Energy efficiency, greenhouse gas emissions, and cost of rice straw collection in the mekong river delta of Vietnam
Collection is still a major challenge in the supply chain of rice straw to prepare feedstock for further use. Straw needs to be gathered from the field and compressed into bales to make it compact and easy to transport. With the introduction of combine harvesters, the collection of rice straw has be...
| Autores principales: | , , , , , |
|---|---|
| Formato: | Journal Article |
| Lenguaje: | Inglés |
| Publicado: |
Elsevier
2016
|
| Acceso en línea: | https://hdl.handle.net/10568/165187 |
| _version_ | 1855534258630688768 |
|---|---|
| author | Van Hung, Nguyen Nguyen, Canh Duc Tran, Tuan Van Hau, Hoa Duc Nguyen, Nghi Thanh Gummert, Martin |
| author_browse | Gummert, Martin Hau, Hoa Duc Nguyen, Canh Duc Nguyen, Nghi Thanh Tran, Tuan Van Van Hung, Nguyen |
| author_facet | Van Hung, Nguyen Nguyen, Canh Duc Tran, Tuan Van Hau, Hoa Duc Nguyen, Nghi Thanh Gummert, Martin |
| author_sort | Van Hung, Nguyen |
| collection | Repository of Agricultural Research Outputs (CGSpace) |
| description | Collection is still a major challenge in the supply chain of rice straw to prepare feedstock for further use. Straw needs to be gathered from the field and compressed into bales to make it compact and easy to transport. With the introduction of combine harvesters, the collection of rice straw has become harder and more costly. This created negative impacts on other businesses that use rice straw. Mechanization of rice straw collection was introduced in Vietnam in 2013 and it has rapidly developed since. Most of the rice straw produced in the dry season in the Mekong River Delta (MD) of Vietnam is collected for mushroom and for livestock fodder production or for use as mulching materials. In order to quantify the performance of the mechanical operation of rice straw collection, this study conducted an analysis of energy efficiency, greenhouse gas emission (GHGE), and cost of rice straw collection in the MD for five collection machines that operated on the same field, the same rice variety, and the same harvest time under a demonstration in the MD. With rice straw yield of 4.72 t per ha, the collection machines operated at a capacity of 0.87–2.47 t per hour. This mechanized operation can reduce labor requirement by 90%. Specific weight of baled straw was from 73 to 104 kg per cubic meter, which is heavier by 50–100% than that of loose-form straw, at a moisture content of 12.4 (±1.21)% in wet basis. Total energy consumption, ranging from 351 to 588 MJ per ton of straw collected, accounted for 10–17% of the total energy input using this collected straw for biogas production. Energy consumption from fossil fuels results in GHGE of 60–165 kg CO2 equivalent per ton of collected straw. The cost of straw collection, which ranged from US$12 to US$18 per ton of straw in the MD, accounted for 10–20% of the total investment cost of biogas or mushroom production. This study illustrated the feasibility of the mechanization of rice straw collection for further processing. Despite the GHGE of this may cause through the consumption of fossil fuels, mechanized rice straw collection creates more benefits such as avoiding in-field burning, producing feedstock for further sustainable processing, and adding value to rice production |
| format | Journal Article |
| id | CGSpace165187 |
| institution | CGIAR Consortium |
| language | Inglés |
| publishDate | 2016 |
| publishDateRange | 2016 |
| publishDateSort | 2016 |
| publisher | Elsevier |
| publisherStr | Elsevier |
| record_format | dspace |
