Estimation of Methane Emissions from Mirash Municipal Solid Waste Sanitary Landfill, Differences between IPPC 2006 and LandGEM Method

Dimishkovska, Biserka; Berisha, Afrim; Lisichkov, Kiril

doi:10.12911/22998993/105332

Cited by 11 publications

(13 citation statements)

References 7 publications

(7 reference statements)

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…For instance, the comparison of CH 4 emission approximated with the IPCC model versus the Land-GEM (Land Gas Emissions Model) indicated that the final outcome of the IPCC methodology was higher by 13.1%, while the CH 4 production was lower by 5.5%, respectively. The estimation methods for the emission from the Legoli landfill (Tuscany, Italy) based on three different models (LandGem v3.02, IPCC 2006 and GasSim Lite 1.54) were compared with the findings of spot measurements performed in the landfill with the application of an accumulation chamber and the use of the Kriging method [40]. Not surprisingly, the comparison of the model-driven parameters with the empirical measurements demonstrated that the calculated variables do not reflect real working conditions of the surroundings-direct changes occurring in the landfill should be taken into consideration as well.…”

Section: Discussionmentioning

confidence: 99%

“…In order to estimate the potential CH 4 emission from the surface of a landfill in operation, the First Order Decay Model (IPCC Waste Model) was applied, based on the IPCC standard method for input parameters of a landfill [39]. The IPCC method allows one to estimate the annual amount of CH 4 generation in a waste deposit and the amount of the gas emission as the fugitive emission from the landfill surface to the air [40]. It is assumed that the decomposable organic components contained in the waste decompose slowly over many years, generating CH 4 and CO 2 emissions, respectively.…”

Section: Model Of Emission and Production Of Ch 4 In A Landfillmentioning

confidence: 99%

See 1 more Smart Citation

Emission and Neutralization of Methane from a Municipal Landfill-Parametric Analysis

et al. 2020

View full text Add to dashboard Cite

An attempt was made to estimate the annual production of CH4 at a municipal waste landfill site in Poland. As a matter of fact, the extent of the unorganized emission of CH4 from the landfill surface was approached based on the adopted mathematical model. The Ward agglomeration method for cluster analysis and the Pearson coefficient were employed to evaluate the distance-based similarity measure and to optimize methods for estimating methane emissions from a landfill as well as to verify the input parameters for the model. In order to calculate the content of biodegradable organic parts in the waste, morphological tests of the landfilled waste were performed. Physical quantities, measurements and the actual amount of the landfilled waste as well as the volume of CH4 neutralized in a collective flare were implemented in the model, respectively. The model-based findings and experimental outcome demonstrated stable gas production in the landfill with a high CH4 content. On the other hand, a rather low efficiency of the landfill passive degassing installation indicated the necessity to design and develop its active counterpart with the prospective application of the generated biogas for energy production in a cogeneration system.

show abstract

Section: Discussionmentioning

confidence: 99%

Section: Model Of Emission and Production Of Ch 4 In A Landfillmentioning

confidence: 99%

Emission and Neutralization of Methane from a Municipal Landfill-Parametric Analysis

et al. 2020

View full text Add to dashboard Cite

show abstract

“…Penelitian lainnya juga menyebutkan bahwa CH4 yang berasal dari sanitary landfill jika tidak diolah dengan baik dapat mencapai 4,87 Gg/tahun atau setara dengan 147 x 10 9 kg CO2 eq (Dimishkovska et al, 2019) (Sohoo et al, 2021). Potensi senyawa gas rumah kaca secara keseluruhan untuk ke empat skenario dapat dilihat pada Gambar 5.…”

Section: Hasil Dan Pembahasanunclassified

“…Semakin besar materi organic di dalam kandungan sampah yang diolah menggunakan landfill maka semakin tinggi konsentrasi CH4. Komposisi sampah terbanyak yang dikelola dan diolah menggunakan sanitary landfill ini adalah sisa makanan yang mengandung banyak materi organik (Dimishkovska et al, 2019) (Suryawan et al, 2021).…”

Section: Hasil Dan Pembahasanunclassified

Analisis Sistem Pemilihan dan Daur Ulang Sampah Rumah Tangga di Daerah Perkotaan Menggunakan Pendekatan Life Cycle Assessment (LCA)

