. Journal of Oleo Science 70, 1749-1759.2021
19Nur, AI; Lau, HLN; Asikin-Mijan, N.; Hassan, M.A.; Saiman Mohd, I., et al. (2021) A promoter effect on hydrodeoxygenation reactions of oleic acid by zeolite beta catalysts. Journal of Analytical and Applied Pyrolysis 155, 105044.2021
20Nur, AI; Lau, HLN; Asikin-Mijan, N.; Izham, S.M.; Hassan, M.A., et al. (2021) Hydrodeoxygenation of oleic acid for effective diesel-like hydrocarbon production using zeolite-based catalysts. Reaction Kinetics, Mechanisms and Catalysis 134, 1069-1083.2021
21Nursyairah, J; Lau, H L N and Jalal, R I A (2021). The cold flow properties of palm biodiesel for diesel blends mandate in Malaysia’s highlands. J Oil Palm Res. https://doi.org/10.21894/jopr.2021.0027.2021
22Yung, C L; Vijaya, S and Sumiani, Y (2021) Life cycle assessment for the production of palm biodiesel. J. Oil Palm Res. Vol. 33(1): 140-150.2021
23Nur Eliyanti, A O; Fatiha, I; Astimar, A A and Noorshamsiana, A W (2021). Preparation and Characterization of Palm-based SodiumCarboxymethyl Cellulose for Application in Food Additive. Biointerface Research in Applied Chemistry. DOI: https://doi.org/10.33263/BRIAC115.1305313063. (Scopus indexed). Available online: 7 February 2021.2021
24I. Nur Azreena, H. L. N. Lau, N. Asikin-Mijan, M.A. Hassan, Saiman Mohd Izham, E. Kennedy, M. Stockenhuber, M.S. Mastuli, Fahad A. Alharthi, Abdulaziz Ali Alghamdi and Y. H. Taufiq-Yap (2021). A promoter effect on hydrodeoxygenation reactions of oleic acid by zeolite beta catalysts. Journal of analytical and applied pyrolysis 2021 (155). (IF: 3.905). Published online: 8 February 2021.2021
25Muzammil Ngatiman et al., (2021). Physicochemical Characteristics of Struvite Crystals Formed in Palm Oil Mill Effluent Anaerobic Digester, Heliyon, 7 (1) : e05931, doi.org/10.1016/j.heliyon.2021.e05931. Published online:12 January 2021.2021
26Fatiha, I. ., Nur Eliyanti, A. O. ., Noorshamsiana, A. W. ., Fazliana, A. H. ., & Astimar, A. A. . (2021). Preparation of Microcrystalline Cellulose from Oil Palm Empty Fruit Bunch Fibre Using Steam-Assisted Acid Hydrolysis. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 81(1), 88-98. https://doi.org/10.37934/arfmts.81.1.8898. Available online: 14 March 2021.2021
27Roila Awang and Mohamad Haniff Mohamed (2021). Synthesis and characterization of acetol from palm-based glycerol, Malaysian Journal of Analytical Science. Vol. 25(4): 669-677. https://mjas.analis.com.my/mjas/v25_n4/pdf/Roila_25_4_12.pdf . Published online: 29 August 2021.2021
28Zawawi, I; Aisyah, H A; Ridzuan, R; Noorshamsiana, A W; Mansur, A; Syaiful, O and Ewe, L S (2021). Effects of Refining Parameters on the Properties of Oil Palm Frond (OPT) Fiber for Medium Density Fibreboard (MDF). Journal of Advanced Research in Fluid Mechanics and Thermal Sciences 87(3): 64-77 https://doi.org/10.37934/arfmts.87.3.6477 Published online: 30 September 20212021
29I. Nur Azreena, H. L. N. Lau, N. Asikin-Mijan, Saiman Mohd Izham, M.A. Hassan, Eric Kennedy, Michael Stockenhuber and Y. H. Taufiq-Yap (2021). Hydrodeoxygenation of Oleic Acid for Effective Diesel-like Hydrocarbon Production Using Zeolite-Based Catalysts. Journal of reaction kinetics,mechanisms and catalysis. (IF: 2.081). Accepted by 28 September 2021. DOI: https://doi.org/10.1007/s11144-021-02082-w. Published online: 7 October 2021.2021
30Nur Azreena, I; Laun, H. L. N; Asikin-Mijan, N; Hassan, M.A.; Mohd Izham, S; Safa Gamal, M; Wan Nor Adira Wan Khalit, Mahashanon Arumugam, Kennedy, E; Stockenhuber, M; and Y. H. Taufiq-Yap (2021). Hydrodeoxygenation of fatty acid over La-modified HZSM5 for premium quality renewable diesel production. Journal of analytical and applied pyrolysis 2021 (155). Published online: 1 December 2021.2021
31Azwan M.B., Rizal M.A., Syazwan A.R. (2021). Oil Palm FFB Productivity Data Assessment for Selection of Evacuating Machine. Agriculture Mechanization in Asia, Africa and Latin America (AMA) Journal, Volume 52, Issue 01, October, 2021.2021
32Ng Mei Han and Nu’man Abdul Hadi (2021). Microwave Assisted Deep Eutectic Solvent Extraction of Ferulic Acid from Palm Pressed Fibre. Current Research on Green and Sustainable Chemistry, Volume 4, 2021, 100155. DOI:10.1016/j.crgsc.2021.100155.2021
33Stasha, E R A; Loh, S K; Noorshamsiana, A W; Ondrej, M; Idris, M T and Robert, T B (2021). Effect of operating temperature on physiochemical properties of empty fruit bunch cellulose-derived biochar. J. Oil Palm Res.,. DOI: https://doi.org/10.21894/jopr.2021.0007. Available online: 23 February 2021.2021
34Nu’man Abdul Hadi et al., The effect of microwave treatment and delayed harvesting on oil palm fruitlets (Elaeis guineensis) oil quality, . J. Oil Palm Res., DOI: http://doi.org/10.21894/jopr.2021.0015. Published online: 20 April 2021.2021
35Fatah Yah Abd Manaf and Noor Lida Habi Mat Dian, Optimization of Alkali Protein Extraction Method from Palm Kernel Cake, J. Oil Palm Res., DOI: https://doi.org/10.21894/jopr.2021.0011 . Published online: 1 April 2021. 2021
36Ropandi, M; Ridzuan, R, Nahrul Hayawin, Z and Astimar A A (2021). Effect of Biofuel on Light-duty Vehicles Engine Performance and Lube Oil degradation. J. Oil Palm Res., DOI: https://doi.org/10.21894/jopr.2021.0023. Published online: 19 May 2021.2021
37Hishamuddin, E; Abd Razak, R A; Yeoh, C B and Ahmad Tarmizi, A H (2021). Assessment of trans fatty acid levels in refined palm-based oils and commercial vegetable oils in the Malaysian market. J. Oil Palm Res., DOI: https://doi.org/10.21894/jopr.2021.0029. Published online: 21 June 2021.2021
38Mohd Firdaus Othman, Rohaya Mohamed Halim, Miskandar Mat Shahri and Astimar Abdul Aziz (2021). Nutrient Enhancement of Palm Kernel Cake Via Solid State Fermentation by Locally Isolated, Journal of Oil Palm Research , In press. DOI: 10.21894/jopr.2021.0022. Published Online: 19 May 2021.2021
39Hasliyanti Alias, Rusnani Abd Majid, Wan Hasamudin Wan Hassan, Ng Mei Han, Nor Faizah Jalani and Rohaya Mohamed Halim (2021). The Effects of recycling palm pressed fibre oil on crude palm oil quality, Journal of Oil Palm Research, In press. DOI:10.21894/jopr.2021.0016. Published Online: 26 April 2021.2021
40Nor Faizah, J; Noorshamsiana, A W ; Wan Hasamudin, W H ; Nahrul Hayawin, Z ; Ropandi, M ; Nur Eliyanti, A O ; Astimar, A A and Rohaya, M H (2021). Microbial Protein Extraction From Palm Oil Mill Effluent. Journal of Oil Palm Research , In Press. DOI: 10.21894/jopr.2021.00372021
41Che Rahmat Che Mat; Rohaya Mohamed Halim; Nadiahnor Md Yusop; Nu’man Abdul Hadi and Andrew Yap Kian Chung (2021). Parametric Study on Separation Efficiency of Non-oil Palm Fruit Matters in FFB Consignment. Journal of Oil Palm Research , In press. DOI:. 10.21894/jopr.2021.00352021
42Wafti, NSA.; Yunus, R; Lau, HLN.; Yaw, TCS; Aziz, SA (2021). Immobilised lipase-catalysed transesterification for synthesis of TMP asters as biolubricant base stock. Bioprocess and Biosystems Engineering, DOI: 10.1007/s00449-021-02615-6, Published online 16 July 20212021
43NOR FAIZAH et al., (2020). Production of phytosterols mix from palm fatty acid distillate (PFAD) through multi-staged extraction processes, IOP Conf. Series: Materials Science and Engineering 736(2020) 022047. DOI: 10.1088/1757-899X/736/2/022047 (SCOPUS) 2020
44MUZZAMMIL et al., (2020). Pilot scale integrated anaerobic-aerobic treatment of palm oil mill effluent, Journal of Oil Palm Research, 32 (2): 286-293, DOI: 10.21894/jopr.2020.00302020
45Nahrul Hayawin, Z., Ibrahim, M.F., Kamarudin, H., Norfaizah, J., Ropandi, M., Astimar, A.A., Abd-Aziz, S. (2020). Production of a bioadsorbent from oil palm kernel shell, and application for pollutants and colour removal in palm oil mill effluent final discharge. Energy Security and Chemical Engineering Congress. IOP Conf. Series: Materials Science and Engineering 736 (2020) 022045. doi:10.1088/1757-899X/736/2/0220452020
46Nahrul Hayawin, Z., Ibrahim, M.F., Nor Faizah, J., Ropandi, M., Astimar, A.A., Noorshamsiana, A.W., Suraini Abd-Aziz (2020). Palm oil mill final discharge treatment by a continuous adsorption system using oil palm kernel shell activated carbon produced from two-in-one carbonization activation reactor system. Journal of Water Process Engineering, 36, 101262.2020
47Nur Azreena Idris, Harrison Lik Nang Lau, Nur Sulihatimarsyila Abd Wafti, Nabilah Kamaliah Mustaffa and Soh Kheang Loh. Glycerolysis of Palm Fatty Acid Distillate (PFAD) as Biodiesel Feedstock Using Heterogeneous Catalyst. Published on 21st March 2020 https://doi.org/10.1007/s12649-020-00995-62020
48Subramaniam, V; Hashim, Z; Loh, S K and Aziz, A A (2020). Assessing water footprint for the oil palm supply chain – a cradle to gate study. Agricultural Water Management., Vol 237,2020.2020
49Sukiran, M A; Abnisa, F; Syafiee, S; Daud, W M A W; Bakar, N A; Aziz, A A and Loh, S K (2020). Individual torrefaction parameter enhances characteristics of torrefied empty fruit bunches. Biomass Conversion & Biorefinery, DOI: 10.1007/s13399-020-00804-z2020
50Sukiran, M A; Abnisa, F; Syafiee, S; Daud, W M A W; Bakar, N A; Aziz, A A and Loh, S K (2020). Experimental and modeling study of the torrefaction of empty fruit bunches as a potential fuel for palm oil mill boilers. Biomass and Bionergy,136: 1055302020