| spelling | CGSpace1651872025-05-14T10:24:21Z Energy efficiency, greenhouse gas emissions, and cost of rice straw collection in the mekong river delta of Vietnam Van Hung, Nguyen Nguyen, Canh Duc Tran, Tuan Van Hau, Hoa Duc Nguyen, Nghi Thanh Gummert, Martin Collection is still a major challenge in the supply chain of rice straw to prepare feedstock for further use. Straw needs to be gathered from the field and compressed into bales to make it compact and easy to transport. With the introduction of combine harvesters, the collection of rice straw has become harder and more costly. This created negative impacts on other businesses that use rice straw. Mechanization of rice straw collection was introduced in Vietnam in 2013 and it has rapidly developed since. Most of the rice straw produced in the dry season in the Mekong River Delta (MD) of Vietnam is collected for mushroom and for livestock fodder production or for use as mulching materials. In order to quantify the performance of the mechanical operation of rice straw collection, this study conducted an analysis of energy efficiency, greenhouse gas emission (GHGE), and cost of rice straw collection in the MD for five collection machines that operated on the same field, the same rice variety, and the same harvest time under a demonstration in the MD. With rice straw yield of 4.72 t per ha, the collection machines operated at a capacity of 0.87–2.47 t per hour. This mechanized operation can reduce labor requirement by 90%. Specific weight of baled straw was from 73 to 104 kg per cubic meter, which is heavier by 50–100% than that of loose-form straw, at a moisture content of 12.4 (±1.21)% in wet basis. Total energy consumption, ranging from 351 to 588 MJ per ton of straw collected, accounted for 10–17% of the total energy input using this collected straw for biogas production. Energy consumption from fossil fuels results in GHGE of 60–165 kg CO2 equivalent per ton of collected straw. The cost of straw collection, which ranged from US$12 to US$18 per ton of straw in the MD, accounted for 10–20% of the total investment cost of biogas or mushroom production. This study illustrated the feasibility of the mechanization of rice straw collection for further processing. Despite the GHGE of this may cause through the consumption of fossil fuels, mechanized rice straw collection creates more benefits such as avoiding in-field burning, producing feedstock for further sustainable processing, and adding value to rice production 2016-11 2024-12-19T12:54:48Z 2024-12-19T12:54:48Z Journal Article https://hdl.handle.net/10568/165187 en Open Access Elsevier Nguyen, Hung Van; Nguyen, Canh Duc; Tran, Tuan Van; Hau, Hoa Duc; Nguyen, Nghi Thanh and Gummert, Martin. 2016. Energy efficiency, greenhouse gas emissions, and cost of rice straw collection in the mekong river delta of Vietnam. Field Crops Research, Volume 198 p. 16-22 |
| spellingShingle | Van Hung, Nguyen Nguyen, Canh Duc Tran, Tuan Van Hau, Hoa Duc Nguyen, Nghi Thanh Gummert, Martin Energy efficiency, greenhouse gas emissions, and cost of rice straw collection in the mekong river delta of Vietnam |
| title | Energy efficiency, greenhouse gas emissions, and cost of rice straw collection in the mekong river delta of Vietnam |
| title_full | Energy efficiency, greenhouse gas emissions, and cost of rice straw collection in the mekong river delta of Vietnam |
| title_fullStr | Energy efficiency, greenhouse gas emissions, and cost of rice straw collection in the mekong river delta of Vietnam |
| title_full_unstemmed | Energy efficiency, greenhouse gas emissions, and cost of rice straw collection in the mekong river delta of Vietnam |
| title_short | Energy efficiency, greenhouse gas emissions, and cost of rice straw collection in the mekong river delta of Vietnam |
| title_sort | energy efficiency greenhouse gas emissions and cost of rice straw collection in the mekong river delta of vietnam |
| url | https://hdl.handle.net/10568/165187 |
| work_keys_str_mv | AT vanhungnguyen energyefficiencygreenhousegasemissionsandcostofricestrawcollectioninthemekongriverdeltaofvietnam AT nguyencanhduc energyefficiencygreenhousegasemissionsandcostofricestrawcollectioninthemekongriverdeltaofvietnam AT trantuanvan energyefficiencygreenhousegasemissionsandcostofricestrawcollectioninthemekongriverdeltaofvietnam AT hauhoaduc energyefficiencygreenhousegasemissionsandcostofricestrawcollectioninthemekongriverdeltaofvietnam AT nguyennghithanh energyefficiencygreenhousegasemissionsandcostofricestrawcollectioninthemekongriverdeltaofvietnam AT gummertmartin energyefficiencygreenhousegasemissionsandcostofricestrawcollectioninthemekongriverdeltaofvietnam |