Welcome to Surfactant and Bioenergy Research Center IPB

Researches on Bioenergy Development

The bioenergy development was carried out by the strategy optimization of the tropical biological resources utilization to generate renewable and environmentally friendly surfactant product. Bioenergy is needed to substitute petrol energy and increase national energy security and independence that can be done through the decentralization of its production and the implementation of appropriate technology by the community.

Bioenergy development activity is an integrated activity from upstream to downstream. This activity covers researches on:

  1. Breeding and plantation techniques for various bioenergy crops
  2. Bioenergy processing and technology (bioethanol, biodiesel, bioavture, and biomass energy)
  3. Supply chain, management, and sustainability
  4. Micro and macro algae development

Bioenergy Project Experience & Sponsor

  1. Random Mutagenesis Engineering Species of Biofuel microalgae with EMS (ethyl methyl sulfonate) Methode. DIKTI.
  2. Production of Pure Carrageenan and Seaweed of cottonii Based Bioethanol through Ionic liquid Treatment in an integrated and simultant. DIKTI.
  1. Application of  Glycerol and  PFAD Based High Purity Monoglyceride on  Analog Rice Production to Improve Food Security.  DIKTI
  2. Production of Pure Carrageenan and  Seaweed of cottonii Based Bioethanol through Ionic liquid Treatment in an Integrated and simultant. DIKTI.
  3. Random Mutagenesis Engineering Species of Biofuel Microalgae with EMS (ethyl methyl sulfonate) Methode. DIKTI
  4. Quatitative Effects of “Granula” Made from Coal Ash on Plant Growth and Biomass
  1. Domestication and Selection Red Algae as Bioethanol Resources in Thousand Islands, DKI Jakarta.
  2. Biofloculation Engineering for Microalgae Harvesting Environmentally Friendlly. BOPTN IPB.
  1. Biomass and Biochemical Situation in Indonesia. Agrisource, Co. Ltd, Thailand
  2. Castor Field trial. PT Bio Green Land
  3. Development of Anaerobic Technology at Marine Macroalgae for Biogas Production  in the small islands. Rispro LPDP
  4. Development of Marine Microalgae Cultivation Systems for Biofuel Technology Process Using CO2. RIST-POSCO Korea
  5. Biodiesel Project. PT Freeport Indonesia
  6. Selection of Macroalgae Species for Bioethanol Technology Process. RIST-POSCO Korea
  7. Synthesis of Crude Palm Oil Based Bioavture as Fuel Commercial Jet. BOPTN, IPB
  1. FAO Project to Pilot GBEP Sustainability Indicator for Bioenergy in Indonesia, FAO.
  2. Biodiesel Project. PT. Freeport Indonesia
  3. Selection of Macroalgae Species for Bioethanol Technology Process. RIST-POSCO Korea
  4. Development of Marine Microalgae System for Biofuel Technology Process Using CO2. RIST-POSCO Korea
  5. Marine Macroalgae Studies for Species Screening, Characterization and Bioethanol Production. RIST-POSCO Korea
  6. Optimization in Microalgae Species Selection Potential for Producing Microalgae Crude Oil to Support the Economic Feasibility for Biodiesel Production. Ministry of Research and Technology of Indonesia
  7. Synthesis of Palm Oil Based Bioavtur as Fuel Commercial Jet. BOPTN, IPB
  8. Study on The Potential And Prospect of Castor Cake as Organic Fertilizer. Case Study : Tobacco Leaf Plantation on Madura Island. PT. Toray Internasional Indonesia
  9. Life Cycle Assessment to Clear the Net Green House Gas Fluxes and to Establish An Effective Production Model of Jatropha Through Cultivation Methods and Breeding Program. DIKTI, CRIEPI JAPAN
  10. Bioethanol production of macroalgae through Enzymatic Saccharification Techniques , Adaptation and Co – Fermentation Yeast Simultaneous. DIKTI, SMS Mandiri, BRKP, BPPT

 

