Desenvolvimento sustentável na Amazônia: uma nova abordagem do dendê com o aproveitamento da biomassa residual para a geração de energia. / Sustainable development in the Amazon region: a new approach with the use of palm oil biomass waste to generate energy

Favaro, Felipe Teixeira

17 May 2011

Este trabalho analisa a possibilidade de plantio sustentável de dendê (Elaeis guineensis) e o uso de sua biomassa residual como combustível em uma usina termelétrica para o provimento de energia elétrica em parte do Sistema Isolado, ao sul do Estado de Roraima. Para isso são conjugadas: a análise financeira, os aspectos sociais e as questões ambientais. Parte-se da definição das áreas necessárias para o plantio do dendê e para a instalação da indústria de extração dos óleos de palma e palmiste, associada a uma usina termelétrica movida à biomassa residual de dendê. Em seguida, procede-se a análise financeira, na qual é considerada a venda dos óleos de palma e de palmiste para a indústria alimentícia e de cosméticos, enquanto a biomassa residual (cachos de frutas vazios, cascas e fibras) é utilizada como combustível um uma usina termelétrica de 10MW de potência. A análise conjunta destas atividades indica que é possível obter uma taxa interna de retorno próxima a 16,71% ao ano e um valor presente líquido de R$ 46,9 milhões quando utilizada uma taxa de desconto de 15% ao ano, para um investimento total de R$ 491,5 milhões. Pelo fato de a região analisada estar localizada no Sistema Isolado, foi incorporado ao fluxo de caixa a sub-rogação dos benefícios da Conta Consumo de Combustível. Além de provar-se economicamente viável, no quesito ambiental, o trabalho realiza uma análise quantitativa da redução de emissões de gases de efeito estufa decorrente da substituição das termelétricas a óleo Diesel prevalentes na região pela biomassa residual do dendê. Tal plantio resulta em uma redução de aproximadamente 444 mil toneladas de CO2, assim como promove a recuperação de 28.888 mil hectares de terras degradadas. A análise social, por sua vez, indica que o plantio de dendê permite que cerca de 2.888 famílias permaneçam próximas às suas terras de origem, trabalhando em atividades apropriadas para o bioma amazônico e com uma geração de renda anual de R$ 5.800 somente com o plantio do dendê. / This study examines the viability of a sustainable project with the production of palm (Elaeis guineensis) to supply oil to food or cosmetic industries and the use of the residual biomass as a biofuel by a power plant. The biofuel side of the project aims the provision of electricity in part of the so called Isolated System, in southern Roraima. The analysis combines a financial approach, with social and environmental concerns. The starting point is the definition of the area size for planting the crop and fitting the assumptions of the industries (palm oil mill and biomass-fired power plant). In the procedures it is considered the palm oil and palm kernel oil sales for the food and cosmetics industries, while the residual biomass (empty fruit bunches, shells and fiber) is used as a fuel in a thermoelectric power plant. The analysis points to an internal rate of return close to 16,7% and a net present value of US$27.6 million, using a discount rate of 15% per year, for an investment of US$ 280 million. In environmental perspective, the quantitative analysis points to the reduction in emissions of greenhouse gases from the displacement of the Diesel powered plants, quite common in the region, by residual biomass powered one. Such displacement results in a reduction of approximately 444 thousand tons of CO2, as well as the recovery of 28,888 hectare of deforested areas. In social perspective, the project allows approximately 2,888 families to remain close to their homeland, working in appropriated activities for the local biome, obtaining US$3,400 per year only with palm plantation.

Biomassa Residual Dendê

CO2 Emission Reduction

Desenvolvimento Sustentável

Electricity Generation

Feasibility

Geração Eletricidade

Palm Oil Biomass waste

Redução Emissão CO2

Sustainable Development

Viabilidade

Desenvolvimento sustentável na Amazônia: uma nova abordagem do dendê com o aproveitamento da biomassa residual para a geração de energia. / Sustainable development in the Amazon region: a new approach with the use of palm oil biomass waste to generate energy

