Journal of Agricultural Machinery

with the collaboration of Iranian Society of Mechanical Engineers (ISME)

Current Issue

By Issue

By Author

By Subject

Author Index

Keyword Index

About Journal

Aims and Scope

Indexing and Abstracting

FAQ

Peer Review Process

Journal Metrics

News

Related Links

Article Submission Checklist

Manuscript Structure

Guide Files

Submit Manuscript

Reviewers Guide

Reviewers List

Analysis of different inputs share and determination of energy Indices in broilers production in Mashhad city

Document Type : Research Article

Authors

Department of Biosystems Engineering, Faculty of Agriculture, Ferdowsi University of Mashhad. Mashhad, Iran

Abstract

Introduction
The high energy consumption is one of the serious problems in poultry industry. The poultry industry consume about five percent of total energy sources in different countries, with consideration of losses, it increases up to 16-20%. In the year 2003 also, the Iranian chicken meat consumption per capita was 13.3 kg, while in the year 2013 it increased to 25.9 kg (FAO, 2014). It shows that in the diet of Iranian people, the chicken meat has become a strategic food. Poultry industry is one of the biggest and most developed industries in Iran. In the past two decays, mainly due to population growth and increase demand of white meats, it is necessary to change and improve energy efficiency in this industry.
Technical efficiency of broiler farms in the central region of Saudi Arabia was analyzed through stochastic frontier approach (Alrwis and Francis, 2003). They reported that many farms under study work lower than their total capacity. In the research, the output was chicken meat weight in the term of the kilogram per one period and the inputs were the number of chicks, feed, the total of all variable expenses and fixed input except chicks and feed and the total cost of fixed inputs including building, equipment and machinery used for the broiler houses. They found that the small and large size broiler farms in the Central Region of Saudi Arabia were produced chicken with mean technical efficiency 83 and 88%, respectively (Alrwis and Francis, 2003). Efficiency measurement of broiler production units in Hamadan province was investigated by Fotros and Solgi (2003). They reported that the minimum, maximum and mean technical efficiency under variable return to scale were 12.7, 100 and 64.4%, respectively. Their results showed that technical efficiency at 16.5 (14 units) and 42.35% (24 units) of farms were more than 90 and 70%, respectively (Fotros and Salgi, 2003).
Khorasan Razavi province after Esfahan and Mazandaran provinces is the third largest producer of broilers in Iran. This research was performed because it is necessary to have energy consumption status; also there is a few data about broiler’s energy consumption in Mashhad. In this research, the data of Mashhad’s broilers was analyzed by Data Envelopment Analysis Method. The other objectives of this study were to separate efficient and inefficient units to use energy resource efficiently and determine total energy saving.
Materials and Methods
This study was performed in 2013 in Mashhad, Iran. The data were collected through interviews and questionnaires from 36 poultry farmers for a growing period of April to May. Input energies were the feed, fuel (gas and gas oil), electricity, labor, equipment and chicken, and the output energies were the chicken meat and the manure. The energy consumption for each element was calculated by multiplied amount of inputs/outputs to energy equivalents.
Results and Discussion
The total of input and output energies were obtained 125.2, 24.9 GJ/1000Birds, respectively. Energy indices such as energy ratio, energy efficiency and specific energy were determined to be 0.2, 0.019 kg/MJ and 52.55 MJ/kg, respectively. The highest share of energy consumption were 50.84 and 42.43%, for fuel (natural gas and diesel fuel) and feed respectively, the lowest share among the input energies were 0.39 and 0.06%, for chicken and labor respectively. Comparison of energy in three levels of farm sizes (≤15000, 15000-30000 and ≥30000 chicks) showed the energy ratio for large farms were higher than the other levels.
Data Envelopment Analysis (DEA) was used to evaluate the poultry efficiency. The results showed that 13 poultry units had average technical efficiency (0.93) in the definition of Constant Returns to Scale (CRS), and 21 poultry units had pure technical efficiency (0.99) in the definition of Variable Returns to Scale (VRS).
Conclusion
The Fuel (natural gas and diesel fuel) consumption energy had the highest shares of energy consumption; it is because of the low efficient heating equipment in poultry houses and low fuel prices in Iran. Energy efficiency of broiler farms in Mashhad was obtained 0.2 that show low energy efficiency. Improvements in energy efficiency could be achieved by increasing yield or reducing inputs energies.

