Palm kernel shell (PKS) is one of the biomass with high potential that can be converted into chemicals. In this study, palm kernel shell (PKS) was converted by pyrolysis method to produce condensed liquid products, gas, and solid. The purpose of this study was to determine the effect of catalyst activation time on yields and characteristics of PKS waste pyrolysis products. The pyrolysis process was carried out at a temperature of 500^oC. Based on the results obtained with the addition of catalysts at 7 hr of activation can reduce the yield of solid products by 1.5% wt and 9.01% wt of liquid and increase the yield of gas products by 10.51% wt. On the characteristics of solid product there is a decrease in volatile matter by 55.04% wt and an increase fixed carbon by 40.27% wt. The gas characteristics, the H₂ and CO gas decreases by 5.43% v/v and 1.36% v/v and the increase in CH₄ and CO₂ gas by 1.07% v/v and 5.72% v/v. Characteristics of the liquid obtained an increase in the amount of acetic acid by 11.75% v/v and decrease phenol compounds by 13.08% v/v. The result liquid product can be applied as a chemical.

Damanik, R., Nurdianto, S. 2017. Pirolisis Tempurung Kelapa Sawit. Tugas Akhir. Universitas Sultan Ageng Tirtayasa.Banten. Indonesia.

Diebold, J. P., Bridgwater, A. V. 1999. Overview of Fast Pyrolisis of Biomass for the Production of Liquid Fuels.Fast Pyrolysis of Biomass. A Handbook, ed. by A.V.Bridgwater. CPL Press. UK.

Directorate General of Plantation. Statistics of Indonesian Plantation. 2014 - 2016. Jakarta.

Garcia, J. R., Bertero, M., Falco, M., Sedran, U. 2014. Catalytic Cracking of Bio-Oils Improved by the Formation of Mesopores by Means of Y Zeolite Desilication. Applied Catalysis A: General. 503: 1-8.

Kim, S. W., Koo, B. S., Lee, D. H. 2014. Catalytic Pyrolysis of Palm Kernel Shell Waste in a Fluidized Bed. Bioresources Technology. 167: 425-432.

Muthia, R. 2011. Peningkatan Kualitas Bio-oil dari Tandan Kosong Kelapa Sawit menggunakan Metode Fast Pyrolysis dengan Katalis Zeolit. Thesis. Universitas Indonesia. Jakarta. Indonesia.

Olifitria, A. 2011. Proses Pembuatan Biooil dari Limbah Kelapa Sawit (Tandan, Cangkang, dan Serat) untuk Bahan Bakar Alternatif dengan Metode Fast Pyrolysis. Skripsi. Universitas Indonesia. Jakarta. Indonesia.

Polii, F. F. 2017. Effects of Activation Temperature and Duration Time on the Quality of the Active Charcoal of Coconut Wood. Jurnal Industri Hasil Perkebunan. 12(2): 21-28.

Putra, K. E. A., Negara, D. N. K. P., Kencanawati, C. I. P. K. 2018. Pengaruh Waktu Karbonasi terhadap Karakteristik Karbon Aktif Bambu Swat (Gigantochloa verticillata). Jurnal Ilmiah Teknik Desain Mekanika. 7(4): 335-340.

Wardana, N. Y., Caroko, N., Thoharudin. 2016. Pirolisis Lambat Campuran Cangkang Kelapa Sawit dan Plastik dengan Katalis Zeolit Alam. Teknoin. 22(5):361-366.

Wijaya, M. M. 2011. Pirolisis Limbah Kayu dan Bambu yang Ramah Lingkungan untuk Menghasilkan Asam Asetat. Thesis. Pascasarjana Institut Pertanian Bogor. Bogor. Indonesia.

Zhang, H., Xiao, R., Jin, B., Shen, D., Chen, R,. Xiao, G. 2013. Catalytic Fast Pyrolysis of Straw Biomass in an Internally Interconnected Fludized Bed to Produce Aromatic and Olefins : Effect of Different Catalyst. Bioresource Technology. 137: 82-87.