51Yung, C L; Vijaya, S and Sumiani, Y (2020) Life cycle assessment for palm oil refining and fractionation. J. Oil Palm Res. Vol. 32(2): 341-354.2020
52Bukhari, N A; Jahim, J M; Loh, S K; Nasrin, A B; Harun, S and Abdul, P M (2020). Organic acid pretreatment of oil palm trunk biomass for succinic acid production. Waste and Biomass Valorization. DOI: 10.1007/s12649-020-00953-2.2020
53Bukhari, N A; Loh, S.K.; Nasrin, A.B. And Jahim, J.M. (2020). Enzymatic hydrolysate of palm oil mill effluent as potential substrate for bioflocculant BM-8 production. Waste and Biomass Valorization, 11: 17-29.2020
54Nur, A I; Lau, H L N; Nur, S A W; Nabilah, K M; Loh, S K (2020) Glycerolysis of Palm Fatty Acid Distillate (PFAD) as Biodiesel Feedstock Using Heterogeneous Catalyst. Waste and Biomass Valorization, DOI: 10.1007/s12649-020-00995-6.2020
55Muzzammil, N and Loh, S K (2020). Pilot scale integrated anaerobic-aerobic treatment of POME. JOPR 32: 286-293.2020
56Syahin, M S; Ghani, W A W A K and Loh, S K (2020). Decolourisation of palm oil mill effluent (POME) treatment technologies: a review. J. Oil Palm Res. Vol. 32(1): 1-15.2020
57Yap, C C; Chong, M F; Loh, S K; Chan, Y C; Supramaniam, C V; Soh, A C and Lim, LK (2020). Comparison of different industrial scale palm oil mill effluent (POME) anaerobic systems in degradation of organic contaminants and kinetic performance. J. Cleaner Production, 262: 121361.2020
58Karananidi, P; Md Som, A; Loh, SK; Bachmann, RT (2020). Flame curtain pyrolysis of oil palm fronds for potential acidic soil amelioration and climate change mitigation. Environmental Chemical Engineering, 8(4): 103982.2020
59Chan, Y H; Loh, S K; Chin, B L F; Yiin, C L; How, B S; Cheah, K W; Wong, M K; Loy, A C M; Gwee, Y L; Lo, S L Y and Lam, S S (2020). Fractionation and extraction of bio-oil: Recent advances and future prospects. Chemical Engineering, 397: 125406.2020
60Foo, N. S; Loh, S K Ismail, K and Bachmann, R T (2020). Nutrient recovery from palm oil mill effluent using thermally regenerated spent bleaching earth. J. Oil Palm Res. Vol. 32: 245-257.2020
61Ahmad Parveez, G K; Hishamuddin, E; Loh, S K; Ong-Abdullah, M; Mohamed Salleh, K; Zanal Bidin, M N I; Sundram, S; Azizul Hasan, Z A; Idris, Z. (2020). Oil palm economic performance in Malaysia and R&D progress in 2019. JOPR 32: 159-190.2020
62Dominguez, E L; Uttran, A; Loh, S K; Manero, M-H; Upperton, R; Tanimu, M I; Bachmann, R T (2020). Characterisation of industrially produced oil palm kernel shell biochar and its potential as slow release nitrogen-phosphate fertilizer and carbon sink. Materials Today: Proceedings, DOI: 10.1016/j.matpr.2020.05.1432020
63Subramaniam, V; Hashim, Z; Loh, S K and Aziz, A A (2020). Assessing water footprint for the oil palm supply chain – a cradle to gate study. Agricultural Water Management., Vol 237,2020.2020
64Sukiran, M A; Abnisa, F; Syafiee, S; Daud, W M A W; Bakar, N A; Aziz, A A and Loh, S K (2020). Individual torrefaction parameter enhances characteristics of torrefied empty fruit bunches. Biomass Conversion & Biorefinery, DOI: 10.1007/s13399-020-00804-z2020
65Sukiran, M A; Abnisa, F; Syafiee, S; Daud, W M A W; Bakar, N A; Aziz, A A and Loh, S K (2020). Experimental and modeling study of the torrefaction of empty fruit bunches as a potential fuel for palm oil mill boilers. Biomass and Bionergy,136: 1055302020
66Yung, C L; Vijaya, S and Sumiani, Y (2020) Life cycle assessment for palm oil refining and fractionation. J. Oil Palm Res. Vol. 32(2): 341-354.2020
67Bukhari, N A; Jahim, J M; Loh, S K; Nasrin, A B; Harun, S and Abdul, P M (2020). Organic acid pretreatment of oil palm trunk biomass for succinic acid production. Waste and Biomass Valorization. DOI: 10.1007/s12649-020-00953-2.2020
68Bukhari, N A; Loh, S.K.; Nasrin, A.B. And Jahim, J.M. (2020). Enzymatic hydrolysate of palm oil mill effluent as potential substrate for bioflocculant BM-8 production. Waste and Biomass Valorization, 11: 17-29.2020
69Nur, A I; Lau, H L N; Nur, S A W; Nabilah, K M; Loh, S K (2020) Glycerolysis of Palm Fatty Acid Distillate (PFAD) as Biodiesel Feedstock Using Heterogeneous Catalyst. Waste and Biomass Valorization, DOI: 10.1007/s12649-020-00995-6.2020
70Muzzammil, N and Loh, S K (2020). Pilot scale integrated anaerobic-aerobic treatment of POME. JOPR 32: 286-293.2020
71Syahin, M S; Ghani, W A W A K and Loh, S K (2020). Decolourisation of palm oil mill effluent (POME) treatment technologies: a review. J. Oil Palm Res. Vol. 32(1): 1-152020
72Yap, C C; Chong, M F; Loh, S K; Chan, Y C; Supramaniam, C V; Soh, A C and Lim, LK (2020). Comparison of different industrial scale palm oil mill effluent (POME) anaerobic systems in degradation of organic contaminants and kinetic performance. J. Cleaner Production, 262: 121361.2020
73Karananidi, P; Md Som, A; Loh, SK; Bachmann, RT (2020). Flame curtain pyrolysis of oil palm fronds for potential acidic soil amelioration and climate change mitigation. Environmental Chemical Engineering, 8(4): 103982.2020
74Chan, Y H; Loh, S K; Chin, B L F; Yiin, C L; How, B S; Cheah, K W; Wong, M K; Loy, A C M; Gwee, Y L; Lo, S L Y and Lam, S S (2020). Fractionation and extraction of bio-oil: Recent advances and future prospects. Chemical Engineering, 397: 125406.2020
75Foo, N. S; Loh, S K Ismail, K and Bachmann, R T (2020). Nutrient recovery from palm oil mill effluent using thermally regenerated spent bleaching earth. J. Oil Palm Res. Vol. 32: 245-257.2020
76Ahmad Parveez, G K; Hishamuddin, E; Loh, S K; Ong-Abdullah, M; Mohamed Salleh, K; Zanal Bidin, M N I; Sundram, S; Azizul Hasan, Z A; Idris, Z. (2020). Oil palm economic performance in Malaysia and R&D progress in 2019. J. Oil Palm Res. 32: 159-190.2020
77Dominguez, E L; Uttran, A; Loh, S K; Manero, M-H; Upperton, R; Tanimu, M I; Bachmann, R T (2020). Characterisation of industrially produced oil palm kernel shell biochar and its potential as slow release nitrogen-phosphate fertilizer and carbon sink. Materials Today: Proceedings, DOI: 10.1016/j.matpr.2020.05.1432020
78Teh, SS; Mah, SH & Razak, RAA (2020). Oxidative stability and physicochemical properties of palm olein. Journal of Oil Palm Research, 32(3), 518-525.2020
79Abd Rahim Shuib; Mohd Khairul Fadzly Md Radzi; Mohd Azwan Mohd Bakri and Mohd Ramdhan Mohd Khalid (2020). Development of a harvesting and transportation machine for oil palm plantations. Journal of the Saudi Society of Agricultural Sciences, 19(5), 365–373. DOI: https://doi.org/10.1016/j.jssas.2020.05.00 (SCOPUS). Published (Online): 15 May 2020. 2020
80Mohd Rizal Ahmad, Nordin Jamaludin, Abdul Razak Jelani, Azwan Bakri, Abd Rahim Shuib. (2020). The Effect Of Design Parameters On The Force And Energy Requirement For Cutting Oil Palm Fronds Using Magnetic Force. Jurnal Teknologi (Sciences & Engineering) 82:4 (2020) 141–150. DOI: https://doi.org/10.11113/jt.v82.142362020
81Hishamuddin, E., Nagy, Z.K. and Stapley, A.G., 2020. Thermodynamic analysis of the isothermal fractionation of palm oil using a novel method for entrainment correction. Journal of Food Engineering, 273, p.109806. DOI: https://doi.org/10.1016/j.jfoodeng.2019.1098062020
82Zawawi, I; Mansur, A; Astimar, A A; Ridzuan, R; Noorshamsiana, A W; Aisyah, H A; Syaiful, O and Ewe, L S (2020). Oil Palm Empty Fruit Bunches (EFB): Influence of Alkali and Acid Treatment on The Mechanical Properties of Medium Density Fibreboard (MDF). Journal of Advanced Research in Fluid Mechanics and Thermal Sciences 79(1): 44-53. DOI: https://doi.org/10.37934/arfmts.79.1.4453 Published (Online): 17 December 2020.2020
83Noorshamsiana, A W, Nor Faizah, J; Kamarudin, H; Nur Eliyanti, A O; Fatiha, I and Astimar, A A (2020). Extraction and Characterization of Cellulose From The Residue of Oil Palm Empty Fruit Bunch-xylan Extraction. J. Oil Palm Res. 32(4): 610-620. DOI:https://doi.org/10.21894/jopr.2020.0052. 2020
84Fatiha, I; Nur Eliyanti, A O; Noorshamsiana, A W and Astimar, A A (2020). Influence of Sulphuric Acid Concentration on the Physico-Chemical Properties of Microfibrillated Cellulose from Oil Palm Empty Fruit Bunch Fibre. J. Oil Palm Res. 32(4): 621-629. DOI:https://doi.org/10.21894/jopr.2020.00572020
85Nor Faizah Jalani; Noorshamsiana Abdul Wahab; Wan Hasamudin Wan Hassan; Kamarudin Hassan; Nahrul Hayawin Zainal and Mohamad Faizal Ibrahim (2020). Extraction and Purification of phytosterols mixture from palm fatty acid distillate (PFAD) using multistage extraction processes. DOI:10.21894/jopr.2020.0067. Publish (Online): 22 September 20202020
86Andrew Yap Kian Chung, Nastaein Qamaruz Zaman, Rohaya Mohamed Halim, Fatah Yah Abd Manaf and Nu’man Abdul Hadi (2020). Odour exposure level measurement surrounding palm oil mill. DOI: 10.21894/jopr.2020.0073. Publish (Online): 30 September 20202020
87Mohd Ramdhan Khalid; Abd Rahim Shuib and Norman Kamarudin (2020). Mechanising Oil Palm Loose Fruits Collection – A Review. J Oil Palm Res. DOI:https://doi.org/10.21894/jopr.2020.0069. Published online: 22 September 20202020
88Ridzuan Ramli; Huei Ruey Ong; Chi Shein Hong; Md. Maksudur Rahman Khan; Rosli Mohd Yunus; Rohaya Mohamed Halim; Astimar Abdul Aziz; Zawawi Ibrahim and Muhammad Remanuk Islam (2020). Investigation on the Effect of Monoglyceride Concentration on Palm Based Alkyd Resin Production.J. Oil Palm Res. DOI: https://doi.org/10.21894/jopr.2020.00586. Publish (Online): 7 October 20202020
