IMPACT OF TECHNICAL INTERVENTIONS ON BIOLOGICAL AND ECONOMIC PERFORMANCE OF CATTLE AND BUFFALOES IN CROP-DAIRY ANIMAL PRODUCTION SYSTEM IN NILE DELTA

The electric motor is always part of the agricultural production system, in particular the animal production system. Its purpose is to equip a technological object with energy to ensure the functioning of the production process. The weak link of electric motors used in animal production is the bearing assemblies due to their wear in the corrosive environment of the premises used in this industry. The aim of the work was to assess the effect of inhibitory protection on the reliability of the bearing assemblies of electric motors for the conditions of their operation in animal husbandry. A theoretical resource distribution of bearing assemblies was chosen, approximated by the three-parameter Weibull distribution. For two groups of bearing assemblies, with and without inhibitory protection, bench tests were carried out to simulate the conditions of animal husbandry. The distributions of the initial wear rate of bearings and the difference between the limiting and initial wear rates were obtained. Using the theoretical distribution, the parameters of Weibull distribution were established. Their analysis showed that the use of the inhibitor “Prana” increases the durability of bearings by 15%, which indicates the advisability of using this protection in animal husbandry conditions.

Download Full-text

Generalized Animal Production System Design and Management Model

Transactions of the ASAE ◽

10.13031/2013.35113 ◽

1979 ◽

Vol 22 (4) ◽

pp. 0850-0856 ◽

Cited By ~ 1

Author(s):

PingSun Leung ◽

Tung Liang ◽

M. P. Mi

Keyword(s):

System Design ◽

Production System ◽

Animal Production ◽

Management Model ◽

Production System Design ◽

Animal Production System

Download Full-text

Economic performance evaluation of Brangus and Nellore cattle breed naturally infested with Rhipicephalus microplus in an extensive production system in Central-West Brazil

Experimental and Applied Acarology ◽

10.1007/s10493-019-00404-1 ◽

2019 ◽

Vol 78 (4) ◽

pp. 565-577 ◽

Cited By ~ 2

Author(s):

Paulino Bonatte Junior ◽

Vinicius da Silva Rodrigues ◽

Marcos Valério Garcia ◽

Leandro de Oliveira Souza Higa ◽

Namor Pinheiro Zimmermann ◽

...

Keyword(s):

Performance Evaluation ◽

Economic Performance ◽

Production System ◽

Cattle Breed ◽

Rhipicephalus Microplus ◽

Nellore Cattle

Download Full-text

Effects of heat stress on the gut health of poultry

Journal of Animal Science ◽

10.1093/jas/skaa090 ◽

2020 ◽

Vol 98 (4) ◽

Cited By ~ 1

Author(s):

Marcos H Rostagno

Keyword(s):

Heat Stress ◽

Stress Response ◽

Production System ◽

Adaptive Response ◽

Intestinal Tract ◽

Scientific Evidence ◽

Gut Health ◽

Heat Stress Response ◽

Targeted Interventions ◽

Animal Production System

Abstract Stress is a biological adaptive response to restore homeostasis, and occurs in every animal production system, due to the multitude of stressors present in every farm. Heat stress is one of the most common environmental challenges to poultry worldwide. It has been extensively demonstrated that heat stress negatively impacts the health, welfare, and productivity of broilers and laying hens. However, basic mechanisms associated with the reported effects of heat stress are still not fully understood. The adaptive response of poultry to a heat stress situation is complex and intricate in nature, and it includes effects on the intestinal tract. This review offers an objective overview of the scientific evidence available on the effects of the heat stress response on different facets of the intestinal tract of poultry, including its physiology, integrity, immunology, and microbiota. Although a lot of knowledge has been generated, many gaps persist. The development of standardized models is crucial to be able to better compare and extrapolate results. By better understanding how the intestinal tract is affected in birds subjected to heat stress conditions, more targeted interventions can be developed and applied.

Download Full-text

Studies of Organic Forage Production System for Animal Production in Korea

Korean Journal of Organic Agricultue ◽

10.11625/kjoa.2014.22.1.155 ◽

2014 ◽

Vol 22 (1) ◽

pp. 155-166

Author(s):

Jong-Duk Kim ◽

Jong-Kwan Kim ◽

Chan-Ho Kwon

Keyword(s):

Production System ◽

Animal Production ◽

Forage Production

Download Full-text

Upcycling of manure with insects: current and future prospects

Journal of Insects as Food and Feed ◽

10.3920/jiff2020.0093 ◽

2021 ◽

pp. 1-16

Author(s):

J.A. Cammack ◽

C.D. Miranda ◽

H.R. Jordan ◽

J.K. Tomberlin

Keyword(s):

