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All Journal International Journal of Renewable Energy Development Jurnal Litbang: Media Informasi Penelitian, Pengembangan dan IPTEK
Jatmiko Wahyudi, Jatmiko
Research and Development Office, Pati Regency, Jalan Sudirman No. 26 Pati, Central Java 59113
Chemistry Education Energy

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PEMANFAATAN LIMBAH PLASTIK SEBAGAI BAHAN BAKU PEMBUATAN BAHAN BAKAR ALTERNATIF Wahyudi, Jatmiko; Prayitno, Hermain Teguh; Astuti, Arieyanti Dwi
Jurnal Litbang: Media Informasi Penelitian, Pengembangan dan IPTEK Vol 14, No 1 (2018): Juni
Publisher : Jurnal Litbang: Media Informasi Penelitian, Pengembangan dan IPTEK

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (155.969 KB)

Abstract

ENGLISHThe amount of waste generation continued to increase in Indonesia due to economic development and population growth. In addition, the diversity of solid waste becomes another problem since products made from plastics became widely used and were discarded in large amounts. Plastic waste can be converted into fuel through pirolisis in order to reduce the amount of plastic waste as well as to produce alternative fuel. Pyrolysis is a process of thermal degradation in the absence of oxygen. The objective of this study is to investigate and to compare the performace of fuel produced by pyrolisys, kerosene and diesel oil. The performance of those fuels is investigated in 4 parameters including density, burning time, temperature of water and the volume of water evaporated. The result of this study are 1) the density 0.8 g/ml; burning time 4.02 minutes; water temperature 75°C and water evaporated 12.6 ml. 2) Compared to kerosene and diesel oil, the quality of the fuel is lower than kerosene and higher than diesel oil in all parameters. INDONESIAPertumbuhan penduduk dan ekonomi menyebabkan terjadinya peningkatan produksi sampah khususnya sampah plastik. Pirolisis merupakan proses perekahan atau pemecahan rantai polimer menjadi senyawa yang lebih sederhana melalui proses thermal (pemanasan/pembakaran) dengan tanpa maupun sedikit oksigen. Sampah plastik bisa diurai dan diubah menjadi bahan bakar yang memiliki nilai kalor yang tinggi melalui proses pirolisis. Penelitian ini bertujuan untuk mengetahui dan membandingkan kemampuan minyak hasil pirolisis plastik dengan minyak tanah dan solar dalam hal massa jenis, lama pembakaran, temperatur air dan volume air yang hilang (menguap) saat dimasak menggunakan minyak tersebut. Hasil penelitian menunjukkan bahwa 1) massa jenis minyak pirolisis adalah 0,8 g/ml. Waktu yang dibutuhkan untuk membakar habis suatu benda adalah 4,02 menit. Pemasakan air menggunakan bahan bakar minyak pirolisis menghasilkan temperatur 75°C pada waktu pemasakan 4 menit dengan volume air yang hilang (menguap) sebesar 12,6 ml. 2) Dari 4 parameter yang diamati, kualitas minyak pirolisis berada di bawah minyak tanah namun di atas minyak solar.
PEMANFAATAN LIMBAH PLASTIK SEBAGAI BAHAN BAKU PEMBUATAN BAHAN BAKAR ALTERNATIF Wahyudi, Jatmiko; Prayitno, Hermain Teguh; Astuti, Arieyanti Dwi
Jurnal Litbang: Media Informasi Penelitian, Pengembangan dan IPTEK Vol 14, No 1 (2018): Juni
Publisher : Badan Perencanaan Pembangunan Daerah (BAPPEDA) Kabupaten Pati

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (226.82 KB) | DOI: 10.33658/jl.v14i1.109

