Abstract. Emissions are the result of human activities that increase the concentration of greenhouse gas gases such as CCl₂F₂, CO₂, N₂O, and  CH₄, Increasing the attention of the gases above will increase the greenhouse effect which ultimately increases the earth's temperature. The existence of a waste management site can produce greenhouse gas emissions from vehicle transportation, composting processes, TPA to recycling. One of the roles of Flamboyan's TPS3R is to reduce the amount of plastic waste by recycling and composting and the residue will go to Cipeucang TPA for landfilling. This is an effort to reduce the amount of organic and non-organic waste, but the recycling, and composting. Landfilling processes can produce CO₂ in the waste processing and distribution process, so it is necessary to calculate the amount of CO₂ from the baseline management of municipal solid waste that will be compared with alternative municipal solid waste scenarios to see the conclusion of the analysis using the Waste Reduction Model (WARM) application. Objectives: The objective of this journal is to calculate the greenhouse gas emission and energy use of TPS3R Flamboyan. Method: The secondary data was obtained from TPS3R Flamboyan’s management. The writer use description analysis. Result: 1.     the inventory calculation result of GHG emission current condition and alternative condition are -5,24 and -6,5. 2.   Total energy use in the current condition is -58,79 and the alternative condition with HDPE recycling is -92,68 Conclusion: 1. the inventory calculation result of GHG emission current condition and alternative condition are -5,24 and -6,5. 2. Total energy Use in the current condition is -58,79 and the alternative condition with HDPE recycling is -92,68.

J. Buchdahl, R. Twigg, and L. Cresswell, Global Warming: Fact Sheet Series for Key Stages 2 and 3, Atmosphere, Climate and Environment Information Programme, Aric, Manchester: Metropolitan University, 2002

E. Teller, L. Wood, and R. Hyde, “Global Warming and Ice Ages: Prospects for Physics-Based Modulation of Global Change,” The 22nd International Seminar on Planetary Emergencies, August 20-23, Italy, 1997.

A. Susandi, Bencana Perubahan Iklim Global dan proyeksi Perubahan Iklim Indonesia, Kelompok Keahlian Sains Atmosfer, ITB, 2006.

T. leily, “Pengaruh Meningkatnya Konsentrasi Karbondioksida di Atmosfer Terhadap Metabolisme Tanaman”, vol 3 np 2 (1998)

Perserikatan bangsa bangsa Indonesia, “Penyebab Dan Dampak Perubahan Iklim”

WMO, WMO Greenhouse Gas Bulletin., no. 13, 2017.

J. G. J. Olivier, et al., Trends in Global CO2 Emissions: 2016 Report, PBL Netherlands Environmental Assessment Agency, Netherlands, 2016, p. 33.

H Yulipriyanto, Studi Jenis, Komposisi, dan Karakter Sampah di Lingkungan Kampus Universitas Negeri Yogyakarta serta Strategi Pengelolaannya.10.21831/jpms.v11i1.12341

M. A. Rajaeifar, et al..”Electricity generation and GHG emission reduction potentials through different municipal solid waste management technologies: A comparative” 2017

Review. “Renewable and Sustainable Energy Reviews”, Volume 79, pp. 414-439.

C. Trois . & R. Jagath,,. “Sustained Carbon Emissions Reductions through Zero Waste Strategies for South African Municipalities.” IntechOpen. 2010