Diferentes recursos de climatização e sua influência na produção de leite, na termorregulação dos animais e no investimento das instalações. / The influence of some cooling systems on the milk yield, animal thermoregulation and housing investments.

Martello, Luciane Silva

24 June 2002

Este trabalho foi realizado no verão de 2002 e teve como objetivo avaliar a influência de alguns recursos de climatização na produção de leite, na termorregulação dos animais e nos investimentos nas instalações. Foram utilizadas 10 primíparas e 17 vacas em lactação, distribuídas em instalação controle (ICO), instalação com nebulizador associado a ventiladores (ICL) e instalação com tela de sombreamento. A produção de leite e o consumo individual foram medidos diariamente para cada animal. A temperatura retal foi medida três vezes ao dia, em três animais de cada instalação; a temperatura de superfície da pele, três vezes ao dia em todos os animais; e a freqüência respiratória, duas vezes ao dia em todos os animais. Os dados climáticos de cada instalação foram registrados e posteriormente calculados os índices de temperatura e umidade (ITU), de globo negro e umidade (ITGU) e a entalpia. Foram selecionados e analisados 26 dias com entalpia elevada. O índice de globo negro e umidade foi menor no tratamento climatizado, porém a entalpia menor foi observada no tratamento com tela. O índice de temperatura e umidade não diferenciou o ambiente climático das instalações. Índice de temperatura e umidade entre 75 e 76, apesar de considerado estressante por diversas fontes da literatura, não foi associado à condição de estresse pelos animais. As vacas da instalação climatizada apresentaram freqüência respiratória e temperatura de pele significativamente menor em relação às vacas das demais instalações. As primíparas apresentaram freqüências respiratórias e temperaturas retais mais altas do que as vacas, em todos os horários. A maior produção de leite das vacas do tratamento tela foi associada à menor entalpia neste tratamento, em comparação aos demais. Os resultados econômicos demonstraram que foi viável a utilização de tela de sombreamento como recurso para minimizar o calor. / This work was carried out during the summer of 2002. The objective was to evaluate the influence of some cooling systems on the milk yield, animal thermoregulation and housing investments. Ten heifers and seventeen milking cows were distributed in the control housing (ICO), mist & fan housing (ICL) and screen shade (IT). The milk yield and the individual intake were daily measured for each animal. The rectal temperature was measured three times a day with three animals from each treatment. The skin surface temperature was collected three times a day for all the animals and the respiratory frequency two times a day for all the animals. The climatic data of each housing were registered to calculate the temperature humidity index (ITU), the black globe humidity index (ITGU) and enthalpy. Twenty six days of high enthalpy were selected and analyzed. The black globe humidity index was lower for the mist & fan treatment while the lowest enthalpy was observed for the screen shade treatment. The temperature humidity index was not able to differentiate the climatic environment of the houses. The study showed that temperature humidity index between 75 and 76 was not associated with stress conditions for the animals, although many researches propose this situation as stressing. The milking cows in the mist & fan treatment showed respiratory frequency and skin surface temperature significantly lower than the cows in the other treatments. The heifers presented respiratory frequency and rectal temperature higher than the cows in all the registration times. The higher milk yield of the cows in the screen shade treatment was associated with the lower enthalpy on this treatment in comparison with the others. Economic results demonstrated that screen shade was a feasible option to decrease the heat stress of the animals.

ambiência

bovinocultura de leite

climatização

construção rural

cooling systems

dairy cattle

environment

rural housing

termorregulação

thermoregulation

The effect of channeling on the dryout of heated particulate beds immersed in a liquid pool

Reed, Alfred Walters

January 1982

Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 1982. / MICROFICHE COPY AVAILABLE IN ARCHIVES AND ENGINEERING. / Includes bibliographical references. / by Alfred Walters Reed. / Ph.D.

Mechanical Engineering.

Fluidization

Two-phase flow

Heat Transmission

Permeability

Pressurizer surge line Counter Current Flow Limitation during AP600 Mode 5 Cold Shutdown

Colpo, Sarah E.

