Renewable and sustainable bioenergy production from microalgal co-cultivation with palm oil mill effluent (POME) : A review
2016-11-15
org.kosen.entty.User@177f57d4
김채형(avalonkch)
행사&학회소개
1.Introduction
1.1.Bioenergy from oil palm industries
1.2.Microalgae as a new source of bioenergy
2. Palm oil mill processes
2.1.Sterilization process
2.2. Stripping
2.3. Clarification
2.4. Kernel oil recovery
2.5. Solid and liquid wastes from oil palm mill
2.6. POME treatment
3. Bioenergies production from POME
3.1.Biomethane
3.2. Biohydrogen
3.3. Fundamentals of anaerobic digestion
4. Microalgae
4.1.Sources of bioenergy and waste remediatio
4.2. Reactor engineering for microalgal growth and productivity
4.3. Challenges for algal biofuel commercialization
4.4. Anaerobic co-digestion of microalgae
4.5. Co-utilization of microalgae, oil palm biomass and POME
5. Algal biomass co-utilization
5.1.Aerobic and anaerobic treatment of POME
5.2. Biomethane production
6. Conclusion
1.1.Bioenergy from oil palm industries
1.2.Microalgae as a new source of bioenergy
2. Palm oil mill processes
2.1.Sterilization process
2.2. Stripping
2.3. Clarification
2.4. Kernel oil recovery
2.5. Solid and liquid wastes from oil palm mill
2.6. POME treatment
3. Bioenergies production from POME
3.1.Biomethane
3.2. Biohydrogen
3.3. Fundamentals of anaerobic digestion
4. Microalgae
4.1.Sources of bioenergy and waste remediatio
4.2. Reactor engineering for microalgal growth and productivity
4.3. Challenges for algal biofuel commercialization
4.4. Anaerobic co-digestion of microalgae
4.5. Co-utilization of microalgae, oil palm biomass and POME
5. Algal biomass co-utilization
5.1.Aerobic and anaerobic treatment of POME
5.2. Biomethane production
6. Conclusion
보고서작성신청
야자수 오일 생산 공장에서는 야자수 껍질과 함께 오일 생산에서 발생하는 많은 양의 오폐수들이 발생한다. 미세조류를 사용한 야자수 오일 오폐수와의 혐기성 바이오화학 반응을 통해 바이오 메탄을 생산하는 내용을 본 원문은 제시하고 있다.