Felipe Teixeira Favaro

17 May 2011

Este trabalho analisa a possibilidade de plantio sustentável de dendê (Elaeis guineensis) e o uso de sua biomassa residual como combustível em uma usina termelétrica para o provimento de energia elétrica em parte do Sistema Isolado, ao sul do Estado de Roraima. Para isso são conjugadas: a análise financeira, os aspectos sociais e as questões ambientais. Parte-se da definição das áreas necessárias para o plantio do dendê e para a instalação da indústria de extração dos óleos de palma e palmiste, associada a uma usina termelétrica movida à biomassa residual de dendê. Em seguida, procede-se a análise financeira, na qual é considerada a venda dos óleos de palma e de palmiste para a indústria alimentícia e de cosméticos, enquanto a biomassa residual (cachos de frutas vazios, cascas e fibras) é utilizada como combustível um uma usina termelétrica de 10MW de potência. A análise conjunta destas atividades indica que é possível obter uma taxa interna de retorno próxima a 16,71% ao ano e um valor presente líquido de R$ 46,9 milhões quando utilizada uma taxa de desconto de 15% ao ano, para um investimento total de R$ 491,5 milhões. Pelo fato de a região analisada estar localizada no Sistema Isolado, foi incorporado ao fluxo de caixa a sub-rogação dos benefícios da Conta Consumo de Combustível. Além de provar-se economicamente viável, no quesito ambiental, o trabalho realiza uma análise quantitativa da redução de emissões de gases de efeito estufa decorrente da substituição das termelétricas a óleo Diesel prevalentes na região pela biomassa residual do dendê. Tal plantio resulta em uma redução de aproximadamente 444 mil toneladas de CO2, assim como promove a recuperação de 28.888 mil hectares de terras degradadas. A análise social, por sua vez, indica que o plantio de dendê permite que cerca de 2.888 famílias permaneçam próximas às suas terras de origem, trabalhando em atividades apropriadas para o bioma amazônico e com uma geração de renda anual de R$ 5.800 somente com o plantio do dendê. / This study examines the viability of a sustainable project with the production of palm (Elaeis guineensis) to supply oil to food or cosmetic industries and the use of the residual biomass as a biofuel by a power plant. The biofuel side of the project aims the provision of electricity in part of the so called Isolated System, in southern Roraima. The analysis combines a financial approach, with social and environmental concerns. The starting point is the definition of the area size for planting the crop and fitting the assumptions of the industries (palm oil mill and biomass-fired power plant). In the procedures it is considered the palm oil and palm kernel oil sales for the food and cosmetics industries, while the residual biomass (empty fruit bunches, shells and fiber) is used as a fuel in a thermoelectric power plant. The analysis points to an internal rate of return close to 16,7% and a net present value of US$27.6 million, using a discount rate of 15% per year, for an investment of US$ 280 million. In environmental perspective, the quantitative analysis points to the reduction in emissions of greenhouse gases from the displacement of the Diesel powered plants, quite common in the region, by residual biomass powered one. Such displacement results in a reduction of approximately 444 thousand tons of CO2, as well as the recovery of 28,888 hectare of deforested areas. In social perspective, the project allows approximately 2,888 families to remain close to their homeland, working in appropriated activities for the local biome, obtaining US$3,400 per year only with palm plantation.

Biomassa Residual Dendê

Desenvolvimento Sustentável

Geração Eletricidade

Redução Emissão CO2

Viabilidade

CO2 Emission Reduction

Electricity Generation

Feasibility

Palm Oil Biomass waste

Sustainable Development

Metody snižování emisí oxidu uhličitého / Methods of carbon dioxide emission reduction

Mališ, Jan

January 2009

Master's Thesis is focused on production of CO2 from fossil fuels combustion and the methods of CO2 emission from fossil fuels combustion reduction, resp. pre-combustion and post-combustion separation of CO2. Recapitulation of world consumption of primary energetic resources and carbon dioxide production as a result of theirs combustion in years 1971 - 2006 was made using a number of information sources. Whilst combustion o fossil fuel is related with production of CO2, calculation of emission rate of CO2 from fossil fuels (natural gas, crude oil and coal) was demonstrated. The Case Study of energy and material balances of gas turbine cycle with synthesis of methane from CO2 and from hydrogen which is produced in water splitting was made, using CHEMCAD software.

Improving climate performance of cement production : Developing an assessment framework and applying it to a CEMEX cement production cluster in Germany

Feizaghaei, Roozbeh

January 2011

It is very likely that human being is contributing to the process of global warming. Industrial activities such as cement production are among the largest sources of human-induced greenhouse gas emissions. Therefore, there are ongoing efforts to reduce the CO2 emissions attributed to the cement production. In order to be able to systematically identify, classify, and evaluate the most effective, applicable, and feasible CO2 improvement measures, it is essential to have an assessment framework, which has an environmental management perspective. Such a framework should be able to cover the widest range of potential CO2 improvement measures, therefore it has to have a wide system perspective and consider all material, and energy flows within the industry as useful resources. The first part of this thesis uses the concepts of Industrial Ecology and Industrial Symbiosis as the supporting theoretical concepts for developing such assessment framework. The framework has semi-qualitative approach for assessing different measures and is developed in two parts: (1) generic and (2) site-specific assessment. The first part considers general aspects of the measures such as level of Industrial Symbiosis (i.e. complexity of business approach), the potential of each measure for reducing CO2 emissions, and their technological maturity. The second part assesses the feasibility of the measures regarding the conditions of a specific cement producing system. Aspects such as organizational applicability, technical and infrastructural applicability, and the existing level of implementation of each measure are considered. In the second part of this thesis, the developed framework is applied on a selected cement production system which is a cluster composed of three cement plants in Germany (owned by CEMEX) referred to as the Cluster West. The result of the assessment provides insights about the state-of-the-art of CO2 improvement measures in cement industry in general and also demonstrates which of these measures are most (or least) suited for development in the Cluster West. The production system of the Cluster West has effectively applied CO2 improvement measures in areas such as producing blended cement products, using alternative fuels (and renewable fuels) for clinker production. In addition, its clinker production (the Kollenbach plant that is part of the Cluster West) has relatively good energy efficiency. According to the results of the assessment, CO2 improvement measures such as co-generation (producing electricity from excess heat of the plant), using renewable fuels, using alternative materials for clinker production, and increasing the usage of alternative fuels are among the most applicable choices for further implementation. / In relation with LIU-CEMEX Indsutrial Ecology project (2011)

Industrial Ecology

Industrial Symbiosis

climate change

greenhouse gas emissions

CO2 emission reduction

innovation

business approach

cement production

اکولوژی صنعتی

همزیستی صنعتی

تغییر اقلیم

گازهای گلخانه‌ای

کاهش دی اکسید کربن

نوآوری

سیمان

تولید سیمان