Evaluating the effect of microalgae biomass on the combustion of coal
- Authors: Ejesieme, Obialo Vitus
- Date: 2013
- Subjects: Co-combustion , Coal -- Combustion , Biomass -- Combustion
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: vital:10435 , http://hdl.handle.net/10948/d1020641
- Description: In this work the combustion characteristics of coal, charcoal, microalgae biomass and blends between these three components were evaluated by means of non-isothermal thermogravimetry. Blends between coal, charcoal and microalgae biomass were made according to the specifications of a D-optimal mixture design so as to be able to model interactions between the three components with maximum precision despite multiple constraints built into the design. These constraints specified that coal can have a minimum value of 70 mass percent in any blend, while microalgae can have a maximum value of 20 mass percent. While coal and charcoal were blended by mixing the two respective dry components, microalgae biomass was incorporated into the blends by first absorbing microalgae onto fine coal from concentrated slurry of the microalgae in water. The microalgae in these blends were therefore intimately associated with the coal. This approach differed substantially from the normal practice of preparing coal – biomass blends (which are usually dry-mixed as for coal – charcoal blends). Proximate analyses of the starting materials showed that the microalgae biomass has a significantly higher volatile matter: fixed carbon content than both coal and charcoal, which should improve the combustion of these materials by providing a more stable combustion flame. Analyses of the thermogravimetric data obtained showed that coal and charcoal have much simpler combustion profiles than microalgae biomass for which five different thermal events could be observed in the DTG combustion profile. Qualitative kinetic analyses showed that the combustion of coal and charcoal follows first-order kinetics, but for microalgae biomass combustion, the first two combustion stages appear to follow first-order kinetics. The TG and DTG profiles for coal, charcoal, microalgae and blends of these three components were used to derive values for the so-called comprehensive combustion property index (S-value), which provides a combined measure of the ease of ignition, rate of combustion, and burn-out temperature. The S-values so obtained were used as response variable for the construction of a response surface model in the experimental domain investigated. Following statistical validation of the response surface model, the model was used to predict an optimum S-value or a blend that would display optimum combustion behaviour. Two optimum blends were obtained from the optimisation process, one in which only charcoal is added to coal, and one in which only microalgae is added to coal. Adding both charcoal and microalgae produced an antagonistic effect compared to when only one of these are used. Qualitative kinetic analyses of the combustion data of blends indicate that blends of coal and charcoal combust in a manner similar to the individual components (hence following first-order kinetics), but blends of coal and microalgae follow more complex kinetics despite the fact that the combustion profile is visibly more simple compared to the combustion profile for microalgae alone.
- Full Text:
- Date Issued: 2013
- Authors: Ejesieme, Obialo Vitus
- Date: 2013
- Subjects: Co-combustion , Coal -- Combustion , Biomass -- Combustion
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: vital:10435 , http://hdl.handle.net/10948/d1020641
- Description: In this work the combustion characteristics of coal, charcoal, microalgae biomass and blends between these three components were evaluated by means of non-isothermal thermogravimetry. Blends between coal, charcoal and microalgae biomass were made according to the specifications of a D-optimal mixture design so as to be able to model interactions between the three components with maximum precision despite multiple constraints built into the design. These constraints specified that coal can have a minimum value of 70 mass percent in any blend, while microalgae can have a maximum value of 20 mass percent. While coal and charcoal were blended by mixing the two respective dry components, microalgae biomass was incorporated into the blends by first absorbing microalgae onto fine coal from concentrated slurry of the microalgae in water. The microalgae in these blends were therefore intimately associated with the coal. This approach differed substantially from the normal practice of preparing coal – biomass blends (which are usually dry-mixed as for coal – charcoal blends). Proximate analyses of the starting materials showed that the microalgae biomass has a significantly higher volatile matter: fixed carbon content than both coal and charcoal, which should improve the combustion of these materials by providing a more stable combustion flame. Analyses of the thermogravimetric data obtained showed that coal and charcoal have much simpler combustion profiles than microalgae biomass for which five different thermal events could be observed in the DTG combustion profile. Qualitative kinetic analyses showed that the combustion of coal and charcoal follows first-order kinetics, but for microalgae biomass combustion, the first two combustion stages appear to follow first-order kinetics. The TG and DTG profiles for coal, charcoal, microalgae and blends of these three components were used to derive values for the so-called comprehensive combustion property index (S-value), which provides a combined measure of the ease of ignition, rate of combustion, and burn-out temperature. The S-values so obtained were used as response variable for the construction of a response surface model in the experimental domain investigated. Following statistical validation of the response surface model, the model was used to predict an optimum S-value or a blend that would display optimum combustion behaviour. Two optimum blends were obtained from the optimisation process, one in which only charcoal is added to coal, and one in which only microalgae is added to coal. Adding both charcoal and microalgae produced an antagonistic effect compared to when only one of these are used. Qualitative kinetic analyses of the combustion data of blends indicate that blends of coal and charcoal combust in a manner similar to the individual components (hence following first-order kinetics), but blends of coal and microalgae follow more complex kinetics despite the fact that the combustion profile is visibly more simple compared to the combustion profile for microalgae alone.
