Biogas Production from Organic wastes and Iron as an Additive – A Short Review

Digestion Process ◽

The World ◽

Iron Based

The world is facing a serious energy crisis and environmental pollution problems due to a sharp increase in the world population. Bioenergy is an eminent solution to these problems. Anaerobic digestion is a green energy technology used worldwide for the conversion of organic waste to biogas. It is reported that organic wastes are hard to digest and need some technical improvement in the anaerobic digestion process to improve biogas yield. Iron-based additives, due to their electron acceptance and donation capabilities, have been emphasized as being exceptional in improving anaerobic digestion process efficiency amongst all other enhancement options. This study reviews the major available types of iron-based additives, their characteristics, and their preparation methods. The preferred iron-based additive that has a significant effect on the enhancement of biogas yield is also discussed. The use of iron-based additives in the anaerobic digestion process with varying dosages and their impact on the biogas generation rate is also being studied. Substrates, operating parameters, and types of anaerobic digesters used in recent studies while researching the effects of iron-based additives are also part of this review. Lastly, this study also confirms that iron-based additives have a significant effect on the reduction rate of the volatile suspended solids, methane content, biogas yield, and volatile fatty acids.

Historical Perspective of the Addition of Magnetic Nanoparticles Into Anaerobic Digesters (2014-2021)

Frontiers in Chemical Engineering ◽

10.3389/fceng.2021.745610 ◽

2021 ◽

Vol 3 ◽

Author(s):

Eudald Casals ◽

Raquel Barrena ◽

Edgar Gonzalez ◽

Xavier Font ◽

Antoni Sánchez ◽

...

Keyword(s):

Organic Matter ◽

Magnetic Nanoparticles ◽

Anaerobic Digestion ◽

Historical Perspective ◽

Research Field ◽

Organic Wastes ◽

Anaerobic Digesters ◽

Digestion Process ◽

Iron Based

The addition of magnetic nanoparticles to batch anaerobic digestion was first reported in 2014. Afterwards, the number of works dealing with this subject has been increasing year by year. The discovery of the enhancement of anaerobic digestion by adding iron-based nanoparticles has created a multidisciplinary emerging research field. As a consequence, in the last years, great efforts have been made to understand the enhancement mechanisms by which magnetic nanoparticles (NPs) addition enhances the anaerobic digestion process of numerous organic wastes. Some hypotheses point to the dissolution of iron as essential iron for anaerobic digestion development, and the state of oxidation of iron NPs that can reduce organic matter to methane. The evolution and trends of this novel topic are discussed in this manuscript. Perspectives on the needed works on this topic are also presented.

Ampelodesmos Mauritanicus Pyrolysis Biochar in Anaerobic Digestion Process: Evaluation of the Biogas Yield

Bioenergy and Biofuels ◽

10.18690/978-961-286-048-6.8 ◽

2017 ◽

Author(s):

Fabio Codignole Luz ◽

Stefano Cordiner ◽

Alessandro Manni ◽

Vincenzo Mulone ◽

Vittorio Rocco ◽

...

Keyword(s):

Anaerobic Digestion ◽

Process Evaluation ◽

Biogas Yield ◽

Research advances in dry anaerobic digestion process of solid organic wastes

AFRICAN JOURNAL OF BIOTECHNOLOGY ◽

10.5897/ajb11.1277 ◽

2011 ◽

Vol 10 (65) ◽

pp. 14242-14253 ◽

Cited By ~ 52

Author(s):

Kumar Jha Ajay ◽

Li Jianzheng ◽

Nies Loring ◽

Zhang Liguo

Keyword(s):

Anaerobic Digestion ◽

Organic Wastes ◽

Digestion Process ◽

Dry Anaerobic Digestion

Designing of lab-scale anaerobic digester equipped with maxblend impeller to evaluate effect of mixing on anaerobic digestion

International Journal of Engineering and Management Sciences ◽

10.21791/ijems.2019.1.50. ◽

2019 ◽

Vol 4 (1) ◽

pp. 404-413

Author(s):

Singh Buta ◽

Zoltán Szamosi ◽

Zoltán Siménfalvi

Keyword(s):

Anaerobic Digestion ◽

Anaerobic Digester ◽

Gas Composition ◽

Operational Parameters ◽

Biogas Yield ◽

Digestion Process ◽

Mixing Intensity ◽

Enhance Efficiency ◽

Gas Volume

Operational parameters can be easily controlled at lab scale experiments for an anaerobic digestion process. Our aim is to design a lab-scale digester equipped with an impeller to investigate how the geometry of impeller and different mixing modes effect the biogas yield of digester. Further, the methods of measuring the gas volume, gas composition, mixing intensity, torque, temperature are discussed in this article. The assembling of 4 liters digester is described which can be operated at various operating parameters which control the anaerobic digestion process. Mixing is very important to enhance efficiency of an anaerobic digester. To attain mixing Maxblend impeller is used in this lab-scale digester due to its better performance for mixing and power consumption. Various design consideration has been described.