Adicita¹,

Afifah²

2022

J. Ilmu Lingk.

View full text Add to dashboard Cite

Secara umum sistem pengelolan sampah padat rumah tangga yang ada di Kota Batam saat ini adalah dari sumber, pewadahan, pengumpulan, pemindahan, pengangkutan dan pemrosesan akhir. Salah satu proses yang dapat berpengaruh pada sistem pengelolaan sampah adalah proses daur ulang. Proses daur ulang belum dilakukan dengan baik dan maksimal karena dari setiap rumah tangga, sampah kemudian dikumpulkan dengan cara digabungkan tanpa memikirkan komponennya. Kurangnya proses pemisahan sampah berdasarkan komposisinya dapat berpengaruh pada lingkungan karena proses pengelolaan dan pengolahan tidak dilakukan dengan semestinya terutama pada saat pandemi seperti ini. Penelitian ini bertujuan untuk menentukan potensi dampak lingkungan dengan membandingkan empat skenario daur ulang yang berhubungan dengan proses pemisahan sampah menggunakan life cycle assessment (LCA). Penelitian akan dibagi menjadi lima tahapan yaitu tahapan pengumpulan data sekunder, penentuan skenario pemisahan sampah dan daur ulang, life cycle assessment (LCA) pengolahan dan analisis data menggunakan perhitungan IPCC dan kesimpulan serta rekomendasi. Hasil menunjukan bahwa skenario pertama yaitu pemisahan dilakukan 0,002% dari total sampah Kota Batam memiliki persentase Global Warming Potential (GWP) tertingi sebesar 36,82% dengan CH4 merupakan potensi senyawa tertinggi yang mempengaruhi persentase GWP.ABSTRACTIn general, the existing municipal solid waste management system in Batam City today is from the source, storage, collection, transfer, transportation and final disposal. One of the processes that can affect the waste management system is recycling. The recycling process has not been carried out optimally and adequately because of every household. Waste is then collected by combining it without thinking about the components. The lack of a waste separation process based on its composition can affect the environment because the management and processing process is not carried out properly, especially during a pandemic like this. This study aims to determine the potential environmental impact by comparing four recycling scenarios related to the waste separation process using a life cycle assessment (LCA). This study was divided into five steps first collected secondary data, determined waste separated and recycling scenario, data analyzed using IPCC, conclusion and recommendation. The results show that the first scenario, i.e. separation is done 0.002% of the total waste in Batam City, has the highest Global Warming Potential (GWP) percentage of 36.82%, with CH4 being the highest potential compound that affects the GWP percentage

show abstract

“…The issue of climate change is inevitable and must be addressed sustainably and appropriately 32) . Climate change can be limited by suitable adaptation and mitigation measures creating public awareness from various institutions local, regional, national and global levels 33) .…”

Section: Ghg Emissions and Cost For All Scenariosmentioning

confidence: 99%

Kosovo Scenario for Mitigation of Greenhouse Gas Emissions from Municipal Waste Management

Berisha¹,

Osmanaj²

2021

Evergreen

Self Cite

View full text Add to dashboard Cite

Solid Waste Management activities have a direct impact on GHG emissions arising from waste. Aim of this study is to calculate emissions from current municipal solid waste management in Kosovo and propose different scenarios for mitigation of GHG emissions from waste management. The IPCC model and SWM-GHG Calculator were used for the calculation of GHG emissions from different waste management options. The most favorable mitigation scenario was the Scenario 3, which considered an advanced solid waste management system. Having in the consideration the current situation, needs for the future, technical infrastructure and financial cost, the most realistic scenario for Kosovo was improved recycling and disposal of waste to sanitary landfill. The assessment presented in this paper is based on data for the year 2016.

show abstract

Estimation of Methane Emissions from Mirash Municipal Solid Waste Sanitary Landfill, Differences between IPPC 2006 and LandGEM Method

Cited by 11 publications

References 7 publications

Emission and Neutralization of Methane from a Municipal Landfill-Parametric Analysis

Emission and Neutralization of Methane from a Municipal Landfill-Parametric Analysis

Analisis Sistem Pemilihan dan Daur Ulang Sampah Rumah Tangga di Daerah Perkotaan Menggunakan Pendekatan Life Cycle Assessment (LCA)

Kosovo Scenario for Mitigation of Greenhouse Gas Emissions from Municipal Waste Management

Contact Info

Product

Resources

About