- Full Text:
- Date Issued: 2013
The performance of O R Tambo district municipality regarding water service delivery
- Authors: Xala, Zandile
- Date: 2012
- Subjects: Public administration|zSouth Africa , Local government , Government accountability
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: vital:16141 , http://hdl.handle.net/10948/d1009318 , Public administration|zSouth Africa , Local government , Government accountability
- Description: Access to water services in South Africa still remains a dream for most people, especially those who live in remote areas. The poverty stricken communities of the former Transkei in the Eastern Cape are in need of water and sanitation services. The findings of the study reveal that most community members are dissatisfied with the water service delivery. During an interview with ward 6 residents who reside in an urban area of the OR Tambo District Municipality (ORTDM), they revealed that pipe bursting is one of the main causes why from time to time they do not have water. The other factor is when there is no electricity; the water system depends on the availability of electricity. The South African local government has been mandated to consult with its citizenry in respect of the processes relating to water service delivery. South Africa has developed a wide range of legislation that ensures community consultation on a continuous basis with regard to how water services should be delivered. It is the community‟s right to be consulted and to give input on issues that directly affect them. The researcher used a qualitative research method since it would provide the reader with more insight into how water services are delivered in the ORTDM. Both community members and municipal officials were interviewed. A number of findings have been made during the research. Some community members are of the view that constant community consultation could reduce service delivery protests. Political intervention needs to be made by the leadership with regard to service delivery and more resources need to be committed toward those processes. This study was conducted from April 2012 to November 2012 and was aimed at assessing the performance of OR Tambo District Municipality regarding water service delivery. According to OR Tambo DM (2011/12: 3), the communities through the consultation processes conducted throughout five (5) local municipalities made it clear that ensuring increased access to water and sanitation services is still the main priority.
- Full Text:
- Date Issued: 2012
- Authors: Xala, Zandile
- Date: 2012
- Subjects: Public administration|zSouth Africa , Local government , Government accountability
- Language: English
- Type: Thesis , Masters , MSc
- Identifier: vital:16141 , http://hdl.handle.net/10948/d1009318 , Public administration|zSouth Africa , Local government , Government accountability
- Description: Access to water services in South Africa still remains a dream for most people, especially those who live in remote areas. The poverty stricken communities of the former Transkei in the Eastern Cape are in need of water and sanitation services. The findings of the study reveal that most community members are dissatisfied with the water service delivery. During an interview with ward 6 residents who reside in an urban area of the OR Tambo District Municipality (ORTDM), they revealed that pipe bursting is one of the main causes why from time to time they do not have water. The other factor is when there is no electricity; the water system depends on the availability of electricity. The South African local government has been mandated to consult with its citizenry in respect of the processes relating to water service delivery. South Africa has developed a wide range of legislation that ensures community consultation on a continuous basis with regard to how water services should be delivered. It is the community‟s right to be consulted and to give input on issues that directly affect them. The researcher used a qualitative research method since it would provide the reader with more insight into how water services are delivered in the ORTDM. Both community members and municipal officials were interviewed. A number of findings have been made during the research. Some community members are of the view that constant community consultation could reduce service delivery protests. Political intervention needs to be made by the leadership with regard to service delivery and more resources need to be committed toward those processes. This study was conducted from April 2012 to November 2012 and was aimed at assessing the performance of OR Tambo District Municipality regarding water service delivery. According to OR Tambo DM (2011/12: 3), the communities through the consultation processes conducted throughout five (5) local municipalities made it clear that ensuring increased access to water and sanitation services is still the main priority.
- Full Text:
- Date Issued: 2012
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