Musca Domestica ◽

Production System ◽

Animal Manure ◽

House Fly ◽

Future Prospects ◽

Black Soldier Fly ◽

Alphitobius Diaperinus ◽

Lesser Mealworm ◽

Animal Production System ◽

Coleoptera Tenebrionidae

An unavoidable by-product of any animal production system, be it vertebrate- or invertebrate-based, is the manure generated by the animals themselves. In this review, we focus on the role that insects, particularly the black soldier fly Hermetia illucens (L.) (Diptera: Stratiomyidae), could play in managing the mass amount of manure produced through animal agriculture, and the subsequent commodities that could be generated by such a system. Although the focus of this review is on the black soldier fly, we postulate that other species, including the lesser mealworm Alphitobius diaperinus (Panzer) (Coleoptera: Tenebrionidae) and the house fly Musca domestica L. (Diptera: Muscidae) are also well poised to help with the challenge of managing animal manure, while generating products of value.

Download Full-text

Environmental effects of intensive systems of animal production on the lowlands

Proceedings of the British Society of Animal Science ◽

10.1017/s0308229600030014 ◽

1996 ◽

Vol 1996 ◽

pp. 27-27

Author(s):

D Atkinson ◽

C A Watson

Keyword(s):

Environmental Effects ◽

Farming Systems ◽

Environmental Issues ◽

Animal Production ◽

Environmental Costs ◽

Agricultural Industry ◽

The Public ◽

Group Report ◽

The Uk ◽

Animal Production System

The financial contribution made by Government to the agricultural industry results in the views of the general public on farming practices being of major importance. Environmental issues remain high upon the public agenda and have recently been re-emphasised by two Government publications “People Prosperity and Partnership” and Biodiversity: The UK Steering Group Report”. It remains important therefore that the design of any animal production system should take account of environmental effects and seek to achieve an acceptable balance between financial returns and environmental costs. The development of such a strategy requires information on: - the main environmental characteristics which are influenced by animal production - the extent to which environmental impact might be modified by change in fanning practice - the probable changes in farming systems over the foreseeable future which are likely to influence the environment. Assessments of these factors will require information at both detailed and systems level. These issues are discussed using information from a number of systems trials.

Download Full-text

Integrated Field Management System for LNG Assets: Maximizing Asset Value Through Representative End-To-End Modeling

10.2118/205969-ms ◽

2021 ◽

Author(s):

Osama Hasan Khan ◽

Samad Ali ◽

Mohamed Ahmed Elfeel ◽

Shripad Biniwale ◽

Rashmin Dandekar

Keyword(s):

Decision Making ◽

Economic Performance ◽

Production System ◽

Management System ◽

Plant Operation ◽

Asset Value ◽

Field Management ◽

End To End ◽

Development Alternatives ◽

The Impact

Abstract Effective asset-level decision-making relies on a sound understanding of the complex sub-components of the hydrocarbon production system, their interactions, along with an overarching evaluation of the asset's economic performance under different operational strategies. This is especially true for the LNG upstream production system, from the reservoir to the LNG export facility, due to the complex constraints imposed by the gas processing and liquefaction plant. The evolution of the production characteristics over the asset lifetime poses a challenge to the continued and efficient operation of the LNG facility. To ensure a competitive landed LNG cost for the customer, the economics of the production system must be optimized, particularly the liquefaction costs which form the bulk of the operating expenditure of the LNG supply chain. Forecasting and optimizing the production of natural gas liquids helps improve the asset economics. The risks due to demand uncertainty must also be assessed when comparing development alternatives. This paper describes the application of a comprehensive field management framework that can create an integrated virtual asset by coupling reservoir, wells, network, facilities, and economics models and provides an advisory system for efficient asset management. In continuation of previously published work (Khan, Ali, Elfeel, Biniwale, & Dandekar, 2020), this paper focuses on the integration of a steady-state process simulation model that provides high-fidelity thermo-physical property prediction to represent the gas treatment and LNG plant operation. This is accomplished through the Python-enabled extensibility and generic capability of the field management system. This is demonstrated on a complex LNG asset that is fed by sour gas of varying compositions from multiple reservoirs. An asset wide economics model is also incorporated in the integrated model to assess the economic performance and viability of competing strategies. The impact of changes to the wells and production network system on LNG plant operation is analyzed along with the long-term evolution of the inlet stream specifications. The end-to-end integration enables component tracking throughout the flowing system over time which is useful for contractual and environmental compliance. Integrated economics captures costs at all levels and enables the comparison of development alternatives. Flexible integration of the dedicated domain models reveals interactions that can be otherwise overlooked. The ability of the integrated field management system to allow the modeling of the sub-systems at the ‘right’ level of fidelity makes the solution versatile and adaptable. In addition, the integration of economics enables the maximization of total asset value by improving decision making.

Download Full-text