Ampelodesmos mauritanicus pyrolysis biochar in anaerobic digestion process: Evaluation of the biogas yield

Energy ◽

10.1016/j.energy.2018.07.196 ◽

2018 ◽

Vol 161 ◽

pp. 663-669 ◽

Cited By ~ 11

Author(s):

Fábio Codignole Luz ◽

Stefano Cordiner ◽

Alessandro Manni ◽

Vincenzo Mulone ◽

Vittorio Rocco ◽

...

Keyword(s):

Anaerobic Digestion ◽

Process Evaluation ◽

Biogas Yield ◽

Demonstration-scale evaluation of a novel high-solids anaerobic digestion process for converting organic wastes to fuel gas and compost

Applied Biochemistry and Biotechnology ◽

10.1007/bf02920180 ◽

1998 ◽

Vol 70-72 (1) ◽

pp. 687-695 ◽

Cited By ~ 3

Author(s):

Christopher J. Rivard ◽

Brian W. Duff ◽

James H. Dickow ◽

Carlton C. Wiles ◽

Nicholas J. Nagle ◽

...

Keyword(s):

Anaerobic Digestion ◽

Organic Wastes ◽

High Solids ◽

Fuel Gas ◽

Scale Evaluation ◽

4491522 Anaerobic digestion process for organic wastes

Biotechnology Advances ◽

10.1016/0734-9750(85)90227-7 ◽

1985 ◽

Vol 3 (1) ◽

pp. 135

Keyword(s):

Anaerobic Digestion ◽

Organic Wastes ◽

Techno-Economic and Environmental Assessment for Biomethane Production and Cogeneration Scenarios From OFMSW In Mexico

10.21203/rs.3.rs-529330/v1 ◽

2021 ◽

Author(s):

Omar Anaya-Reza ◽

María Fe Altamirano-Corona ◽

Gabriel Castelan-Rodríguez ◽

Sergio Adrian García-González ◽

Alfonso Durán-Moreno

Keyword(s):

Anaerobic Digestion ◽

Environmental Impact ◽

Impact Evaluation ◽

Net Present Value ◽

Waste Reduction ◽

Biogas Yield ◽

Digestion Process ◽

Total Investment ◽

Biomethane Production

Abstract Mexico City is one of the largest cities in the world and therefore there is a high generation of waste, of which 44% is equivalent to the Organic Fraction of Municipal Solid Waste (OFMSW). In this work, two case studies are evaluated for the application of biogas obtained in an anaerobic digestion process using OFMSW. CASE I considers obtaining biomethane, while CASE II considers energy cogeneration. The biogas yield was determined and was used to carry out an analysis of the process through an economic and environmental impact evaluation on different amounts of OFMSW (100-500 MT). The net present value of this project does not show the feasibility of the process, unless subsidy support is considered. The value of the smallest subsidy over the total investment to find NPV = 0, is 5.64 % for CASE I and 6.84% for CASE II at 200 MT of OFMSW. The WAste Reduction (WAR) methodology was used, which shows that the potential for environmental impact for the two cases is only 4%. The in-depth research of this work helps to maintain the anaerobic digestion process in a circular economy context, for the supply of energy and the protection of the environment.

APLIKASI THERMAL PRE-TREATMENT LIMBAH TANAMAN JAGUNG (Zea mays) SEBAGAI CO·SUBSTRAT PADA PROSES ANAEROBIK DIGESTI UNTUK PRODUKSI BIOGAS

Jurnal Agritech ◽

10.22146/agritech.10687 ◽

2016 ◽

Vol 36 (01) ◽

pp. 79

Author(s):

Darwin Darwin ◽

Yusmanizar Yusmanizar ◽

Muhammad Ilham ◽

Afrizal Fazil ◽

Satria Purwanto ◽

...

