search
for
 About Bioline  All Journals  Testimonials  Membership  News


Journal of Applied Sciences and Environmental Management
World Bank assisted National Agricultural Research Project (NARP) - University of Port Harcourt
ISSN: 1119-8362
Vol. 14, Num. 1, 2010, pp. 55-58

Journal of Applied Sciences and Environmental Management, Vol. 14, No. 1, March, 2010, pp. 55-58

Proximate composition of some agricultural wastes in Nigeria and their potential use in activated carbon production

Adeyi, Oladayo

Department of Chemistry and Biochemistry ,Bowen University Iwo ,Osun State
* Corresponding author: Adeyi, Oladayo, adeyioladayo350@yahoo.com

Code Number: ja10009

ABSTRACT

The proximate composition of five agricultural wastes were determined and latter subjected to low temperature conversion process in the presence of nitrogen atmosphere.These agricultural wastes are Cocos nucifera husk,Theobroma cacao pod, Kola nitida pods and Plantago major peels(ripe and unripe peels). All the samples investigated have different intrinsic proximate compositions which affect the yields of their respective chars. Out of the sample investigated, Cocos nucifera husk recorded the lowest bulk density (0.0746g/cm3), ash content(3.95%),cellulose contents(0.52%) and has the lowest char yields.On the other hand ,Theobroma cacao pods recorded the highest cellulose content(41.92%),ash contents(12.67%), crude fiber content(33.60%) and has appreciably high char yields. The lignin contents of samples fell in the range of (6.06%-33.60%).The percentages of chars obtained after conversion at 420°C for each of the precursors were relatively lower to those obtained at 360°C.The percentage yield for all the samples fell within the range of 46 - 64% for 360°C and 43 - 58% for 420°C. Hence,because of their high carbon yields and their inherent compositions ,they can serve as precursors for activated carbon production. @ JASEM

Agricultural wastes are all forms of plant-derived or animal-derived material that are considered useless either because they have no known positive economic importance or because they are not grown/raised for any specific purpose.These include woods, herbaceous plants, crops and forest residues,animal wastes etc.In Nigeria ,large quantities of these wastes are produced anually and are vastly under utilised.Although there are reports on the removal of dye stuffs by saw dust(Poots et al. 1976),hard wood (Asfour et al. 1985),peanut shell(Voudrias et al. 1999). Since agricultural wastes are available abundantly at no or low costs,it has the potential to provide a low cost adsorbent for cleaning our environment.Adsorption onto activated carbon appears to be the most interesting from point of view of large scale application,simple technology and cost effectiveness(Kadirvelu and Namasivayam 2003).These activated carbon (commercial) are usually very costly and readily unavailable and therefore can hardly be afforded in most developing countries like Nigeria due to limited availability of foreign exchange.

Activated carbon is prepared by subjecting a precursor or parent material to either a chemical or thermal process to remove non-carbon atom from the material leading to the development of internal porosity,increased surface porosity,and increased surface area.Precursors of activated carbons are materials of inherent porosity,filtrability and high carbon content. In this study we investigated the proximate composition of some agricultural wastes in other to explore their potential for active carbon production.

EXPERIMENTAL AND METHODOLOGY

Materials: Dried pods of cocoa,kola,and coconut husk were collected from a farm in Ogo- Olowa Local Government Area of Ogbomoso,Nigeria, while peels of (ripe and unripe ) of plantago major were collected from Takie area of Ogbomoso North Local Government,Oyo State Nigeria Wet plantago major peels were dried for about 48hours in the sun to ensure that water is removed.The already dried samples of cocoa pods ,coconut husks and kola nuts pods were futher sun dried for 48hours after sand and debris have been removed from them.

Each of the sample materials were ground into smaller sizes by a grinding machine at the wood extraction laboratory,Chemistry Department of University of Ibadan. Each was latter seived into:

(a) <2.360 - 1.000mm particle size
(b) <1.000 -0.500mm particle size
(c) <0.500mm particle size using set of standard sieves of corresponding apertures

The sized samples were stored in polythene bags and labeled prior to analysis and conversion/pyrolysis.

All chemicals used were analar grades and no futher purification were needed.Weight of the sample were taken using H 18 mettler balance of 0.0001g accuracy and gallen kamp oven operating at 105°C was engaged.

Method: Particle size of <2.360 - 1.000mm were used for bulk density and moisture content determination while particle size 1.000 - 0.500mm were used for crude fiber content, ash content, hemicellulose ,lignin and cellulose fraction determination for better result reproducibility for each of the agricultural waste samples investigated.All the proximate analysis were conducted by the methods of Anderson and Ingram 1979.

Carbonization of the samples which involved subjecting 500g of each of the precursors to low temperature conversion process in an innert atmosphere of nitrogen gas was done by the method of Adebowale and Bayer ( 2002). Equal mass of the sample was used during the carbonization experiment. The carbonization was The bulk density and the proximate chemical carried out at two different temperatures of 360°C composition of the samples are presented in table and 420°C in the presence of nitrogen to disallow oxidation of carbon.The conditions of the carbon. The conditions of the experiment were that 1L/mins of Nitrogen flow and 9.7J/min of heating rate were used.All experiments were conducted in triplicates,and all the distillates collected, measured and recorded.