09 March 1999

Counter Current Flow Limitation (CCFL) was observed in the pressurizer surge line of the Oregon State University APEX facility during test NRC-10. This test simulated a one-inch diameter cold leg break with a failure of three of four of the fourth-stage Automatic Depressurization System (ADS) valves. The result was a high vapor flow rate through ADS 1-3, that caused CCFL in the pressurizer surge line and liquid holdup in the pressurizer. Because this liquid was not available for core cooling, further study of the passive safety systems in the AP600 under Mode 5 Cold Shutdown conditions was deemed necessary. An analysis of the AP600 geometry and the existing CCFL database determined that Kutateladze scaling is appropriate for the APEX and AP600 surge lines. The Kutateladze CCFL correlation was used to assess CCFL in the APEX and AP600 pressurizer surge lines under Mode 5 Cold Shutdown conditions. The results indicate that CCFL would be expected in the pressurizer surge lines at low pressures and decay powers prior to ADS 4 actuation. Test NRC-35 examined CCFL and provided data to benchmark NRC's thermal hydraulic analysis codes. This thesis presents the results of test NRC-35 and the supporting CCFL calculations. / Graduation date: 1999

Simulation of sodium pumps for nuclear power plants

Boadu, Herbert Odame

January 1981

No description available.

Sodium cooled reactors.

Nuclear reactors -- Cooling.

Digital computer simulation.

A variable water flow strategy for energy savings in large cooling systems / Gideon Edgar du Plessis

Du Plessis, Gideon Edgar

January 2013

Large cooling systems consume up to 25% of the total electricity used on deep level mines. These systems are integrated with the water reticulation system to provide chilled service water and cool ventilation air. Improving the energy efficiency of these large cooling systems is an important electrical demand-side management initiative. However, it is critical that the service delivery and system performance be maintained so as to not adversely affect productivity. A novel demand-side management strategy, based on variable water flow, was developed to improve the energy efficiency of large cooling systems like those found on deep mines. The strategy focuses on matching the cooling system supply to the demand through the use of modern energy efficient equipment, such as variable speed drives. The strategy involves the modulation of evaporator, condenser, bulk air cooler and pre-cooling water according to partial load conditions. A unique central energy management system was developed to integrate the proposed strategies on large cooling systems. The system features a generic platform and hierarchical network architecture. Real-time energy management is achieved through monitoring, optimally controlling and reporting on the developed strategy. The system is robust and versatile and can be applied to various large cooling systems. The feasibility of the strategy and energy management system was first investigated through the use of an adapted and verified simulation model and a techno-economic analysis. The strategy was then implemented on four large mine cooling systems and its in situ performance was assessed as experimental validation. The results of the Kusasalethu surface cooling system are discussed in detail as a primary case study while the results of the Kopanang, South Deep South Shaft and South Deep Twin Shaft cooling systems are summarised as secondary case studies. The potential to extend the variable water flow strategy to other industrial cooling systems is assessed through an investigation on the cooling system of the Saldanha Steel plant. Results indicate that, over a period of three months, average electrical load savings of 606-2 609 kW (29.3-35.4%) are realised on the four systems with payback periods of 5-17 months. The average electrical load saving between the sites is 33.3% at an average payback period of 10 months. The service delivery and performance of the cooling system and its critical subsystems are not adversely affected. The potential to extend the method to other large cooling systems is also shown. The developed variable water flow strategy is shown to improve the energy efficiency of large cooling systems, making a valuable contribution towards a more sustainable future. This thesis is presented as a detailed discussion of the entire research process. The key results have also been summarised in a series of five research articles attached as independent annexures. Three articles have been published in international scientific journals, one has been presented at and published in the proceedings of an international conference and one is still under review. / Thesis (PhD (Mechanical Engineering))--North-West University, Potchefstroom Campus, 2013

Energy efficiency

Energy management

Electrical demand-side management

Large cooling systems

Variable water flow

A variable water flow strategy for energy savings in large cooling systems / Gideon Edgar du Plessis

Du Plessis, Gideon Edgar

January 2013

Large cooling systems consume up to 25% of the total electricity used on deep level mines. These systems are integrated with the water reticulation system to provide chilled service water and cool ventilation air. Improving the energy efficiency of these large cooling systems is an important electrical demand-side management initiative. However, it is critical that the service delivery and system performance be maintained so as to not adversely affect productivity. A novel demand-side management strategy, based on variable water flow, was developed to improve the energy efficiency of large cooling systems like those found on deep mines. The strategy focuses on matching the cooling system supply to the demand through the use of modern energy efficient equipment, such as variable speed drives. The strategy involves the modulation of evaporator, condenser, bulk air cooler and pre-cooling water according to partial load conditions. A unique central energy management system was developed to integrate the proposed strategies on large cooling systems. The system features a generic platform and hierarchical network architecture. Real-time energy management is achieved through monitoring, optimally controlling and reporting on the developed strategy. The system is robust and versatile and can be applied to various large cooling systems. The feasibility of the strategy and energy management system was first investigated through the use of an adapted and verified simulation model and a techno-economic analysis. The strategy was then implemented on four large mine cooling systems and its in situ performance was assessed as experimental validation. The results of the Kusasalethu surface cooling system are discussed in detail as a primary case study while the results of the Kopanang, South Deep South Shaft and South Deep Twin Shaft cooling systems are summarised as secondary case studies. The potential to extend the variable water flow strategy to other industrial cooling systems is assessed through an investigation on the cooling system of the Saldanha Steel plant. Results indicate that, over a period of three months, average electrical load savings of 606-2 609 kW (29.3-35.4%) are realised on the four systems with payback periods of 5-17 months. The average electrical load saving between the sites is 33.3% at an average payback period of 10 months. The service delivery and performance of the cooling system and its critical subsystems are not adversely affected. The potential to extend the method to other large cooling systems is also shown. The developed variable water flow strategy is shown to improve the energy efficiency of large cooling systems, making a valuable contribution towards a more sustainable future. This thesis is presented as a detailed discussion of the entire research process. The key results have also been summarised in a series of five research articles attached as independent annexures. Three articles have been published in international scientific journals, one has been presented at and published in the proceedings of an international conference and one is still under review. / Thesis (PhD (Mechanical Engineering))--North-West University, Potchefstroom Campus, 2013