89Nur Eliyanti, A O; Astimar, A A; Wan Hasamudin W H; Nor Faizah J; Fazliana A H and Noorshamsiana, A W (2020). Production of Furfural from Oil Palm Fibres. J. Oil Palm Res. DOI: https://doi.org/10.21894/jopr.2020.0109 (IF: 1.564). Published (Online): 9 December 2020.2020
90Rohaya Mohamed Halim, Ridzuan Ramli, Che Rahmat Che Mat, Nu’man Abdul Hadi, Mohd Firdaus Othman and Astimar Abd Aziz (2020). Quality Improvement of Palm Kernel Cake as Broiler Feed Using Pre-cleaning System DOI: 10.21894/jopr.2020.0112. Publish (Online): 14 December 20202020
91Ng Mei Han (2020). Methanolic Extraction of Free Ferulic Acid from Oil Palm. DOI: 10.21894/jopr.2020.0097. Publish (Online): 5 November 20202020
92NG MEI HAN (2019). Applications of Packed and Capillary Supercritical Fluid Chromatography in the Separations of Tocochromanols. Journal of Separation Science, 43: 285-291. DOI: 10.1002/jssc.2019003422019
93NG MEI HAN (2019). Nuclear Magnetic Resonance Spectroscopic Characterisation of Palm Biodiesel and Its Blends. Fuel, DOI:10.1016/j.fuel.2019.1160082019
94YAHAYA HAWARI (2019). Treating palm oil mill effluent by activated sludge process using submerged mechanical aerator/agitator replacing surface aerator. Jurnal Teknologi, 81 (3):127- 136 [Scopus Indexed]2019
95NU’MAN ABDUL HADI (2019). Assessment on palm oil mill effluent industrial treatment plant using bioreactor and ultrafiltration membrane system targeting biochemical oxygen demand below 20 mg /L. Environment Protection Engineering, 45 (1) p 155-170 [ISI Indexed]2019
96ANDREW YAP KIAN CHUNG (2019). The Effectiveness of Gas Recovery Systems for Managing Adour from Conventional Effluent Treatment Ponds in Palm Oil Mills in Malaysia. Civil and Environmental Engineering Reports, DOI: 10.2478/ceer-2019-2025 CEER 2019;30(3):070-085, E-ISSN 2450-85942019
97Rohaya Mohamed Halim & Ummi Kalsum Hasanah Mohd Nadzim. Pressed Fibre Oil: Quality and Implication. Palm Oil Engineering Bulletin Issue 131 (April- June 2019)2019
98Rohaya Mohamed Halim & Astimar Abd Aziz. MPOB Commitment Towards Clean Air Regulatory Compliance. Palm Oil Engineering Bulletin Issue 130 (January- March 2019)2019
99Zawawi, I., Mansur, A., Astimar, A. A., Ridzuan, R., Kamarudin, H., & Aisyah Humaira, A.(2019). Properties of Chemically Treated Oil Palm Empty Fruit Bunch (EFB) Fibres. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 57(1), 57-68.2019
100Shuib, A. R., Mohd Bakri, M. A., & Radzi, M. K. F. M. (2019). Development of a six-wheel drive vehicle: A comparative study on steering performance. Journal of Agricultural Engineering, 50(4):173-179.2019
101Abdul Razak Jelani; Mohd Ikmal Hafizi Azaman and Mohd Rizal Ahmad (2019). The effect of vibration isolator on the magnitude of hand-arm vibration (HAV) of the oil palm motorised cutter (CANTAS). Journal of Oil Palm Research 31: 86-94.2019
102Azwan M.B., Salmah J., Abd Rahim S., Norman K. A study on Agro-Hybrid Farm Vehicle with Small Onboard Solar Photovoltaic for Herbicide Spraying in Oil Palm Plantation (2019). Journal of Advanced Research in Applied Sciences and Engineering Technology. (In-print) December 2019.2019
103Subramaniam, V; Kuntom A; Haryati, Z; Loh, S K; Aziz, A A and Parveez, G K A (2019). Analysis of The Uncertainties of The Inclusion of Indirect Land Use Change into The European Union Renewable Energy Sources Directive Ii. J. Oil Palm Res. Vol. Vol. 31 (3) September 2019: 480-488. 2019
104Bakar, N A, Loh, S K, Sukiran, M A, Bukhari N A and Aziz A A (2019). Technical assessment and flue gases emission monitoring of an oil palm biomass-biogas cofired boiler. Environmental Progress & Sustainable Energy, 38(5): 1-8.2019
105Davannendran, C; Mohammad, K; Revathi, R; Lau, H L N; Yung, C L; Dinesh, K and Mohammed. S (2019). Sustainability of water in diesel emulsion fuel: An assessment of its corrosion behaviour towards copper. J. Cleaner Production, 220 (2019): 1005-1013.2019
106Loh, SK; Lai, ME; Ngatiman, M (2019). Vegetative growth enhancement of organic fertilizer from anaerobically-treated palm oil mill effluent (POME) supplemented with chicken manure in food-energy-water nexus challenge. Food and Bioproducts Processing, 117: 95–104. DOI: 10.1016/j.fbp.2019.06.016 2019
107Kong, S-H; Loh, S K; Bachmann, R T; Zainal, H and Cheong, K Y (2019). Palm Kernel Shell Biochar Production, Characteristics and Carbon Sequestration Potential. J. Oil Palm Res. Vol. 31: 508-520.2019
108Saleh, S; Ghani, W A W A K and Loh, S K (2019). Treated Coal Bottom Ash for Palm Oil Mill Effluent (POME) Decolourisation. Physical Sci., 30(3): 101–116.2019
109Loh S K; Nasrin A B; Sukiran, M A, Bukhari N A; Muzzammil N and Stasha Eleanor R (2019). Biogas Capturing Facilities in Palm Oil Mills: Current Status & Way Forward. Palm Oil Engineering Bulletin 132: 13-17.2019
110Bukhari N A; Loh, S K; Nasrin, A B; Luthfi, A A I; Harun, S; Abdul, P M And Jahim, J M (2019). Compatibility of utilising nitrogen-rich oil palm trunk sap for succinic acid fermentation by Actinobacillus succinogenes 130Z. Bioresource Technology 293: 122085.2019
111Bukhari N A; Jahim, J M; Loh, S K; Bakar, N A And Luthfi, A A I (2019). Response surface optimisation of enzymatically hydrolysed and dilute acid pretreated oil palm trunk bagasse for succinic acid production. BioResources 14(1): 1679-1693.2019
112Nur, S A W; Lau, H L N; Nabilah, K M and Nur, A I (2019). Refining process for production of refined palm-pressed fiber oil. Industrial Crops & Products. 129: 488-494.2019
113Teh, S S; Loh, S K and Mah, S H (2019). Development of choline-based deep eutectic solvents for efficient concentrating of hemicelluloses in oil palm empty fruit bunches. Korean Journal of Chemical Engineering. 36 (10): 1619-16252019
114Teh, S S; Lau, H L N and Mah, S H (2019). Palm-pressed mesocarp fibre oil as an alternative carrier oil in emulsion. J. of Oleo Sci., 68 (8): 803-8082019
115Kushairi, A; Ong-Abdullah, M; Nambiappan, B; Hishamuddin, E; Bidin M N I Z; Ghazali, R; Subramaniam, V; Sundram, S and Parveez, G K A (2019). Oil Palm Economic Performance In Malaysia and R&D Progress In 2018. J. Oil Palm Res. Vol. Vol. 31 (2): 165-194. DOI: 10.21894/J. Oil Palm Res.2019.00262019
116Arshad, F; Subramaniam, V; Nambiappan, B; Ismail A and Yusoff S (2019). Energy Consumption during Transportation along the palm oil supply chain in Malaysia. DOI: 10.21894/J. Oil Palm Res..2019.00242019
117Subramaniam, V; Kuntom A; Haryati, Z; Loh, S K; Aziz, A A and Parveez, G K A (2019). Analysis of The Uncertainties of The Inclusion of Indirect Land Use Change into The European Union Renewable Energy Sources Directive Ii. J. Oil Palm Res. Vol. Vol. 31 (3) September 2019: 480-488.2019
118Bakar, N A, Loh, S K, Sukiran, M A, Bukhari N A and Aziz A A (2019). Technical assessment and flue gases emission monitoring of an oil palm biomass-biogas cofired boiler. Environmental Progress & Sustainable Energy, 38(5): 1-8.2019
119Davannendran, C; Mohammad, K; Revathi, R; Lau, HLN; Yung, CL; Dinesh, K and Mohammed. S (2019). Sustainability of water in diesel emulsion fuel: An assessment of its corrosion behaviour towards copper. J. Cleaner Production, 220 (2019): 1005-1013.2019
120Loh, SK; Lai, ME; Ngatiman, M (2019). Vegetative growth enhancement of organic fertilizer from anaerobically-treated palm oil mill effluent (POME) supplemented with chicken manure in food-energy-water nexus challenge. Food and Bioproducts Processing, 117: 95–104. DOI: 10.1016/j.fbp.2019.06.0162019
121Kong, S-H; Loh, S K; Bachmann, R T; Zainal, H and Cheong, K Y (2019). Palm Kernel Shell Biochar Production, Characteristics and Carbon Sequestration Potential. J. Oil Palm Res. Vol. 31: 508-520.2019
122Saleh, S; Ghani, W A W A K and Loh, S K (2019). Treated Coal Bottom Ash for Palm Oil Mill Effluent (POME) Decolourisation. Physical Sci., 30(3): 101–116.2019
123Loh S K; Nasrin A B; Sukiran, M A, Bukhari N A; Muzzammil N and Stasha Eleanor R (2019). Biogas Capturing Facilities in Palm Oil Mills: Current Status & Way Forward. Palm Oil Engineering Bulletin 132: 13-17.2019
124Bukhari N A; Loh, S K; Nasrin, A B; Luthfi, A A I; Harun, S; Abdul, P M And Jahim, J M (2019). Compatibility of utilising nitrogen-rich oil palm trunk sap for succinic acid fermentation by Actinobacillus succinogenes 130Z. Bioresource Technology 293: 122085.2019
125Bukhari N A; Jahim, J M; Loh, S K; Bakar, N A And Luthfi, A A I (2019). Response surface optimisation of enzymatically hydrolysed and dilute acid pretreated oil palm trunk bagasse for succinic acid production. BioResources 14(1): 1679-1693.2019
126Nur, S A W; Lau, HLN; Nabilah, K M and Nur, A I (2019). Refining process for production of refined palm-pressed fiber oil. Industrial Crops & Products. 129: 488-494.2019
127Teh, S S; Loh, S K and Mah, S H (2019). Development of choline-based deep eutectic solvents for efficient concentrating of hemicelluloses in oil palm empty fruit bunches. Korean Journal of Chemical Engineering. 36 (10): 1619-16252019
128Teh, SS; Lau, HLN and Mah, SH (2019). Palm-pressed mesocarp fibre oil as an alternative carrier oil in emulsion. J. of Oleo Sci., 68 (8): 803-8082019
129Kushairi, A; Ong-Abdullah, M; Nambiappan, B; Hishamuddin, E; Bidin M N I Z; Ghazali, R; Subramaniam, V; Sundram, S and Parveez, G K A (2019). Oil Palm Economic Performance In Malaysia and R&D Progress In 2018. J. Oil Palm Res. Vol. Vol. 31 (2): 165-194. DOI: 10.21894/J. Oil Palm Res.2019.00262019