Keyword(s):

Anaerobic Digestion ◽

Corn Stover ◽

Biogas Production ◽

Lag Phase ◽

Total Production ◽

Biogas Yield ◽

Digestion Process ◽

Volatile Solids ◽

Pre Treatment

Thermal pre-treatment was given on corn stover in the purpose of breaking the lignin content; thus, it may help anaerobic microorganisms to convert polymer including cellulose and hemicelluloses into biogas. This study aimed to investigate the effects of thermal pre-treatment on corn stover in anaerobic digestion process related to the production of biogas as well as digestion process efficiency. This research was carried out by utilizing batch reactors where the temperature was maintained at mesophilic conditions above room temperature (33 ± 2 oC). Based on the result, it was known that thermal pre-treatment given on the corn stover may enhance anaerobic digestion process for biogas production at the first 10 days. This condition reduced the time of lag phase during anaerobic digestion. The biogas production of corn stover given thermal pre-treatment was slow at 26 days where their average total production were 12,412.5 mL,12,310 mL at 15 and 25 minutes thermal pre-treatment, respectively while biogas production of non pre-treated corn stover was 12,557 mL. The highest daily biogas production was accomplished by corn stover that was given thermal pre-treatment at 25 minutes (915 mL). Corn stover given with 15 minutes thermal pre-treatment also generated higher daily biogas production at day 9 (772.5 mL) compared with corn stover that was not pre-treated (405 mL). This research also revealed that corn stover given thermal pre-treatment reached higher biogas yield compared with non pre-treated corn stover where their biogas yield were 670.39, 690.65 mL/g volatile solids added at 15 and 25 minutes thermal pre- treatment respectively, and 456.37 mL/g volatile solids added of non pre-treated corn stover.Keywords: Thermal pre-treatment, corn stover, anaerobic digestion, biogas ABSTRAKThermal pre-treatment diberikan pada limbah tanaman jagung dengan tujuan untuk memecahkan kandungan lignin yang terdapat pada limbah tanaman jagung sehingga memudahkan mikroorganisme anaerobik untuk mengkonversi polimer yang berupa selulosa dan hemiselulosa menjadi biogas. Tujuan dari penelitian ini adalah untuk melakukan kajian mengenai penerapan thermal pre-treatment pada limbah tanaman jagung terhadap proses anaerobik digesi yang meliputi efisiensi proses digesi dan produksi biogas yang dihasilkan. Penelitian ini dilakukan dengan menggunakan reaktor tipe batch yang suhunya dipertahankan pada kondisi mesophilic atau di atas rata-rata suhu kamar (33 ± 2 oC). Hasil penelitian diperoleh bahwa thermal pre-treatment yang diberikan pada limbah tanaman jagung mampu mempercepat proses produksi biogas pada 10 hari pertama sehingga dapat mengurangi lag-phase pada proses anaerobik digesi. Limbah tanaman jagung yang diberikan thermal pre-treatment mengalami perlambatan produksi biogas pada hari ke 26 dengan rata-rata total produksi 12.412,5 mL untuk limbah tanaman jagung yang diberikan thermal pre- treatment selama 15 menit, dan 12.310 mL untuk limbah tanaman jagung yang diberikan thermal pre-treatment selama 25 menit, sedangkan limbah tanaman jagung yang tidak diberikan pre-treatment menghasilkan produksi biogas sebesar 12.557 mL pada hari ke 26. Produksi biogas harian tertinggi terjadi pada substrat yang diberikan thermal pre-treatment 25 menit, dengan produksi biogas tertinggi pada hari ke 9 dengan rata-rata produksi sebesar 915 mL. Substrat yang diberikan thermal pre-treatment 15 menit juga memproduksi biogas jauh lebih tinggi (772,5 mL) pada hari ke 9 jika dibandingkan dengan substrat tanpa diberikan pre-treatment yang hanya memproduksi biogas sebesar 405 mL. Data hasil penelitian menunjukkan bahwa limbah tanaman jagung yang diberikan thermal pre-treatment memperoleh biogas yield lebih tinggi dari pada yang tidak diberikan pre-treatment dimana 670,39 mL/g volatile solids untuk thermal pre- treatment 15 menit, 690,65 mL/g volatile solids untuk thermal pre-treatment 25 menit dan 456,37 mL/g volatile solids untuk limbah tanaman jagung yang tidak diberikan pre-treatment.Kata kunci: Thermal pre-treatment, limbah tanaman jagung, anaerobik digesi, biogas