  1. Macroalgae Bioethanol Production by Enzymatic Saccharification Techniques, Yeast Adaptation, and Co-fermentation of Simultaneous. DIKTI
  2. Marine Macroalgae Studies for Species Screening, Characterization and Bioethanol Production, RIST-KOREA
  3. Development of Marine Microalgae Cultivation Systems for Biofuel Technology Process Using CO2, RIST-KOREA
  4. Seaweed Bioethanol Production Through Enzymatic Sacharification, Yeast Adaptation and Simultaneous Co-fermentation, Directorate General of Higher Education of Indonesia
  5. Life Cycle Assessment to Clear the Net Green House Gas Fluxes and to Establish an Effective Production Model of Jatropha through Cultivation Methods and Breeding Program, Directorate General of Higher Education of Indonesia. CRIEPI, Japan
  6. LCA of Jatropha Production in Indonesia. CRIEPI, Japan
  7. Optimization in Microalgae Species Selection Potential for Producing Microalgae Crude Oil to Support the Economic Feasibility for Biodiesel Production Ministry of Research and Technology of Indonesia
  8. Assesment on The Suitability of Soil and its Nutrition for Agribusines Development in East Kutai- East Kalimantan. MEC Borneo Agri Pte Ltd, Singapore
  9. Establishment of a pilot project of biodiesel from waste cooking oil. PT Freeport Indonesia
  10. Macroalgae Development. Diatom cell Indonesia

 

 

  1. Analysis of Domestic Waste for Microalgae Scenedesmus sp, Directorate General of Higher Education of Indonesia
  2. Improvement of Added Value of Jatropha curcas by Utilization of Jatropha Seedcake for Feed and Bio-Pesticide. Indonesian Center for Estate Crops Research and Development
  3. Utilization of Active Fraction of Jatropha curcas Herbs Extracts as Antimicrobial and Antioxidant Agent in Cosmetics, Directorate General of Higher Education of Indonesia
  4. Utilization of Glycerol Derived from Biodiesel Production as Coal Dust Supressant, PT. Indocement Tunggal Prakarsa, Tbk
  5. Process Design of Bioethanol Dehidration Using Zeolite Molecular Sieve by Vacuum Swing Adsorption Technique, Directorate General of Higher Education of Indonesia
  6. Biopellet Production from Jatropha Seedcake-Emission Reduction.  PT. Indocement Tunggal Prakarsa, Tbk
  7. Improvement of Local Jatropha Genotype and Seed Technology for High Quality Seeds Production, Directorate General of Higher Education of Indonesia
  8. Improvement of Jatropha Genotype (Jatropha curcas L.) through Phisiology, Genetic and Biotechnology Approach, Directorate General of Higher Education of Indonesia
  9. Greenhouse Gas Emission Analysis on Jatropha Plantation by Using Intercropping System: Case study in PT. Indocement Tunggal Prakarsa, CRIEPI
  10. Diversity Analysis of Jatropha Germplasms Using Morphological, Agronomical Marker and Rapd Marker, Ministry of Research and Technology of Indonesia
  1. Greenhouse Gas Emission Analysis on Jatropha Plantation by Using Intercropping System: Case study in PT. Indocement Tunggal Prakarsa, CRIEPI.
  2. Utilization of Glycerol Derived from Biodiesel Production as A Cement Grinding Aid (CGA), PT. Indocement Tunggal Prakarsa, Tbk.
  3. Development of Single Seed Clonal Descent Technology for Jatropha Development,  Directorate General of Higher Education of Indonesia
  4. Aplication of Biopellet from Agricultural Wastes as Alternative Fuel in “Pindang” Industries in West Bogor Regency. Directorate General of Higher Education of Indonesia
  5. Biopellet Production from Various Potential Agricultural Waste in Lampung. Mercy Corps Indonesia
  6. Efficiency Improvement to Support Economical Feasibility of Small Scale Bio ethanol Production, Ministry of Research and Technology of Indonesia
  7. Biosulfur Utilization for Crop Production in Matindok Area, PT. Pertamina EP
  8. Diversity Analysis of Jatropha Germplasms Using Morphological, Agronomical Marker and Rapd Marker, Ministry of Research and Technology of Indonesia