130Arshad, F; Subramaniam, V; Nambiappan, B; Ismail A and Yusoff S (2019). Energy Consumption during Transportation along the palm oil supply chain in Malaysia. DOI: 10.21894/J. Oil Palm Res..2019.00242019
131Ng, M H and Yung, C L (2019). Nuclear magnetic resonance spectroscopic characterisation of palm biodiesel and its blends. FUEL, 257 Doi: https://doi.org/10.1016/j.fuel.2019.1160082019
132CHE RAHMAT, C M et al. (2018). Evaluation of double-roll crusher on oil palm fruit bunches and effect of bruising level on free fatty acids content. Journal of Engineering Science and Technology 13 (10): 3381-33922018
133NG M. H.; CHOO Y. M.; CHUA C H,; HASHIM M A (2018). Tocotrienols Concentration Using Packed Column Supercritical Fluid. Journal Food Process Technol, 9: 7182018
134FATAH YAH ABD MANAF & ANDREW YAP KIANG CHUNG (2018). Automatic Crude Oil Dilution Control With Premium Oil Segregation Using Near-infrared (NIR) Online System. Journal of Palm Oil Research. DOI: https://doi.org/10.21894/jopr.2018.0002018
135Nahrul Hayawin, Z., Astimar, A.A., Ibrahim, M.F., Idris, J., Hassan, M.A., Bahrin, E.K., Nor Faizah, J., Nur Sulihatimarsyila, A.W., Suraini Abd-Aziz (2018). Carbonisation-activation of oil palm kernel shell into activated carbon and methylene blue adsorption kinetics. Journal of Oil Palm Research Vol. 30 (3) September 2018. (IF :1.180) H-index: 172018
136Nahrul Hayawin, Z., Astimar, A.A., Ibrahim, M.F., Idris, J., Hassan, M.A., Bahrin, E.K., Nor Faizah, J., Nur Sulihatimarsyila, A.W., Suraini Abd-Aziz (2018). Carbonisation-activation of oil palm kernel shell into activated carbon and methylene blue adsorption kinetics. Journal of Oil Palm Research Vol. 30 (3) September 2018. (IF :0.537)2018
137Nahrul Hayawin, Z., Astimar, A.A., Idris, J., Mamat, R., Hassan, M.A., Ibrahim, M.F. and Suraini Abd-Aziz (2018). Reduction of POME final discharge residual using activated bioadsorbent from oil palm kernel shell. Journal of Cleaner Production, 182, 830-837 (IF :7.246) H-index: 1732018
138Fatiha Ismail; Noorshamsiana Abdul Wahab; Nur Eliyanti Ali Othman and Astimar Abdul Aziz (2018). Physico-Chemical Treatment of Oil Palm Biomass into Applicable Feedstock. Palm Oil Engineering Bulletin No. 129.2018
139Fatiha, I., Astimar, A.A., Nur Eliyanti, A.O., Fazliana, A.H., Zawawi, I., Kamarudin, H., and Anis, M. (2018). Combination of Pretreatments on EFB Fibers for Sugar Production, Palm Oil Developments vol 69.2018
140Nur Eliyanti, A O; Astimar, A A; Wan Hasamudin, W H; Nor Faizah J; Fazliana A H; Fatiha I; Kamarudin, H And Anis M (2018). Characteristics of compressed microcrystalline cellulose from empty fruit fibre. Palm Oil Development. No. 68. June 2018.2018
141Nur Azreena Idris, Soh Kheang Loh, Harrison Lik Nang Lau, Cheng Yau Tan, Eminour Muzalina Mustafa, Vejeysri Vello, and Siew Moi Phang. Palm Oil Mill Effluent as Algae Cultivation Medium for Biodiesel Production. JOPR 30(1) March 2018: 141-1492018
142Nur Azreena Idris, Soh Kheang Loh and Harrison Lik Nang Lau. Microalgae cultivation in palm oil mill effluent (POME). Palm Oil Engineering Bulletin No 1282018
143Stasha Eleanor Rosland Abel and Soh Kheang Loh (2018). Process optimisation of 1,3-propanediol production by Klebsiella pneumoniae strain. Journal of Oil Palm Research 30(3): 529-536. DOI:10.21894/jopr.2018.0042.2018
144Abd Rahim Shuib , Mohd Ramdhan Khalid , Mohd Azwan Mohd Bakri , Mohd Solah Deraman (2018). Development of Oil Palm Loose Fruit Collecting Machine with Elevated Discharge Mechanism (Mark III). International Journal of Engineering Research & Technology. Volume 07, Issue 10 (October – 2018). 2018
145Mohd Ikmal Hafizi Azaman; Mohd Adzir Mahdi; Abdul Razak Jelani; Mohd Rizal Ahmad and Abd Rahim Shuib (2018). The Potentials of Laser Cutting Technologies for Oil Palm Harvesting. Oil Palm Bulletin, 77: 19-25.2018
146Abdul Razak Jelani, Mohd Ikmal Hafizi bin Azaman , Aminulrashid Mohamed, Muhamad Fauzi Ismail, Idris Abu Seman, Abd Rahim Shuib, Norman Kamarudin and Ahmad Khusairi Din (2018). Development and Field Evaluation of a Tractor Mounted Oil Palm Trunk Injector. Journal of Oil Palm Research. JOPR-2017-0002.R4.2018
147Abdul Razak Jelani, Mohd Rizal Ahmad, Mohd Ikmal Hafizi bin Azaman , Yosri Gono, Zahara Mohamed, Mohamad Syahmin Sukawai, Asyraf Aziz, Asyraf Aduka, Mohd Azwan Bakri, Aminulrashid Mohamed (2018). Development and Field Evaluation New Generation Oil Palm Motorised Cutter (Cantas Evo). Journal of Oil Palm Research. JOPR-2017-0004.R3.2018
148Abdul Razak Jelani, Mohd Ikmal Hafizi bin Azaman, Mohd Rizal Ahmad (2018). The Effect of Vibration Isolator on the Magnitude of Hand Arm Vibration (Hav) of The Oil Palm Motorised Cutter (Cantas). Journal of Oil Palm Research. JOPR-2018-0030.R1.2018
149Abd Rahim Shuib, Mohd Ramdhan Khalid, Mohd Azwan Mohd Bakri, Mohd Solah Deraman and Norman Kamarudin (2018). Development of Oil Palm Loose Fruit Collecting Machine with Elevated Discharge Mechanism (Mark iii). International Journal of Engineering Research & Technology (IJERT), ISSN: 2278-0181, Vol. 7 Issue 10, October 2018.2018
150Davannendran, C; Gan, S Y; Lau, H L N; Revathi, R; Mohammed, S and Mohammad, K (2018). Critical Relationship Between Biodiesel Fuel Properties and Degradation of Fuel Delivery Materials of a Diesel Engine. Thermal Science and Engineering Progress, 7 (2018): 20-26.2018
151Chan, Y H; Yusup, S; T. Quitain, A; Chai, Y H; Uemura, Y and Loh, S K (2018). Extraction of palm kernel shell derived pyrolysis oil by supercritical carbon dioxide: Evaluation and modeling of phenol solubility. Biomass and Bioenergy 116: 106–112.2018
152Yung, C L; Nursyairah, J; Miyamoto, M; Sakamoto, S; Maruyama, K; Loh, S K and Lim, W S (2018). Compatibility of terne sheet with palm biodiesel blends. J. Oil Palm Res. Vol. 30(4): 655-665.2018
153Yung, C L and Loh, S K (2018) Physicochemical properties of B10 diesel. Palm Oil Engineering Bulletin 128: 11-17.2018
154Subramaniam, V and Hashim Z (2018). Charting the Water Footprint of The Malaysian Oil Palm Industry. J. Cleaner Production, 178: 675-6872018
155Nasrin, A B; Loh, S K; Astimar, A A; Fazil, M M S; Kamahl, M M K; Lew, Y S And Lim, H D (2018). Development of biogas upgrading plant for the production of bio-compressed natural gas (Bio-CNG) in palm oil mills. Palm Oil Engineering Bulletin, 126: 11-17.2018
156Subramaniam, V; Hashim Z; Loh, S K and Aziz, A A (2018). Consumptive Water Use Assessment Band Life cycle-based water Footprint for palm oil. Oil Palm bulletin 76 (May 2018). 15-212018
157Muzzamil, N; Mohammed Saedi, J; Mohd Rushdi, Ab; Subramaniam, V and Loh, S K (2018). Scale Deposits from Palm Oil Mill Effluent (Pome) Treatment And Various Other Industries: A Developmental Review. J. Oil Palm Res. Vol. 30(3): 351-365.2018
158Uttran, A; Loh, S K; Kong, S-H and Bachmann, R T (2018). Adsorption of NPK fertilizers and humic acid on palm kernel shell biochar. J. Oil Palm Res. Vol. 30: 472-484.2018
159Loh, S K; Kassim, M A and Bukhari, N A (2018). Optimization of Process Conditions for Ethanol Production from Enzymatically Saccharified Empty Fruit Bunches using Response Surface Methodology (RSM). J. Oil Palm Res. Vol. 30(4); 642-654.2018
160Chan, Y H; Tan R R; Yusup, S; T. Quitain, A; Loh, S K and Uemura Y (2018). Life cycle assessment (LCA) of production and fractionation of bio-oil derived from palm kernel shell: a gate-to-gate case study Process Integr Optim Sustain., 2: 343–351. 2018
161Bukhari, N A; Loh, S K; Nasrin, A B and Jahim, J M (2018). Enhanced Sugar Recovery from Oil Palm Trunk Biomass by Repeated Enzymatic Hydrolysis with Surfactant Addition. Malaysian Applied Biology, 47(5): 165-172. 2018
162Bukhari, N A; Loh, S K; Nasrin, A B and Jahim, J M (2018). Lignocellulose-derived sugars from oil palm biomass. Palm Oil Engineering Bulletin 126: 25-28, 33-36.2018
163Teh, S S and Mah, S H (2018) Stability evaluations of different types of vegetable oil-based emulsions. J of Oleo Sci., 67 (11): 1381-13872018
164Teh, S S; Ong, A S H; Choo, Y M and Mah, S H (2018). sn-2 Hypothesis: a review of the effects of palm oil on blood lipid levels. J of Oleo Sci., 67 (6): 697-7062018
165Teh, S S.; Mah, S H; Gouk, S W; Voon, P T; Ong, A S H. and Choo, Y M (2018). Effects of palm olein-olive oil blends on fat deposition in diet-induced obese mice. Journal of Food and Nutrition Research, 6 (1): 39-482018
166Haryati, Z; Loh, S K; Kong, S-H and Bachmann, R T (2018). Pilot Scale Biochar Production from Palm Kernel Shell (PKS) In A Fixed Bed Allothermal Reactor. J. Oil Palm Res. Vol. 30(9), 485–494.2018
167Abidin, N H Z; Aziz, A A; Ibrahim, M F; Idris, J; Hassan, M A; Bahrin, E K; Nor Faizah, J; Nur Suliharimarsyila, A W and Suraini Abd-Aziz (2018). Carbonisation-activation of oil palm kernel shell into activated carbon and methylene blue adsorption kinetics. J. Oil Palm Res. Vol. 30: 495-5022018
168Sukiran, M A; Loh, S K and Bakar N A (2018). Conversion of pre-treated oil palm empty fruit bunches into bio-oil via fast pyrolysis. J. Oil Palm Res. Vol. 30: 121-129.2018
169Sukiran, M A; Loh, S K and Bakar N A (2018). Extraction of Sugar Compounds in Bio-oil Obtained from Pyrolysis of Empty Fruit Bunches. EB127: 11-15.2018
