As one of the power plants that uses coal as an energy source, PT Cirebon Electric Power (PT CEP) is committed to addressing waste problems with the 3R principle. Sludge ash ponds which is waste of the process production has the potential for alternative fuel. This study aims to evaluate the utilization of sludge ash ponds with the main target parameter in the form of calorific value. Based on proximate analysis, sludge pond ash only had a low heating value, around 210 kcal/kg, thus unbeneficial to be used as fuel directly. In order to make efficient utilization, a pyrolysis process was carried out to increase the existing heating value and was obtained at 700 – 870 kcal/kg. Generally, the standard of alternative fuel had minimum heating value of 4500 kcal/kg, therefore the blending process was carried out based on the fuel availability in the industrial site. The results of blending using coal showed that the high heating value of mixed briquette product was achieved at elevated more coal content used. By paying attention to the standard heating value, the ratio composition of ash pond to coal, 20/80 satisfy for utilization, where the heating value was around 4600 kcal/kg. The blending proses using pyrolysis char of ash pond showed un significant effect on the increasing of heating value, for example in a 40/60 ratio, the difference between the two types materials was only 210 kcal/kg. Therefore, pyrolysis pretreatment of sludge ash pond had unsignificant impact compared to the energy expended to run the process

Sludge ash pond; alternative fuel; briquettes

Afandi, S., & Delly, J. (2018). Pengaruh Pemanfaatan Faba (Fly Ash And Bottom Ash) Terhadap Laju Perpindahan Panas Pada Tungku Arang. Jurnal Ilmiah Mahasiswa Teknik Mesin, 3(1), 1-12.

Asof, M., Arita, S., Mukiat, M., Luthfia, L., Andalia, W., & Naswir, M. (2022). Article_Analisis Karakteristik, Potensi dan Pemanfaatan Fly Ash dan Bottom Ash PLTU Industri Pupuk. Jurnal Teknik Kimia.

Badan Standarisasi Nasional. (2002). SNI 03-6414-2002 Pengertian dan Manfaat Fly Ash. Jakarta: Badan Standarisasi Nasional.

Chu, T. Y. J., Ruane, R. J., & Krenkel, P. A. (1978). Characterization and reuse of ash pond effluents in coal-fired power plants. Journal (Water Pollution Control Federation), 2494-2508.

Dirgantara, M., Kristian, N., & Karelius, K. (2019). Evaluasi Prediksi Nilai Higher Heating Value (HHV) Biomassa Berdasarkan Analisis Ultimate: Evaluation of Prediction Higher Heating Value (HHV) of Biomass-Based on Ultimate Analysis. Jurnal Jejaring Matematika dan Sains, 1(2), 107-113.

Faradila, N., & Aqilla, D. S. (2022). Good Environmental Governance Mainstreaming in Preparation for the Implementation of Carbon Trading in Indonesia. The Indonesian Journal of International Clinical Legal Education, 4(4)

Gani, A., Morishita, K., Nishikawa, K., & Naruse, I. (2005). Characteristics of co-combustion of low-rank coal with biomass. Energy & Fuels, 19(4), 1652-1659.

Hernowo, P., Astuti, N., Prabowo, M. A., & Sutoyo, Y. (2017). Pengukuran nilai kalor biomasa bahan baku biofuel. Jurnal Teknologi Vol, 6(2).

Isemin, R., Mikhalev, A., Klimov, D., Grammelis, P., Margaritis, N., Kourkoumpas, D. S., & Zaichenko, V. (2017). Torrefaction and combustion of pellets made of a mixture of coal sludge and straw. Fuel, 210, 859-865.

Lokeshappa, B., & Dikshit, A. K. (2011, January). Disposal and management of flyash. In 2011 International Conference on Life Science and Technology (Vol. 3, pp. 11-14).

Reyseliani, N., Hidayatno, A., & Purwanto, W. W. (2022). Implication of the Paris agreement target on Indonesia electricity sector transition to 2050 using TIMES model. Energy Policy, 169, 113184.

Senapati, M. R. (2011). Fly ash from thermal power plants–waste management and overview. Current science, 1791-1794.

Setyoningrum, T. M., Setiawan, A., & Pamungkas, G. (2018). Pembuatan karbon aktif dari hasil pirolisis ban bekas. Eksergi, 15(2), 54-58.

Sheng, C., & Azevedo, J. L. T. (2005). Estimating the higher heating value of biomass fuels from basic analysis data. Biomass and bioenergy, 28(5), 499-507.

Soncini, R. M., Means, N. C., & Weiland, N. T. (2013). Co-pyrolysis of low rank coals and biomass: Product distributions. Fuel, 112, 74-82.

Wang, D., & Sweigard, R. J. (1996). Characterisation of fly ash and bottom ash from a coal-fired power plant. International Journal Of Surface Mining And Reclamation, 10(4), 181-186.

Wang, G., Zhang, J., Shao, J., Liu, Z., Zhang, G., Xu, T., ... & Lin, H. (2016). Thermal behavior and kinetic analysis of co-combustion of waste biomass/low rank coal blends. Energy Conversion and Management, 124, 414-426.