Keywords

References
1. Alrwis, K. N., and E. Francis. 2003. Technical efficiency of broiler farms in the central region of Saudi Arabia: Stochastic Frontier Approach. Research Bulletin 116 (1): 5-34.
2. Amid, S. 2013. Evaluating the energy efficiency of broiler production by data envelopment analysis (The Case study: Ardabil.The 8th National Congress on Agr. Machinery Eng. (Biosystem) & Mechanization of Iran, Ferdowsi University of Mashhad. (In Farsi).
3. Atilgan, A., and K. Hayati. 2006. Cultural energy analysis on broiler reared in different capacity poultry houses. Italian Journal of Animal Science 5 (4): 393-400.
4. Bahrami, H., M. Taki, and N. Monjezi. 2011. Optimization of energy consumption for wheat production in Iran using data envelopment analysis (DEA) technique. African Journal of Agricultural Research 6 (27): 5978-5986.
5. Biermann, S., G. W. Rathke, K. J. Hulsbergen, and W. Diepenbrock. 1999. Energy recovery by crops in dependence on the input of mineral fertilizer. Martin- Lutther King University.
6. Celik, L., and O. Ozturkcan. 2003. Effects of dietary supplemental L-carnitine and ascorbic acid on performance, carcass composition and plasma L-carnitine concentration of broiler chicks reared under different temperature. Archives of Animal Nutrition 57 (1): 27-38.
7. Chauhan, N. S., P. K. J. Mohapatra, and K. P. Pandey. 2006. Improving energy productivity in paddy production through benchmarking-An application of data envelopment analysis. Energy Conversion and Management 47: 1063-1085.
8. Cochran, W. G. 1997. Sampling Techniques, Third Edition. John Wiley & Sons. New York.
9. Dashti, G. H., S. Yavari, E. Pishbahar, and B. Hayati. 2012. Effective Factors on the Broiler Firms' Technical Efficiency of the Sonqor- Kolyaee County. Animal Science Researches. 21 (3): 84-95.
10. Esfahani, J., and H. Balali. 2014. Application of Bounded Data Envelopment Analysis to Evaluate Efficiency of Broiler Firms (Case study: South Khorasan Province). Agricultural Economics & Development 28 (1): 45-54. (In Farsi).
11. FAO (Food and Agriculture Organization of the United Nations). 2014. FAOSTAT. Available from: http://faostat.fao.org. Accessed 21 July 2014.
12. Fluck, R. C. 1999. Energy in Farm Production. Elsevier, Amsterdam, pp. 13-29.
13. Fotros, M. H., and M. Solgi. 2003. Measurement of efficiency and return to scale of boiler production units: A case study of Hamden Province. Agricultural Economic Research and Development 2 (38): 47-65.
14. Hatirli, S. A., B. Ozkan, and K. Fert. 2005. An econometric analysis of energy input outputin Turkish agriculture. Renewable and Sustainable Energy Reviews 9: 608-623.
15. Heidari M. D., M. Omid, and A. Akram. 2011. Energy efficiency and econometric analysis of broiler production farms. Energy 36 (11): 6536-6541.
16. Kitani, O., T. Jungbluth, R. M. Peart, and A. Ramdani. 1999. Energy CIGR handbook of agricultural engineering, Volume 5: Energy and biomass engineering. ASAE publication. St Joseph.
17. Kittle, A. P. 1993. Alternate daily cover materials and subtitle, the selection technique Rusmar. Incorporated. West Chester, PA.
18. Kizilaslan, H. 2009. Input–output energy analysis of cherries production in Tokat Province of Turkey. Applied Energy 86 (7): 1354-1358.
19. Mojarad, E., A. A. Kahkha, and M. Sabouhi. 2009. Evaluating Technical Efficiency of Aviculture Units by Stochastic Nonparametric Approach in the Sistan Zone. Agricultural Economics 8 (3): 91-106.
20. Mousavi-Avval, S. H., Sh. Rafiee, A. Jafari, and A. Mohammadi. 2011. Improving energy use efficiency of canola production using data envelopment analysis (DEA) approach. Energy 36: 2765-2772.
21. Najafi-Anari, S., N. Khademolhoseini, K. Jazayeri, and K. Mirzade. Assessing of energy efficiency on broiler farm in the Ahvaze zone. 5th National conference on agriculture machinery and mechanization. 26 August 2008, Mashhad, Iran. (In Farsi).
22. Singh, G., S. Singh, and J. Singh. 2004. Optimization of energy inputs for wheat crop in Punjab. Energy Conversion Management 45: 453-465.
23. Statistical Centre of Iran. 2013. Selected Census Results of the Layer Chicken Farms the year 2012.
24. Taki M., Y. Ajabshirchi, R. Abdi, and M. Akbarpour. 2012. Analysis of Energy Efficiency for Greenhouse Cucumber Production Using Data Envelopment Analysis (DEA) Technique; Case Study: Shahreza Town ship. Journal of Agricultural Machinery 2 (1): 28-38. (In Farsi).
25. YaminiSefat, M. 2013. Modeling of energy efficiency of broiler production units in Alborz Province using artificial neural network (ANN) and studying the impact of education on energy ratio. The 8th National Congress on Agr. Machinery Eng. (Biosystem) & Mechanization of Iran, Ferdowsi University of Mashhad. (In Farsi).
26. Yusuf, S. A., and O. Malomo. 2007. Technical efficiency of poultry egg production in Ogun state: a data envelopment analysis (DEA) approach. International Journal of Poultry Science 6 (9): 622-629.
Send comment about this article
CAPTCHA Image
Journal of Agricultural Machinery
Volume 7, Issue 1 - Serial Number 13
Spring and Summer
2017
Pages 285-297
Files
History
  • Receive Date: 13 July 2014
  • Revise Date: 02 September 2015
  • Accept Date: 28 October 2015
  • First Publish Date: 21 March 2017
Share
How to cite
Statistics