170Davannendran, C; Gan, S Y; Lau, H L N; Revathi, R; Mohammed, S and Mohammad, K (2018). Critical Relationship Between Biodiesel Fuel Properties and Degradation of Fuel Delivery Materials of a Diesel Engine. Thermal Science and Engineering Progress, 7 (2018): 20-26.2018
171Chan, Y H; Yusup, S; T. Quitain, A; Chai, Y H; Uemura, Y and Loh, S K (2018). Extraction of palm kernel shell derived pyrolysis oil by supercritical carbon dioxide: Evaluation and modeling of phenol solubility. Biomass and Bioenergy 116: 106–112.2018
172Yung, C L; Nursyairah, J; Miyamoto, M; Sakamoto, S; Maruyama, K; Loh, S K and Lim, W S (2018). Compatibility of terne sheet with palm biodiesel blends. J. Oil Palm Res. Vol. 30(4): 655-665.2018
173Yung, C L and Loh, S K (2018) Physicochemical properties of B10 diesel. Palm Oil Engineering Bulletin 128: 11-17.2018
174Subramaniam, V and Hashim Z (2018). Charting the Water Footprint of The Malaysian Oil Palm Industry. J. Cleaner Production, 178: 675-6872018
175Nasrin, A B; Loh, S K; Astimar, A A; Fazil, M M S; Kamahl, M M K; Lew, Y S And Lim, H D (2018). Development of biogas upgrading plant for the production of bio-compressed natural gas (Bio-CNG) in palm oil mills. Palm Oil Engineering Bulletin, 126: 11-17.2018
176Subramaniam, V; Hashim Z; Loh, S K and Aziz, A A (2018). Consumptive Water Use Assessment Band Life cycle-based water Footprint for palm oil. Oil Palm bulletin 76 (May 2018). 15-212018
177Muzzamil, N; Mohammed Saedi, J; Mohd Rushdi, Ab; Subramaniam, V and Loh, S K (2018). Scale Deposits from Palm Oil Mill Effluent (Pome) Treatment And Various Other Industries: A Developmental Review. J. Oil Palm Res. Vol. 30(3): 351-365.2018
178Uttran, A; Loh, S K; Kong, S-H and Bachmann, R T (2018). Adsorption of NPK fertilizers and humic acid on palm kernel shell biochar. J. Oil Palm Res. Vol. 30: 472-484.2018
179Loh, S K; Kassim, M A and Bukhari, N A (2018). Optimization of Process Conditions for Ethanol Production from Enzymatically Saccharified Empty Fruit Bunches using Response Surface Methodology (RSM). J. Oil Palm Res. Vol. 30(4); 642-654.2018
180Chan, Y H; Tan R R; Yusup, S; T. Quitain, A; Loh, S K and Uemura Y (2018). Life cycle assessment (LCA) of production and fractionation of bio-oil derived from palm kernel shell: a gate-to-gate case study Process Integr Optim Sustain., 2: 343–351. DOI: 10.1007/s41660-018-0052-32018
181Bukhari, N A; Loh, S K; Nasrin, A B and Jahim, J M (2018). Enhanced Sugar Recovery from Oil Palm Trunk Biomass by Repeated Enzymatic Hydrolysis with Surfactant Addition. Malaysian Applied Biology, 47(5): 165-172.2018
182Bukhari, N A; Loh, S K; Nasrin, A B and Jahim, J M (2018). Lignocellulose-derived sugars from oil palm biomass. Palm Oil Engineering Bulletin 126: 25-28, 33-36.2018
183Teh, S S and Mah, S H (2018) Stability evaluations of different types of vegetable oil-based emulsions. J of Oleo Sci., 67 (11): 1381-13872018
184Teh, S S; Ong, A S H; Choo, Y M and Mah, S H (2018). sn-2 Hypothesis: a review of the effects of palm oil on blood lipid levels. J of Oleo Sci., 67 (6): 697-7062018
185Teh, S S.; Mah, S H; Gouk, S W; Voon, P T; Ong, A S H. and Choo, Y M (2018). Effects of palm olein-olive oil blends on fat deposition in diet-induced obese mice. Journal of Food and Nutrition Research, 6 (1): 39-482018
186Haryati, Z; Loh, S K; Kong, S-H and Bachmann, R T (2018). Pilot Scale Biochar Production from Palm Kernel Shell (PKS) In A Fixed Bed Allothermal Reactor. J. Oil Palm Res. Vol. 30(9), 485–494.2018
187Abidin, N H Z; Aziz, A A; Ibrahim, M F; Idris, J; Hassan, M A; Bahrin, E K; Nor Faizah, J; Nur Suliharimarsyila, A W and Suraini Abd-Aziz (2018). Carbonisation-activation of oil palm kernel shell into activated carbon and methylene blue adsorption kinetics. J. Oil Palm Res. Vol. 30: 495-5022018
188Sukiran, M A; Loh, S K and Bakar N A (2018). Conversion of pre-treated oil palm empty fruit bunches into bio-oil via fast pyrolysis. J. Oil Palm Res. Vol. 30: 121-129.2018
189Sukiran, M A; Loh, S K and Bakar N A (2018). Extraction of Sugar Compounds in Bio-oil Obtained from Pyrolysis of Empty Fruit Bunches. EB127: 11-15.2018
190Nabilah, KM; Lau, HLN; Loh, SK (2018). A Process to Simultaneously Produce a High Diacylglycerol Oil and a Carotenes-Enriched Triacylglycerol Oil from Oil Palm Fresh Fruit Bunches. J. Oil Palm Res. 30(3): 464-471.2018
191Nur, AI; Loh, SK; Lau, HLN; Tan, CY; Eminour, MM; Vejeysri, V; Phang, SM (2018). Palm Oil Mill Effluent as Algae Cultivation Medium for Biodiesel Production. J. Oil Palm Res. 30 (1): (141-149).2018
192ROHAYA H., RIDZUAN R., CHE RAHMAT C.M. and NUMAN A.H. (2017). Dry Separation of Palm Kernel and Palm Shell Using a Novel 5-Stage Winnowing Column System. Palm Oil Engineering Bulletin, Issue No. 1222017
193Abdul Razak Jelani, Mohd Ikmal Hafizi, Aminulrashid Mohamed, Muhamad Fauzi Ismail, Idris Abu Seman, Abd Rahim Shuib, Norman Kamarudin and Ahmad Kushairi Din. Development and field evaluation of a tractor mounted oil palm trunk injector. Paper accepted for Journal of Oil Palm Research. DOI: https://doi.org/10.21894/jopr.2017.00010.2017
194 Abdul Razak Jelani, Mohd Rizal Ahmad and Mohd Ikmal Hafizi Azaman. Quality testing laboratory for the oil palm motorised cutter. OPB V73 (November 2016), p 13-17. (published in March 2017)Mohd Azwan Mohd Bakri, Norashikin A Ludin, Kamaruzzaman Sopian, Abd Rahim Shuib, Salmah Jahis. Analysis of Energy Utilisation in Malaysian Oil Palm Mechanisation Operation. Journal of Oil Palm Research, Vol 28 (4)December 2016 p. 485-4952017
195Mohd Azwan Mohd Bakri, Norasikin A Ludin, Kamaruzzaman Sopian, Norman Kamaruddin, Abd Rahim Shuib, Mohd Ramdhan Khalid, Mohd Solah Deraman. Assessment of electric vehicle and photovoltaic integration for oil palm mechanisation practise. Journal of Cleaner Production; 140 (2017) 1365 -1375.2017
196Mohd Ramdhan Khalid and Abd Rahim Shuib (2017). Performance of Oil Palm Loose Fruits Separating Machine. Journal of Oil Palm Research, Vol. 29 (3) September 2017 p. 358-365.2017
197Sukiran, M A; Abnisa, F; Daud, W M A W; Bakar N A, and Loh, S K (2017). A review of torrefaction of oil palm solid wastes for biofuel production. Energy Conversion and Management, 149: 101-1202017
198Loh, S K; Bakar N A; Sukiran, M A; Bukhari, N A; Ngatiman, M; Daryl, J T, Stasha, E R A; Lim, W S, Choo Y M and Kaltschmitt, M (2017). First Report on Malaysia’s Experiences and Development in Biogas Capture and Utilization from Palm oil Mill Effluent under the Economic Transformation Programme: Current and Future Perspectives. Renewable and Sustainable Energy Reviews 74: 1257–1274.2017
199Loh, S K (2017). The Potential of The Malaysian Oil Palm Biomass as A Renewable Energy Source. Energy Convers Manage, 141: 285–298.2017
200Loh, S K; Cheong K Y and Salimon J (2017). Surface-Active Physicochemical Characteristics of Spent Bleaching Earth on Soil-Plant Interaction and Water-Nutrient Uptake: A Review. Applied Clay Science, 140: 59–65.2017
201Tan, C-Y; Sulaiman N M N; Loh, S K and Phang S-M (2017). Chlorella Biomass Production in Annular Photobioreactor Using Palm Oil Mill Effluent (POME): Effect of Hydrodynamics and Mass Transfer, Irradiance, Aeration Rate and POME Concentration. J. Oil Palm Res. Vol. 28(4): 496-509.2017
202Chandran, D; Ng, H K; Lau, H L N; Gan, S and Choo, Y M (2017). Deterioration of Palm Biodiesel Fuel Under Common Rail Diesel Engine Operation. Energy, 120: 854-863.2017
203Nur Suliharimarsyila, A W; Lau, H L N; Loh, S K; Aziz, A A; Zulkifli, A R and Choo, Y M (2017). Activated Carbon from Oil Palm Biomass as Potential Adsorbent for Palm Oil Mill Effluent Treatment. J. Oil Palm Res. Vol. 29: 278-290.2017
204Hashim, Z; Subramaniam, V; Harun, M H and Kamarudin, N (2017). Carbon Footprint of Oil Palm Planted on Peat in Malaysia. Int. J. Life Cycle Assess, 23: 1201–1217DOI: 10.1007/S11367-017-1367-Y.2017
205Kanadasan, J; Razak, H A and Subramaniam, V (2017). Properties of High Flowable Mortar Containing High Vol Palm Oil Clinker (POC) Fine for Eco-Friendly Construction. Cleaner Production, 170: 1244-1259. DOI: 10.1016/J.Jclepro.2017.09.0682017
206Bukhari, N A; Loh, S K; Bakar, N A and Ismail, M (2017). Hydrolysis of Residual Starch from Sago Pith Residue and Its Fermentation to Bioethanol. Sains Malaysiana 46(8): 1267-1276.2017
207Bukhari, N A; Bakar, N A and Loh, S K (2017). Novel Bio-flocculant From Palm Oil Mill Effluent (Pome) And Its Potential Application. Palm Oil Engineering Bulletin 124: 35-40.2017
208Teh, S S; Ong, A S H and Mah, S H (2017). Recovery And Utilization Of Palm Oil Mill Effluent Source As Value-Added Food Products. J. of Oleo Sci., 66 (11): 1183-1191. 2017
209Sukiran, M A; Loh, S K and Bakar, N A (2017). Pyrolysis of Oil Palm Biomass to Multiple Fuels and Products: Experiences of MPOB. Palm Oil Engineering Bulletin 123: 21-26.2017
210Bakar, N A; Subramaniam, V; Loh S K; Aziz, A A and Lim, W S (2017). Quality Compliance and Environmental Impact Assessment of Commercial Empty Fruit Bunch (EFB) Pellet Fuel in Malaysia. J. Oil Palm Res. Vol. 29(4): 570-578. DOI: 10.21894/J. Oil Palm Res.2017.00022017
211RUSNANI ABD MAJID and HISHAM ESA. The Use of Boiler Fly Ash for BOD. TSS and Colour Reduction of Palm Oil Mill Effluent Palm Oil Engineering Bulletin, Issue No. 1252017