The yield was calculated thus:

RESULT AND DISCUSSION

The bulk density and the proximate chemical composition of the samples are presented in table 1.The bulk densities ranged from 0.074g/cm3 to 0.4675g/cm3 .The values obtained are in accordance with those reported by Adebowale and Bayer 2002 for agricultural hulls.Unripe plantain peels (plantago major) recorded the highest bulk while coconut husk(cocos nucifera) has the lowest.The cocoa pods (Theobroma cacao),Kola nut pods (cola nitida), and ripe plantain peels recorded 0.3591, 0.3233 and 0.4090g/cm3 respectively.

A logical relationship exists between the bulk density of the samples and their corresponding char yields. Table 4 shows the results of char yields at 360°C and 420°C.It was observed that the char yields of the samples tend to increase as the bulk density increases.Kola nut pods and cocoa pods have appreciably high moisture contents of 11.99% and 10.04% respectively and hence the high distillate collected during the carbonization process.The results of condensed matter and char yields are as presented in table 2 and table 3 for carbonization at 360°C and 420°C respectively The ash contents of the samples ranged from 3.95% to 12.67% .The values are relatively higher than those reported by Adebowale and Bayer(2002) for agricultural hulls.The ash contents recorded for coconut husk, cocoa pods, kola nut pods ,ripe plantain peels and unripe plantain peels are 3.95,12.67,7.67,11.73 and 9.51% respectively.Coconut husk and cocoa pods however recorded lowest and highest respectively.The samples with higher ash contents are however found to have high yield as in the case of kola nut.The ash contents are the inorganic content of the samples.The results of lignin and cellulose composition of the samples showed logical relationships with the yield of chars.The cellulose composition ranged from 0.52% to 41.92% for all the agricultural wastes investigated.Coconut husk has the lowest cellulose composition value of 0.52% and the lowest char yields at both temperatures.This could be due to low proportion of lignin content (3.54%) and cellulose contents(0.52).Cocoa pods which have the highest cellulose contents of 41.92% did not however record the highest char yield as shown in Table 4.The reason might be due to high moisture contents of the sample (10.04%) and that the sample contained high proportion of volatile matter , which was observed during carbonization process.

The percentage of lignin in the samples are 3.54,0.95,21.29,1.63 and 1.75% for coconut husk ,cacao pods,kola nut pods,ripe plantain peels and unripe plantain peels respectively.

The crude fiber content values were found to be 30.34,33.60,26.54,6.06,and 6.24% for coconut husk,kolanut pods,ripe plantain peels and unripe plantain peels respectively.Plantain peels recorded appreciably higher yield with unripe plantain the highest.The results of the proximate analysis of the plantain peels showed that it contained high percentage of ash content and relatively high cellulose and hemi cellulose contents.

The values of proximate analysis of kola nut pods showed a high percentage of cellulose content (38.72%),lignin contents(21.29%),hemicellulose content(40.41%) and crude fibers content(26.64%).The char yields of kola nut pods are also very high with 55.38% at 360°C and 54.73 at 420°C as shown in table 4.High yields of kola nut pods could be due to high lignocellulose content of the sample.

Coconut husk,however recorded the lowest char yield of 45.94% at 360°C and 43.34% at 420°C among all agricultural wastes investigated.The proximate analysis revealed that coconut husk has the lowest proportion of cellulose content(0.52%) and low composition of lignin content(3.54%).Lower composition contents of cellulose and lignin could however be responsible for its low char yields. The result of char yields at 360°C and 420°C are in table 2 and 3.The results showed a reduction in char yield from 360°C to 420°C.From table 4, it is revealed that more condensed matter was obtained from charring at 420°C which however could account for a reduction in char yields.

Conclusion

Five different sample of agricultural origin were characterized by their proximate analysis and the samples were further charred in an inert nitrogen atmosphere. Cocoa pods has the highest crude fiber contents, its char yields were also vey high, while coconut husk has the lowest bulk density, cellulose contents and correspondingly low char yields.The result of the analyses showed that all the agricultural wastes investigated could serve as precursors for active carbons and the result of proximate analysis showed that the inherent compositions of each agricultural samples greatly affect the yields of their respective chars.

REFERENCES

  • Adebowale, K O ; Bayer, E (2002). Active carbons from low temperature conversion chars.Electronic J. Eviron.Agric. Food Chem.7(11),3304-3315.
  • Anderson, J M ; Ingram, J S (1979). TSBF Handbook of Methods.CAB,UK.
  • Asfour, H.M . Fadali, O . Nassar M M ;El-Geundi M.S(1985). Equilibrium studies on adsorption of basic dyes on hard wood. J. Chem. Technol.Biotechnol.35A,21-27.
  • Kadirvelu, K.; Namasivayam, C (2003). Activated carbon from coconut coir pith as metal adsorbent:adsorption of Cd(II) from aqeous solution.Adv.Environ.Res.1,471-478.
  • Poots, V.J.P. McKay, G ; Healy J. J (1976). The removal of acid dye from effluent using natural adsorbents II:Wood.Wat.Res. 10,10671070.
  • Voudrias, E . Fytanos, K ; Rozani E (2002). Sorption-Desorption Isotherms of Dyes from aqeous solutions and waste water with different sorbent materials.Int. J. Chem. 4,75-83.

Copyright 2010- Journal of Applied Sciences and Environmental Management

The following images related to this document are available:

Photo images

[ja10009t3.jpg] [ja10009t2.jpg] [ja10009t4.jpg] [ja10009t1.jpg]
Home Faq Resources Email Bioline
© Bioline International, 1989 - 2024, Site last up-dated on 01-Sep-2022.
Site created and maintained by the Reference Center on Environmental Information, CRIA, Brazil
System hosted by the Google Cloud Platform, GCP, Brazil