Innovative livestock production technology

Baragunov, Albert Bashirovich; Savvateeva, Irina A.; Kushaev, S. H.; Kumakhov, A. A.; Kudaev, Z. R.

doi:10.1088/1755-1315/421/3/032012

Cited by 8 publications

(6 citation statements)

References 2 publications

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“…For instance, the first principle describes the structured innovative waste management processes at the farm level so that wastes can be reduced and turned into valuable byproducts. Shamsuddoha (2015) and Baragunov et al (2020) report similar practices; for example, poultry waste converts into biogas using modern technology for sustainable outcomes. Evidently, SOSDE is combinable with simulation modeling to test all six principles and determine the best setting for any given operation.…”

Section: Discussionmentioning

confidence: 99%

Sustainability process innovations resulting in new value-added byproducts: principal lessons from second-order system-dynamics engineering (SOSDE)

Shamsuddoha

Woodside

2023

JBIM

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Purpose Second-order system-dynamics engineering (SOSDE) involves constructing and running enterprise manufacturing simulation models with new proposals for operational processes, byproducts, supply chain and/or downstream marketing designs. This paper aims to describe sustainability the principal lessons from enacting SOSDE research for achieving goals in large manufacturing firms. Design/methodology/approach This study is a case research commentary in the agricultural industry that contributes abductively derives six principal lessons from SOSDE research on introducing sustainability-focused manufacturing and product innovations. Operational processes in large-scale poultry processing plants in an emerging market represent the specific industry and firm domain of this case study. Alternative SOSDE simulation models of decisions, materials flow and outcomes with versus without operational innovations were constructed following one-to-one interviews with experienced farm managers and entrepreneurs. Findings The principles demonstrate how large farms in a developing nation (i.e. Bangladesh) go about adopting radically innovative manufacturing, supply chain and marketing operations to improve traditional operations. This study confirms and expands on the general observation that SOSDE can help achieve sustainability and environmental, social and governance goals, contribute new value outcomes by converting unused production wastes into valuable byproducts and introduce design efficiencies in production, supply chain and marketing processes. SOSDE complements, while being a revolutionary departure from, “six sigma management programs” that focus on achieving exceptional and near mistake-free manufacturing operations. Both represent distinct philosophies and sets of actions that sometimes can conflict with one another. Embracing both successfully in the same enterprise is a goal that may appear unreachable, seemingly impossible to achieve and yet represents a manufacturing/marketing epitome that is observable in exceptional enterprises. Research limitations/implications This paper may generate controversy as well as advance interest in applying SOSDE in introductions of improved manufacturing, supply chain and marketing operations aiming to accomplish radical improvements in sustainability goals. Practical implications This commentary describes how using SOSDE and running alternative production simulations with versus without including superior, radically new, process innovations enable the firm to find and eliminate glitches in system changes and reduce the fear associating with breakdowns and financial losses due to inadequate knowledge of operating new industrial procedures and outcomes. Social implications Introductions of superior radically new innovations in industrial manufacturing and marketing via SOSDE frequently include manufacturing firms embracing new environment sustainability objectives and additional marketable byproducts from the firm's main productions lines. This commentary offers details on how this process is enacted in poultry manufacturing in an economically emerging nation. Originality/value Running simulations in SOSDE research offers a low-cost, fast and in-depth method to test “what-if” impacts of enhanced and radical innovations into product/service manufacturing operations – benefits supporting the recommendation to apply systems dynamics in business and industrial marketing.

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Section: Discussionmentioning

confidence: 99%

Sustainability process innovations resulting in new value-added byproducts: principal lessons from second-order system-dynamics engineering (SOSDE)

Shamsuddoha

Woodside

2023

JBIM

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“…• Final cameral clarification of the contours of eroded soils and their complexes based on remote sensing data; • Registration of a soil (soil-erosion) map; delivery and acceptance of field and cartographic works [6][7][8][9][10][11][12].…”

Section: Methodsmentioning

confidence: 99%

Theoretical foundations for designing complexes of anti-erosion measures in the natural and anthropogenic conditions of the area

Апажев

Shekikhachev

Khazhmetov

et al. 2022

IOP Conf. Ser.: Earth Environ. Sci.

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The difference between the regions of Russia in terms of natural and climatic factors, landscapes, soil conditions, environmental conditions associated with the development of industrial production, the degree of urbanization and the development of infrastructure requires fundamentally different approaches to the areas of agricultural production in these regions, which correspond to their specialization, taking into account the listed factors. The specified large variety of natural and anthropogenic conditions and the need for a simplified mastering of the methodology for designing anti-erosion complexes by a large number of specialists require a more flexible, calculation-normative approach to the design of anti-erosion complexes, based on simplified calculations, allowing technologically and impartially to take into account the features of the natural and anthropogenic conditions of the area. Such a calculation-normative approach will make it possible to avoid the template design of anti-erosion complexes during their widespread introduction into production. In this regard, in this article, the theoretical foundations for the design of anti-erosion measures complexes have been developed.

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“…After top dressing with fermented liquid manure, valuable components of the herbage (cereals and legumes) displace broad-leaved weeds. At the same time, environmental pollution is significantly reduced [1][2][3][4].…”

Section: Introductionmentioning

confidence: 99%

Environmentally oriented disposal of waste from agricultural enterprises in a biomethane plant

Апажев

Shekikhachev²,

Fiapshev³

et al. 2022

IOP Conf. Ser.: Earth Environ. Sci.

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The article deals with the problem of using agricultural waste for biogas production. To create the material and technical base of agriculture, it is necessary to widely introduce new technologies for the use of agricultural waste, which account for a significant share of local renewable energy sources, comprehensive mechanization and automation of production processes, as well as specialization and cooperation at all stages. A promising direction for providing agricultural enterprises with cheap energy sources is the processing of biological masses and the production of biogas, the use of agricultural waste, waste from crop production, animal husbandry and poultry farming. Disposal of the aforementioned waste is a serious problem, and the use of biogas plants as installations for obtaining alternative energy resources is the most promising direction for their processing. The use of biogas plants as an alternative energy source is largely determined by their design properties and technological processes. A technological scheme for the use of waste based on an original biomethane plant is proposed, the implementation of which will solve the problem of the practical development of potential energy at least part of bioenergy resources, which is of great importance for the development of rural energy.

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Innovative livestock production technology

Cited by 8 publications

References 2 publications

Sustainability process innovations resulting in new value-added byproducts: principal lessons from second-order system-dynamics engineering (SOSDE)

Sustainability process innovations resulting in new value-added byproducts: principal lessons from second-order system-dynamics engineering (SOSDE)

Theoretical foundations for designing complexes of anti-erosion measures in the natural and anthropogenic conditions of the area

Environmentally oriented disposal of waste from agricultural enterprises in a biomethane plant

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