212Sukiran, M A; Abnisa, F; Daud, W M A W; Bakar N A, and Loh, S K (2017). A review of torrefaction of oil palm solid wastes for biofuel production. Energy Conversion and Management, 149: 101-1202017
213Loh, S K; Bakar N A; Sukiran, M A; Bukhari, N A; Ngatiman, M; Daryl, J T, Stasha, E R A; Lim, W S, Choo Y M and Kaltschmitt, M (2017). First Report on Malaysia’s Experiences and Development in Biogas Capture and Utilization from Palm oil Mill Effluent under the Economic Transformation Programme: Current and Future Perspectives. Renewable and Sustainable Energy Reviews 74: 1257–1274.2017
214Loh, S K (2017). The Potential of The Malaysian Oil Palm Biomass as A Renewable Energy Source. Energy Convers Manage, 141: 285–298.2017
215Loh, S K; Cheong K Y and Salimon J (2017). Surface-Active Physicochemical Characteristics of Spent Bleaching Earth on Soil-Plant Interaction and Water-Nutrient Uptake: A Review. Applied Clay Science, 140: 59–65.2017
216Tan, C-Y; Sulaiman N M N; Loh, S K and Phang S-M (2017). Chlorella Biomass Production in Annular Photobioreactor Using Palm Oil Mill Effluent (POME): Effect of Hydrodynamics and Mass Transfer, Irradiance, Aeration Rate and POME Concentration. J. Oil Palm Res. Vol. 28(4): 496-509.2017
217Chandran, D; Ng, H K; Lau, H L N; Gan, S and Choo, Y M (2017). Deterioration of Palm Biodiesel Fuel Under Common Rail Diesel Engine Operation. Energy, 120: 854-863.2017
218Nur Suliharimarsyila, A W; Lau, H L N; Loh, S K; Aziz, A A; Zulkifli, A R and Choo, Y M (2017). Activated Carbon from Oil Palm Biomass as Potential Adsorbent for Palm Oil Mill Effluent Treatment. J. Oil Palm Res. Vol. 29: 278-290.2017
219Hashim, Z; Subramaniam, V; Harun, M H and Kamarudin, N (2017). Carbon Footprint of Oil Palm Planted on Peat in Malaysia. Int. J. Life Cycle Assess, 23: 1201–1217DOI: 10.1007/S11367-017-1367-Y.2017
220Kanadasan, J; Razak, H A and Subramaniam, V (2017). Properties of High Flowable Mortar Containing High Vol Palm Oil Clinker (POC) Fine for Eco-Friendly Construction. Cleaner Production, 170: 1244-1259. DOI: 10.1016/J.Jclepro.2017.09.0682017
221Bukhari, N A; Loh, S K; Bakar, N A and Ismail, M (2017). Hydrolysis of Residual Starch from Sago Pith Residue and Its Fermentation to Bioethanol. Sains Malaysiana 46(8): 1267-1276.2017
222Bukhari, N A; Bakar, N A and Loh, S K (2017). Novel Bio-flocculant From Palm Oil Mill Effluent (Pome) And Its Potential Application. Palm Oil Engineering Bulletin 124: 35-40.2017
223Teh, S S; Ong, A S H and Mah, S H (2017). Recovery And Utilization Of Palm Oil Mill Effluent Source As Value-Added Food Products. J. of Oleo Sci., 66 (11): 1183-1191.2017
224Sukiran, M A; Loh, S K and Bakar, N A (2017). Pyrolysis of Oil Palm Biomass to Multiple Fuels and Products: Experiences of MPOB. Palm Oil Engineering Bulletin 123: 21-26.2017
225Bakar, N A; Subramaniam, V; Loh S K; Aziz, A A and Lim, W S (2017). Quality Compliance and Environmental Impact Assessment of Commercial Empty Fruit Bunch (EFB) Pellet Fuel in Malaysia. J. Oil Palm Res. Vol. 29(4): 570-578. DOI: 10.21894/J. Oil Palm Res.2017.00022017
226Nur, AI; Loh, SK; Lau, HLN; Eminour, MM; Vejeysri, V; Tan, CY; Phang, SM (2017) Cultivation of microalgae in medium containing palm oil mill effluent and its conversion into biofuel. J. Oil Palm Res. 29 (2) 291-299.2017
227MOHD AZWAN MOHD BAKRI, NORASHIKIN A LUDIN, KAMARUZZAMAN SOPIAN, ABD RAHIM SHUIB and SALMAH JAHIS. Analysis of Energy Utilisation in Malaysian Oil Palm Mechanisation Operation. JOPR – (4) Dec. 20162016
228ABDUL RAZAK JELANI, MOHD IKMAL HAFIZI and MOHD RIZAL AHMAD. Quality Testing Laboratory for the Oil Palm Motorised Cutter – Oil Palm Bulletin Nov. 20162016
229Abdul Razak Jelani, Mohd Ikmal Hafizi Azaman, Mohd Rizal Ahmad, Zahara Mohamed, Syahmin Sukawai, Asyraf Aziz, Asyraf Aduka, Yosri Gono and Abd Rahim Shuib (2016). Quality Testing Laboratory for the Oil Palm Motorised Cutter. Oil Palm Bulletin No: 73 (November 2016) p1-5.2016
230Bakar, N A; Lim, W S; Loh, S K; Sukiran, M A and Bukhari, N A (2016). Cofiring Of Biogas in Palm Oil Mill Biomass Boilers. Palm Oil Engineering Bulletin 120: 23-262016
231Saleh, S; Kamarudin, K B; Ghani, W A W A K and Loh, S K (2016). Removal of Organic Contaminant from Aqueous Solution Using Magnetic Biochar. Procedia Engineering 148: 228 – 235.2016
232Tan, L; Wang, M: Li, X L H; Qu, J Z; Choo, Y Q; Y M and Loh, S K (2016). Fractionation of Oil Palm Empty Fruit Bunch by Bisulfite Pretreatment for The Production of Bioethanol and High Value Products. Bioresource Technology 200: 572–578.2016
233Sukiran, M A; Loh, S K and Bakar, N A (2016). Production of Bio-Oil from Fast Pyrolysis Of Oil Palm Biomass Using Fluidised Bed Reactor. J. of Energy Technologies and Policy,9: 52-622016
234Yung, C L; Loh, S K; Lim, W S and Choo, Y M (2016). Malaysian B5 Implementation and Its Quality. J. Oil Palm Res. Vol. 28(3): 331-343.2016
235NG MEI HAN and CHOO YUEN MAY (2016). Improved Method for the Qualitative Analyses of Palm Oil Carotenes using UPLC. Journal Chromatographic Science. 54(4): 633-6382016
236Bakar, N A; Lim, W S; Loh, S K; Sukiran, M A and Bukhari, N A (2016). Cofiring Of Biogas in Palm Oil Mill Biomass Boilers. Palm Oil Engineering Bulletin 120: 23-262016
237Saleh, S; Kamarudin, K B; Ghani, W A W A K and Loh, S K (2016). Removal of Organic Contaminant from Aqueous Solution Using Magnetic Biochar. Procedia Engineering 148: 228 – 235.2016
238Tan, L; Wang, M: Li, X L H; Qu, J Z; Choo, Y Q; Y M and Loh, S K (2016). Fractionation of Oil Palm Empty Fruit Bunch by Bisulfite Pretreatment for The Production of Bioethanol and High Value Products. Bioresource Technology 200: 572–578.2016
239Sukiran, M A; Loh, S K and Bakar, N A (2016). Production of Bio-Oil from Fast Pyrolysis Of Oil Palm Biomass Using Fluidised Bed Reactor. J. of Energy Technologies and Policy,9: 52-622016
240Yung, C L; Loh, S K; Lim, W S and Choo, Y M (2016). Malaysian B5 Implementation and Its Quality. J. Oil Palm Res. Vol. 28(3): 331-343.2016
241Chandran, D; Ng, HK; Lau, HLN; Gan, SY; Choo, YM and Salmiah, J (2016) Compatibility of biodiesel fuel with metals and elastomers in fuel delivery system of a diesel engine. J. Oil Palm Res. 28 (2016): 64-73.2016
242Chandran, D; Ng, HK; Lau, HLN; Gan, SY; Choo, YM (2016) Investigation of the effects of palm biodiesel dissolved oxygen and conductivity on metal corrosion and elastomer degradation under novel immersion method. Applied Thermal Engineering. 104 (2016): 294-308.2016
243Abdul Razak Jelani; Mohd Ikmal Hafizi Azaman; Mohd Rizal Ahmad and Abd Rahim Shuib. Quality Testing Laboratory For The Oil Palm Motorised Cutter. MPOB Information Series, June 2015. MPOB TS No. 1472015
244 Azwan M B, Norshila A L, Norman K, Kamaruzzaman S, Sohif, Rahim AS, Muwazib and Solah (2015). Technical Analysis of Battery Electric Vehicle (BEV) for Oil Palm Mechanization Operation. Advances in Renewable Energy Research 2015, UKM.2015
245Liew, W L, Kassim, M A, Muda, K; Loh, S K and Affam, A C. (2015). Conventional Methods and Emerging Wastewater Polishing Technologies for Palm Oil Mill Effluent Treatment: A Review. Journal and Environmental Management, 149: 222-235.2015
246Nur Sulihatimarsyila, A W; Lau, H L N and Choo, Y M (2015). Production Technology and Biodiesel from Palm Fatty Acid Distillate Using Mild Acid Catalyst. J. Oil Palm Res. Vol 27: 352-359. 2015
247Bukhari, N A; Bakar, N A; Loh, S K and Madihah, A Z (2015). Isolation and Identification and Novel Bioflocculant-Producing Bacteria from Palm Oil Mill Effluent. Pure and Applied Microbiology 9(1): 1-12.2015
248Bukhari, N A; Loh, S K and Bakar, N A (2015). The Improvement on Enzymatic Hydrolysis and Oil Palm (Elaeis Guineensis) Empty Fruit Bunch Lignocellulose. Malaysian Applied Biology 44(1): 95-100.2015
249Bukhari, N A and Loh, S K (2015). Optimisation And Fermentation Conditions for Bioethanol Production from Oil Palm Trunk Sap by Saccharomyces Cerevisiae. Malaysian Journal and Microbiology, 11(2): 163-169.2015
250Oh, P P; Chong, M F; Lau, H L N; Choo, Y M and Chen, J (2015). Modeling and A Membrane Reactor System for Crude Palm Oil Transesterification. Part I: Chemical and Phase Equilibrium. J. Amer. Inst. Chem. Engrs., 61(6):1968-1980. 2015
251Oh, P P; Chong, M F, Lau, H L N; Choo, Y M and Chen, J (2015). Modeling and A Membrane Reactor System for Crude Palm Oil Transesterification. Part II: Transport Phenomena. J. Amer. Inst. Chem. Engrs., 61(6): 1981-1996. 2015
252Liew, W L, Kassim, M A, Muda, K; Loh, S K and Affam, A C. (2015). Conventional Methods and Emerging Wastewater Polishing Technologies for Palm Oil Mill Effluent Treatment: A Review. Journal and Environmental Management, 149: 222-235.2015
253Nur Sulihatimarsyila, A W; Lau, H L N and Choo, Y M (2015). Production Technology and Biodiesel from Palm Fatty Acid Distillate Using Mild Acid Catalyst. J. Oil Palm Res. Vol 27: 352-359. 2015
254Bukhari, N A; Bakar, N A; Loh, S K and Madihah, A Z (2015). Isolation and Identification and Novel Bioflocculant-Producing Bacteria from Palm Oil Mill Effluent. Pure and Applied Microbiology 9(1): 1-12.2015
255Bukhari, N A; Loh, S K and Bakar, N A (2015). The Improvement on Enzymatic Hydrolysis and Oil Palm (Elaeis Guineensis) Empty Fruit Bunch Lignocellulose. Malaysian Applied Biology 44(1): 95-100.2015