Energy efficiency

Energy management

Electrical demand-side management

Large cooling systems

Variable water flow

Optimal Scheduling for Biocide and Heat Exchangers Maintenance Towards Environmentally Friendly Seawater Cooling Systems

Binmahfouz, Abdullah

2011 August 1900

Using seawater in cooling systems is a common practice in many parts of the world where there is a shortage of freshwater. However, biofouling is one of the major operational problems associated with the usage of seawater in cooling systems. Microfouling is caused by the activities of microorganisms, such as bacteria and algae, producing a very thin layer that sticks to the inside surface of the tubes in heat exchangers. This thin layer has a tremendously negative impact on heat transferred across the heat exchanger tubes in the system. In some instances, even a 250 micrometer thickness of fouling film can reduce the heat exchanger's heat transfer coefficient by 50 percent. On the other hand, macrofouling is the blockage caused by relatively large marine organisms, such as oysters, mussels, clams, and barnacles. A biocide is typically added to eliminate, or at least reduce, biofouling. Typically, microfouling can be controlled by intermittent dosages, and macrofouling can be controlled by continuous dosages of biocide. The aim of this research work is to develop a systematic approach to the optimal operating and design alternatives for integrated seawater cooling systems in industrial facilities. A process integration framework is used to provide a holistic approach to optimizing the design and operation of the seawater cooling system, along with the dosage and discharge systems. Optimization formulations are employed to systematize the decision-making and to reconcile the various economic, technical, and environmental aspects of the problem. Building blocks of the approach include the biocide water chemistry and kinetics, process cooling requirements, dosage scenarios and dynamic profiles, biofilm growth, seawater discharge, and environmental regulations. Seawater chemistry is studied with emphasis on the usage of biocide for seawater cooling. A multi-period optimization formulation is developed and solved to determine: * The optimal levels of dosing and dechlorination chemicals * The timing of maintenance to clean the heat-exchange * The dynamic dependence of the biofilm growth on the applied doses, the seawater-biocide chemistry, the process conditions, and seawater characteristics for each time period. The technical, economic, and environmental considerations of the system are accounted for and discussed through case studies.

Seawater Cooling Systems

Mass & Heat Integration

Energy Conservation

Process Optimization

Biocide Dosing

Seawater Treatment

Avaliacao de tubulacoes trincadas em sistemas primarios de reatores nucleares PWR

JONG, RUDOLF P. de

09 October 2014

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PWR type reactors

Reactor cooling systems

Tubes

Cracks

Crack propagation

fracture mechanics

Analise das instabilidades termo-hidraulicas em um circuito operando em regime de circulacao natural bi-fasico

SESINI, PAULA A.

09 October 2014

Made available in DSpace on 2014-10-09T12:43:02Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:08:23Z (GMT). No. of bitstreams: 1 06171.pdf: 4113918 bytes, checksum: f80c43f20a8b10129dced614d40007ba (MD5) / Dissertacao (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN/CNEN-SP

natural convection

hydraulics

thermal analysis

two-phase flow

coolant loops

reactor cooling systems

c codes

Avaliacao de tubulacoes trincadas em sistemas primarios de reatores nucleares PWR

JONG, RUDOLF P. de

09 October 2014

Made available in DSpace on 2014-10-09T12:49:42Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:03:16Z (GMT). No. of bitstreams: 1 09834.pdf: 11774838 bytes, checksum: 940cf578592bd4491d6495c63535f0a7 (MD5) / Dissertacao (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN/CNEN-SP

pwr type reactors

reactor cooling systems

tubes

cracks

crack propagation

fracture mechanics