Abstract

ENGLISHThe amount of waste generation continued to increase in Indonesia due to economic development and population growth. In addition, the diversity of solid waste becomes another problem since products made from plastics became widely used and were discarded in large amounts. Plastic waste can be converted into fuel through pirolisis in order to reduce the amount of plastic waste as well as to produce alternative fuel. Pyrolysis is a process of thermal degradation in the absence of oxygen. The objective of this study is to investigate and to compare the performace of fuel produced by pyrolisys, kerosene and diesel oil. The performance of those fuels is investigated in 4 parameters including density, burning time, temperature of water and the volume of water evaporated. The result of this study are 1) the density 0.8 g/ml; burning time 4.02 minutes; water temperature 75°C and water evaporated 12.6 ml. 2) Compared to kerosene and diesel oil, the quality of the fuel is lower than kerosene and higher than diesel oil in all parameters. INDONESIAPertumbuhan penduduk dan ekonomi menyebabkan terjadinya peningkatan produksi sampah khususnya sampah plastik. Pirolisis merupakan proses perekahan atau pemecahan rantai polimer menjadi senyawa yang lebih sederhana melalui proses thermal (pemanasan/pembakaran) dengan tanpa maupun sedikit oksigen. Sampah plastik bisa diurai dan diubah menjadi bahan bakar yang memiliki nilai kalor yang tinggi melalui proses pirolisis. Penelitian ini bertujuan untuk mengetahui dan membandingkan kemampuan minyak hasil pirolisis plastik dengan minyak tanah dan solar dalam hal massa jenis, lama pembakaran, temperatur air dan volume air yang hilang (menguap) saat dimasak menggunakan minyak tersebut. Hasil penelitian menunjukkan bahwa 1) massa jenis minyak pirolisis adalah 0,8 g/ml. Waktu yang dibutuhkan untuk membakar habis suatu benda adalah 4,02 menit. Pemasakan air menggunakan bahan bakar minyak pirolisis menghasilkan temperatur 75°C pada waktu pemasakan 4 menit dengan volume air yang hilang (menguap) sebesar 12,6 ml. 2) Dari 4 parameter yang diamati, kualitas minyak pirolisis berada di bawah minyak tanah namun di atas minyak solar.
The Determinants Factors of Biogas Technology Adoption in Cattle Farming: Evidences from Pati, Indonesia Wahyudi, Jatmiko
International Journal of Renewable Energy Development Vol 6, No 3 (2017): October 2017
Publisher : Center of Biomass & Renewable Energy, Diponegoro University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.14710/ijred.6.3.235-240

Abstract

Even though biogas technology has been introduced in Indonesia since 1990’s and having the potential, the rate of biogas adoption in Indonesia runs slowly. It is important to understand factors encouraging or discouraging potential adopters to build biogas plant. The development of livestock sector especially cattle farming in Indonesia can be seen as the opportunity to increase the rate of biogas adoption. This study investigated the factors affecting households of cattle farmer to adopt or not to adopt biogas technology. A cross-sectional research survey was carried out by using structured questionnaires as the primary tool to collect data from both biogas adopters and non biogas adopters in Pati regency, Indonesia. Socioeconomic characteristic of potential biogas adopters plays an important role to ensure the adoption of biogas technology sustainable. Socioeconomic characteristic regarding having high social status determines individual to adopt biogas relatively earlier than other members of a social system. Having high income and education enables traditional farmers to finance biogas plant by their own money or access aid from the government or other agencies. Among other attributes of innovation, relative advantage of installing biogas plant is the most determinant attribute to speed the rate of biogas adoption. Having biogas plant was perceived as better option and generated more benefits compared to previous technology or method.Article History: Received May 17th 2017; Received in revised form August 5th  2017; Accepted Sept 6th 2017; Available onlineHow to Cite This Article: Wahyudi, J. (2017) The Determinant Factors of Biogas Technology Adoption in Cattle Farming: Evidences from Pati, Indonesia, Int. Journal of Renewable Energy Development, 6(3), 235-240.https://doi.org/10.14710/ijred.6.3.235-240
Biogas Production in Dairy Farming in Indonesia: A Challenge for Sustainability Wahyudi, Jatmiko; Achmad Kurnani, Tb. Benito; Clancy, Joy
International Journal of Renewable Energy Development Vol 4, No 3 (2015): October 2015
Publisher : Center of Biomass & Renewable Energy, Diponegoro University

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.14710/ijred.4.3.219-226

Abstract

Biogas plays an important role in supporting and ensuring the dairy farming sector remains sustainable. Biogas technology is not only as a method to dispose dairy farming waste but also benefiting economically, socially and environmentally. Biogas technology has been introduced since 1970s and many biogas programmes have been implemented in Indonesia. However compare to other countries like China and India, the dissemination of biogas technology in Indonesia runs quite slowly. There are several factors such as financial, policies and people’s perception hindering biogas use regarding the increase of biogas plants installed in Indonesia. In addition, many installed biogas plants are non-functional due to inadequate maintenance causing users stop to operate biogas plants and influencing potential users to reject adopting the technology. This paper provides an overview of biogas production sustainability which consists of five sustainability dimensions: technical, economic, social, environmental and organizational/institutional sustainability. Understanding the biogas sustainability helps stakeholders to realize that in order to promote biogas technology many sectors must be developed and many institutions must be involved and cooperated. The sustainability of biogas will determine the success of biogas dissemination particularly in dairy farming in the future. 
Co-Authors Arieyanti Dwi Astuti, Arieyanti Dwi Joy Clancy, Joy Prayitno, Hermain Teguh Tb. Benito Achmad Kurnani, Tb. Benito