256Bukhari, N A and Loh, S K (2015). Optimisation And Fermentation Conditions for Bioethanol Production from Oil Palm Trunk Sap by Saccharomyces Cerevisiae. Malaysian Journal and Microbiology, 11(2): 163-169.2015
257Oh, P P; Chong, M F; Lau, H L N; Choo, Y M and Chen, J (2015). Modeling and A Membrane Reactor System for Crude Palm Oil Transesterification. Part I: Chemical and Phase Equilibrium. J. Amer. Inst. Chem. Engrs., 61(6):1968-1980. 2015
258Oh, P P; Chong, M F, Lau, H L N; Choo, Y M and Chen, J (2015). Modeling and A Membrane Reactor System for Crude Palm Oil Transesterification. Part II: Transport Phenomena. J. Amer. Inst. Chem. Engrs., 61(6): 1981-1996. 2015
259Selliah, P; Subramaniam, V and Yusoff S (2015). Feasibility Studies and Palm Oil Mill Waste Aggregates for The Construction Industry. Materials Journal 8(9): 6508-6530;2015
260NG MEI HAN and CHOO YUEN MAY (2015). Enhancing the Separation and Purification Efficiency of Palm Oil Carotenes using Supercritical Fluid Chromatography. Journal of Oil Palm Research. 27 (4): 387-3922015
261NG MEI HAN and AHMAD KUSHAIRI (2015). Comprehensive Normal Phase Chromatographic Determination of Palm Vitamin E (Tocopherol, Tocotrienols and Tocomonoenol), Vitam Miner, 7: 178. DOI:10.4172/2376-1318.10001782015
262NU’MAN ABDUL HADI, MEI HAN NG, YUEN MAY CHOO, MOHD ALI HASHIM & NATESAN SUBRAMANIAN JAYAKUMAR (2015). Performance of Choline-Based Deep Eutectic Solvents in the Extraction of Tocols from Crude Palm Oil. Journal of the American Oil Chemists’ Society, 92:1709–17162015
263ABD RAHIM SHUIB, MOHD RAMDHAN KHALID AND MAIZAN ISMAIL (2014). Development of Half-track Articulated Tractor for Peat and Soft Ground. Oil Palm Bulletin 67 (November 2013) p. 11-16.2014
264MOHD RAMDHAN KHALID AND ABD RAHIM SHUIB (2014). Field Evaluation of Oil Palm Mechanical Harvesting Machines for Tall Oil Palms. Journal of Oil Palm Research Vol. 26 (2) June 2014 p. 125-132.2014
265Abd Rahim Shuib, Mohd Ramdhan Khalid and Maizan Ismail (2014). Development of Half-track Articulated Tractor for Peat and Soft Ground. Oil Palm Bulletin 67 (November 2013) p. 11-16.2014
266Mohd Ramdhan Khalid and Abd Rahim Shuib (2014). Field Evaluation of Oil Palm Mechanical Harvesting Machines for Tall Oil Palms. Journal of Oil Palm Research Vol. 26 (2) June 2014 p. 125-132.2014
267Sukiran, M A; Loh, S K; Bakar, N A and Choo, Y M (2014). Pyrolysis and Empty Fruit Bunches: Influence and Temperature on The Yields and Composition and Gaseous Product. American Journal and Applied Sciences, 11 (4): 606-610.2014
268Subramaniam, V; Muhamad, H; Hashim, Z and Choo Yuen May (2014). Water Footprint Part 3: The Production and Crude Palm Oil in Malaysian Palm Oil Mills. J. Oil Palm Res. Vol. 26: 292-2992014
269Subramaniam, V; Muhamad H: Hashim, Z, Choo Yuen May (2014). Malaysia Palm Oils LCA Incorporating Methane Capture By 2020. Journal of Oil Palm, Environment and Health, 5: 49-542014
270Kong, S-H; Loh, S K; Bachmann, R T; Rahim, S A; Salimon, J (2014). Biochar from Oil Palm Biomass: A Review and Its Potential and Challenges. Renewable and Sustainable Energy Reviews 39: 729-739.2014
271Sukiran, M A; Loh, S K; Bakar, N A and Choo, Y M (2014). Pyrolysis and Empty Fruit Bunches: Influence and Temperature on The Yields and Composition and Gaseous Product. American Journal and Applied Sciences, 11 (4): 606-610.2014
272Subramaniam, V; Muhamad, H; Hashim, Z and Choo Yuen May (2014). Water Footprint Part 3: The Production and Crude Palm Oil in Malaysian Palm Oil Mills. J. Oil Palm Res. Vol. 26: 292-2992014
273Kong, S-H; Loh, S K; Bachmann, R T; Rahim, S A; Salimon, J (2014). Biochar from Oil Palm Biomass: A Review and Its Potential and Challenges. Renewable and Sustainable Energy Reviews 39: 729-739.2014
274Cui, X, Zhao, X, Zeng J; Loh, S K; Choo, Y M and Lie, D (2014). Robust Enzymatic Hydrolysis and Formiline-Pretreated Oil Palm Empty Fruit Bunches (EFB) For Efficient Conversion and Polysaccharide to Sugars and Ethanol. Bioresource Technology 166: 584–591. 2014
275Liew, W L, Kassim, M A, Muda, K; Loh, S K and Abdullah, N (2014). Performance Evaluation and Industrial Effluent Treatment Systems (IETTS) – An Onsight For Biotechnology Advances in Agro-Based Wastewater Treatment. World Applied Sciences Journal 30: 316-325. 2014
276Liew, W L, Muda, K, Kassim, M A, Lai, K Y, Zi Yang Si, Thong, Y H; and Loh, S K (2014). POME Treatment Efficacy as Affected by Carrier Material Size In Micro-Bioreactor System. Applied Mechanics and Materials, 567: 104-109. DOI: 10.4028/Www.Scientific.Net/Amm.567.1042014
277Vello, V; Phang, S-M; Chu, W-L; Majid, N A; Lim, P-E and Loh, S K (2014). Lipid Productivity and Fatty Acid Composition-Guided Selection and Chlorella Strains Isolated from Malaysia For Biodiesel Production. J Appl Phycol., 26: 1399–1413. DOI: 10.1007/S10811-013-0160-Y 2014
278Shi-Cheng, S; Yu-Jie, Z; Jie?M; Jian-An, Z; Ling-Mei, D; Hua, L D; Choo Y M and Loh, S K (2014). Preparation and Surfactants for Enhanced Oil Recovery from Alkali Lignin Pretreated with Hydrogen Peroxide. Chemistry and Industry and Forest Products, 34(1): 57-61. DOI: 10.3969 /J.Issn.0253-2417.2014.01.0102014
279Bukhari, N A; Muzzammil, N; Loh, S K and Choo, Y M (2014). Characteristics and Palm Oil Mill Effluent (POME) In an Anaerobic Biogas Digester. Asian J. Microbiol. Biotechnol. Environ. Sci., 16(1): 225-231. 2014
280Bukhari, N A; Bakar, N A; Loh, S K and Choo, Y M (2014). Bioethanol Production By Fermentation And Oil Palm Empty Fruit Bunches Pretreated With Combined Chemicals. J. Appl. Environ. Biol. Sci., 4(10): 234-242.2014
281Mohd Ramdhan Khalid, Abd Rahim Shuib and Mohd Solah Deraman (2013). Mechanization: From Field to Mill. The Planter, Vol. 89 No. 1052, November 2013 p. 827-8382013
282Yung, C L; Lau, H L N and Choo, Y M (2013) Physiochemical Properties and Biodiesel Produced from Jatropha Curcas Oil and Palm Oil. J. Oil Palm Res. Vol. 25: 159-164.2013
283Loh, S.K; James, S; Ngatiman, M; Cheong, K.Y; Choo, Y.M; Lim, W.S. (2013). Enhancement and Palm Oil Refinery Waste – Spent Bleaching Earth (SBE) Into Bio Organic Fertilizer and Their Effects On Crop Biomass Growth. Industrial Crops and Products, 49: 775-781.2013
284Subramaniam, V; Menon, N R; Sin, H and Choo Yuen May (2013). The Development and A Residual Oil Recovery System To Increase The Revenue And A Palm Oil Mill. J. Oil Palm Res. Vol. 25 (1): 116-122.2013
285Loh, S K; Lai M E; Ngatiman, M; Lim, W S; Choo Y M; Zhang, Z and Salimon J (2013). Zero Discharge Treatment Technology and Palm Oil Mill Effluent. J. Oil Palm Res. Vol. 25(3): 273-281.2013
286Tan, L;, Yu, Y; Li, X; Zhao, J; Qu, Y; Choo, Y M and Loh, S K (2013). Pretreatment and Empty Fruit Bunch from Oil Palm for Fuel Ethanol Production and Proposed Biorefinery Process. Bioresource Technology, 135: 275-282. 2013
287Zhang, H; Zhou, Y; Li, J; Dai, L; Liu, D; Zhang, J; Choo, Y M and Loh, S K (2013). Pretreatment and Oil Palm Residues by Dilute Alkali For Cellulosic Ethanol Production. Shengwu Gongcheng Xuebao/Chinese Journal and Biotechnology, 29(4): 490-500.2013
288Oh, P P; Chong, M F; Lau, H L N; Chen, J and Choo, Y M (2013). Liquid-Liquid Equilibrium (LLE) Study for Six-Component Transesterification System. Clean Techn Environ Policy., 15: 817–822.2013
289Phang, S; Mustafa, Chu, W; Maniam, L; Ramachandran, S; Nik-Sulaiman, N; Tan, C; Loh, S K; Lau, L and Idris N (2013). Microalgae for Bioremediation and Palm Oil Mill Effluent and Production and Lipid-Rich Biomass for Biofuel. Phycologia 52 (4): 86-87.2013
290Nur Sulihatimarsyila, A W; Lau, H L N and Choo, Y M (2012). Value-Added Products from Palm Sludge Oil. Applied Sciences, 12(11):1199-1202.2012
291Loh, S K and Choo Y M (2012). Influence and A Lubricant Auxiliary by Palm Oil Methyl Esters (POME) On Performance and Palm Olein-Based Fluid. J. Oil Palm Res. Vol. 24(2): 1388-1396.2012
292Subramaniam, V; Choo Y M (2012). Green House Gas Emissions for The Production and Crude Palm Kernel Oil – A Gate To Gate Case Study. J. Oil Palm Res. Vol. 24: 1511-1517.2012
293Oh, P P; Lau, H L N; Chen, J H; Chong, M F and Choo, Y M (2012). A Review on Conventional Technologies and Emerging Process Intensification (Pi) Methods for Biodiesel Production. Renewable and Sustainable Energy Reviews, 16: 5131–5145.2012
294Loo, C H; Basri, M; Ismail, R; Lau, H L N; Tejo, B A; Kanthimathi, M S; Hassan, H A and Choo, Y M (2012). Effect and Compositions in Nanostructured Lipid Carriers (NLC) On Skin Hydration and Occlusion. International Journal and Nanomedicine 2013: 8, 13-22.2012
295loo, C H; Mahiran, B; Bimo. A T; Rosnah, I; Lau, H L N; Hazimah, A H and Choo, Y M (2011). An Improved Method for The Preparations and Nanostructured Lipid Carriers Containing Heat-Sensitive Bioactives. Colloids Surf B Biointerfaces. 2011, 87(1): 180-186. DOI: 10.1016/ j. colsurfb.2011.05.019.2011
296Lau, H L N; Kok, Y C and Choo, Y M (2011) Effects and Nanotag Markers In Palm Methyl Esters And Their Blends With Petroleum Diesel. J. Am. Oil Chem. Soc, 88: 843-849.2011
297Loh, S K; Idris, N and Choo Y M (2011). Production and Distilled Biodiesel Fuels Through Direct Alkaline Transesterification and Used Frying Oil. J. Oil Palm Res. Vol. 23(3): 1136-1141.2011
298Bakar, N A; Lim, W S; N Ravi, M; Choo, Y M and Fadzil, A M (2011). Assessment and The Performance and Potential Export Renewable Energy (Re) From Typical Cogeneration Plants Used in Palm Oil Mills. Engineering and Applied Sciences, 6(6): 433-439.2011
299Bakar, N A; Choo, Y M; Joseph, L; Michael, S; Rohaya, M H; Aziz, A A and Loh, S K (2011). Briquetting and Empty Fruit Bunch Fibre And Shell as A Renewable Energy Fuel. Engineering and Applied Sciences, 6(6): 446-451.2011
300Sukiran, M A; Loh, S K; Bakar, N A and Choo Y M (2011). Production and Characterization and Bio-Char from The Pyrolysis and Empty Fruit Bunches. American Journal of Applied Science, 8(10): 984-9882011
301Loh, S K; Subari, F and Kadir S A S A (2011). Pre-Treatment and Palm Olein-Derived Used Frying Oil as A Feedstock for Non-Food Applications. J. Oil Palm Res. Vol. 23(3): 1186-1192.2011
302Kassim, M A; Bakar, N A, Loh, S K and Aziz, A A (2011). Influence and Solid Loading Concentration, Inoculums Size and Nitrogen Sources on Ethanol Production from Empty Fruit Bunches (EFB) Hydrolysate in Separate Hydrolysis and Fermentation (SHF). Research Journal of Applied Sciences, 6(5):310-319.2011
303Kassim, M A; Loh, S K, Bakar, N A; Aziz, A A and Som, R M (2011). Bioethanol Production From Enzymatically Saccharified Empty Friuit Bunches Hydrolysate Using Saccharomyces Cerevisiae. Research Journal and Environment Sciences, 5(6): 573-586.2011
304Choo. Y M, Muhamad, H, Hashim, Z, Subramaniam, V; Puah, C W and Tan, Y (2011). Determination and GHG Contribution by Subsystems in The Oil Palm Supply Chain Using The LCA Approach. Int. J. Life Cycle Assess., 16, 669–681. 2011
305Subramaniam, V; Halimah, M; Zulkifli, H and Choo, Y M . (2011). Water Footprint for The Oil Palm Industry. Palm Oil Development No 54. June 2011. MPOB. 23-272011
306Amir, R S; Mohd, M M; Lau, Hpa L N, Monir, N; Mahmood, W M Y and Azmi, Z (2011) Physical Properties and Normal Grade Biodiesel and Winter Grade Biodiesel. Int. J. Mol. Sci., 11: 2100-2111.2011
307Nur Sulihatimarsyila, A W; Cheah, K Y; Siew, W L; Choong, T S Y and Chuah, T G (2011). Regeneration and Characterization and Spent Bleaching Clay. J. Oil Palm Res. Vol. 23: 999-1004. 2011
308Nur Sulihatimarsyila, A W; Cheah, K Y; Siew, W L; Choong, T S Y and Chuah, T G (2011). Deoiling Efficiency for Oil Extraction from Spent Bleaching Clay and The Quality and Recovered Oil. J. Oil Palm Res. Vol. 23: 1005-10102011
309Abd Rahim Shuib, Mohd Ramdhan Khalid and Mohd Solah Deraman (2010). Enhancing Field Mechanization in Oil Palm Management. Oil Palm Bulletin 61 (November 2010), p 1-102010
310Abd Rahim Shuib, Mohd Ramdhan Khalid, Wan Ishak Wan Ismail and Norazman Aidros (2010) Oil Palm Mechanical Harvester- A Technical Perspective. MPOB Technology No 32.2010
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312Subramaniam, V; Choo, Y M; Halimah, M; Zulkifli, H; Tan, Y A and Puah, C W (2010). Life Cycle Assessment and The Production and Crude Palm Kernel Oil (Part 3A). J. Oil Palm Res. Vol. 22: 904-9122010
313Subramaniam, V; Ma, A.N. And Choo, Y M (2010). Capturing Biogas: A Means to Reduce Green House Gas Emissions for The Production and Crude Palm Oil. Current Research in Geoscience, 1(1):1-6 2010
314Halimah, M; Zulkifli, H; Subramaniam, V; Tan, Y.A; Puah, C.W; Choo, Y M (2010). Life Cycle Assessment and Oil Palm Seedling Production (Part 1). J. Oil Palm Res. Vol. 22: 878–886.2010
315Loo, C H; Rosnah I; Mahiran, B; Lau, H L N; Bimo, A T; Hazimah, A H and Choo Y M (2010). Testing and Glyceryl Monoesters for Their Anti-Microbial Susceptibility and Their Influence in Emulsions. J. Oil Palm Res. Vol. 22: 846-855. 2010
316Tan, Y.A; Halimah, M; Zulkifli, H; Subramaniam, V; Puah, C W; Chong, C L; Ma, A N; Choo, Y M (2010). Life Cycle Assessment and Refined Palm Oil Production and Fractionation (Part 4). J. Oil Palm Res. Vol. 22: 913–926.2010
317Sukiran, M A; Chin, C M and Bakar N A (2009). Optimization and Pyrolysis and Oil Palm Empty Fruit Bunches. J. Oil Palm Res. Vol. 21: 653-658.2009
318Sukiran, M A, Chin, C M and Bakar N A (2009). Bio-Oils from Pyrolysis and Oil Palm Empty Fruit Bunches. American Journal of Applied Science, 6(5): 869-875.2009
319Subramaniam, V; Ma. A and Choo, Y M (2009). A Gate to Gate Assessment and Environmental Performance for Production and Crude Palm Kernel Oil Using Life Cycle Assessment Approach. American Journal of Environmental Sciences 5(3): 267-272.2009
320Tan, Y A; Chong, C L; Subramaniam, V; Puah, C W; Zulkifli, H; Halimah, M; Ma, A N and Choo, Y M (2009). Life Cycle Assessment – A Tool for Sustainability and Business Opportunity. Oil Palm Bulletin 58, 14-36.2009
321Subramaniam, V; Ma, A N; Choo, Y M and Sulaiman N M N (2008). Environmental Performance and The Milling Process and Malaysian Palm Oil Using the Life Cycle Assessment Approach. American Journal of Environmental Sciences 4(4): 310-315.2008
322Subramaniam, V; Ma, A N; Choo, Y M Nik Meriam N.S (2008). Life Cycle Inventory and The Production and Crude Palm Oil – A Gate to Gate Case Study And 12 Palm Oil Mills. J. Oil Palm Res. Vol. 20: 484-4942008
323Lau, H L N; Choo, Y M; Ma, A N and Chuah, C H (2008). Selective Extraction And Palm Carotene And Vitamin E From Fresh Palm-Pressed Fiber (Elaeis Guineensis) Using Supercritical Co2. J. Food Eng., 84: 289-296.2008
324Bakar, N A; Ma, A N; Mohamad, S; Choo, Y M; Rohaya, M H; Azali, A and Zainal, Z A (2008). Oil Palm Biomass as A Potential Substitution Raw Material for Commercial Biomass Briquettes Production. American Journal of Applied Science 5 (3): 179-183.2008
325Lau, H L N; Choo, C M; Ma, A N and Chuah, C H (2007). Extraction and Identification and Water-Soluble Compounds in Palm-Pressed Fiber by Sc-Co2 And GC-MS. Am. J. Environ. Sci., 3(2): 54-59.2007
326Lau, H L N; Choo, Y M; Ma, A N and Chuah, C H (2007). Extraction and Elaeis Oleifera Mesocarp And Kernel Oils Using Supercritical Carbon Dioxide. J. Sci. Technol. Tropics., 3: 33-38.2007
327Lau, H L N; Choo, Y M; Ma, A N and Chuah, C H (2007). Production and Refined Carotene-Rich Palm Oil from Palm Mesocarp (Elaeis Guinensis) Using Supercritical Carbon Dioxide. J. Food Lipids 14(4): 396-410.2007
328Lau, H L N; Choo, Y M; Ma, A N and Chuah, C H (2006). Quality and Residual Oil from Palm-Pressed Mesocarp Fiber (Elaeis Guineensis) Using Supercritical Co2 With and Without Ethanol. J. Am Oil Chem. Soc., 83(10): 893-898.2006
329Bakar, N A; Chow, M C; Ma A N; Hamdan H and Choo Y M (2006). Blending and Palm Biomass & Coal: An Alternative Fuel for Power Generation in Malaysia. Oil Palm Industry Economic Journal, Vol. 6 Number 2/ 2006.2006
330Yung, C L; Choo, Y M; Cheng, S F; Ma, A N; Chuah, C H and Yus and, B (2006). The Effect and Natural and Synthetic Antioxidants on The Oxidative Stability and Palm Diesel. Fuel, 85: 867-870.2006
331Cheng, S F; Yung, C L; Noorlida, H M D; Choo, Y M; Chuah, C H and Ma, A N (2006). Crystallization and Melting Behavior and Methyl Esters and Palm Oil. American Journal of Applied Sciences, 3(5): 1859-1863.2006
332Lau, H L N; Choo, Y M; Ma, A N and Chuah, C H (2006). Characterization and Supercritical Carbon Dioxide Extraction and Palm Oil (Elaeis Guineensis). J. Food Lipids., 13: 210-221.2006
333Loh, S K, Soo-Mooi Chew, Yuen-May Choo (2006). Oxidative Stability and Storage Behavior and Fatty Acid Methyl Esters (FAME) Derived from Used Palm Oil. J Amer Oil Chem Soc., 83: 947-952.2006
334Loh, S K; Foon, C S; Choo Y M and Ngan, M A (2006). A Study and Residual Oils Recovered from Spent Bleaching Earths: Their Characteristics and Applications. American Journal of Applied Sciences 3(10): 2063-2067.2006
335Loh, S K; Choo Yuen May; Foon, C and Ma Ah Ngan (2006). Recovery and Conversion And Palm-Olein-Derived Used Frying Oil To Methyl Esters For Biodiesel. J. Oil Palm Res. Vol. 18(1): 247-252. 2006
336Choo, Y M; Yung, C L; Cheng, S F; Ma, A N; Hook C C and Yusof Basiron (2005). Key Fuel Properties and Palm Alkyl Esters. Fuel, 84: 1717-1720.2005
337Choo, Y M; Ma, A N; Cheah, K Y; Rusnani, A M; Yap, A K C; Lau, H L N; Cheng, S F; Yung, C L; Puah, C W; Ng, M H and Yusof Basiron (2005). Palm Diesel: Green and Renewable Fuel From Palm Oil. Palm Oil Developments 42: 3-7.2005
338Cheng, S F; Choo, Y M; Yung, C L; Ma, A N and Yusof Basiron (2005). Palm Biodiesel: Gearing Towards Malaysian Biodiesel Standards. Palm Oil Developments 42: 28-34.2005
339Lau, H L N; Puah, C W; Choo, Y M; Ma, A N and Chuah, C H (2005) Simultaneous Quantification and Free Fatty Acids, Free Sterols, Squalene, And Acylglycerol Molecular Species in Palm Oil by High-Temperature Gas Chromatography-Flame Ionization Detector. Lipids, 40(5): 523-528.2005
340Vijaya, S; Ma, A N; and Choo, Y M (2005). The Need for A Life Cycle Based Environmental Initiatives in The Malaysian Oil Palm Industry. MPOB. Palm Oil Engineering Bulletin Issue No. 76.2005
341Vijaya S; Ma, A N and Chow M (2004). Energy Database and The Oil Palm. MPOB. Palm Oil Engineering Bulletin Issue No. 69. 2004
342Bakar, N A; Ma, A N; Mohamad, S and N Ravi, M (2004). A Review on Energy Audits: Do Palm Oil Mills Really Need Them. MPOB. Palm Oil Engineering Bulletin, No.71.2004
343Loh, S K and Choo, Y M (2003). Palm-Based Chiral Compounds. J. Oil Palm Res. Vol. 15(1): 6-11.2003
344Loh, S K and Choo, Y M (2000). Additives for Petroleum Fuels And Lubricants, Bianduels And Bio-Lubricants – A Review. Oil Palm Bulletin, 40: 1-5.2000