Air Conditioning in Aircraft

SummaryThe general requirements for the complete air conditioning of aircraft are discussed in the light of the complete system concept. The author takes into consideration safety, differential pressure, weight saving, power and air supply, passenger comfort, cooling and humidity. Particular systems are then described and there is a section on the test equipment required for the laboratory testing of air conditioning equipment. Cooling systems are taken first and divided into the air cycle system embodying bootstrap, turbine fan, and regenerative applications of cold air units–the vapour cycle system employing a boiling tank and that using proprietary refrigerants; properties of liquid refrigerants are discussed. Regulation of cabin temperature, air flow, humidity, pressure and oxygen is done by control systems and the equipment used is described. Four appendices give (1) suggested detailed requirements for air conditioning equipment and user requirements, (2) sample data and calculations for air conditioning a 100-seater civil transport, (3) some notes on the definition of refrigeration terms and (4) data on pressure losses in aircraft ducts.

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Study on acoustic and flow-induced noise characteristics of L-shaped duct with a shallow cavity

Noise Control Engineering Journal ◽

10.3397/1/376818 ◽

2020 ◽

Vol 68 (3) ◽

pp. 209-225

Author(s):

Masaaki Mori ◽

Kunihiko Ishihara

Keyword(s):

Air Conditioning ◽

Sound Field ◽

Frequency Range ◽

Acoustic Characteristics ◽

Inflow Velocity ◽

Aerodynamic Sound ◽

Noise Characteristics ◽

Flow Induced Noise ◽

Shallow Cavity ◽

Conditioning Equipment

An aerodynamic sound generated by a flow inside a duct is one of the noise pro- blems. Flows in ducts with uneven surfaces such as grooves or cavities can be seen in various industrial devices and industrial products such as air-conditioning equipment in various plants or piping products. In this article, we have performed experiments and simulations to clarify acoustic and flow-induced sound characteris- tics of L-shaped duct with a shallow cavity installed. The experiments and simula- tions were performed under several inflow velocity conditions. The results show that the characteristics of the flow-induced sound in the duct are strongly affected by the acoustic characteristics of the duct interior sound field and the location of the shallow cavity. Especially, it was found that the acoustic characteristics were af- fected by the location of the shallow cavity in the frequency range between 1000 Hz and 1700 Hz.

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Análise da Viabilidade da Troca de Equipmentos de Condicionmamento de ar Como Alternativa para Redução de Custos Operacionais: Estudo de Caso em Uma Instituição de Ensino Fundamental e Médio (Analysis of the Feasibility of Exchange of Air Conditioning Equipment Alternative for Reducing Operating Costs: A Case Study at an Institution of Primary and Secondary Education)

SSRN Electronic Journal ◽

10.2139/ssrn.2141263 ◽

2012 ◽

Author(s):

Luiz Felipe de Araújo Pontes Girão ◽

João Marcelo Alves Macedo ◽

Vinícius Gomes Martins ◽

Augusto Cezar da Cunha e Silva Filho

Keyword(s):

Secondary Education ◽

Air Conditioning ◽

Operating Costs ◽

Primary And Secondary Education ◽

Conditioning Equipment

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Allergies to molds caused by fungal spores in air conditioning equipment

Environment International ◽

10.1016/0160-4120(89)90024-x ◽

1989 ◽

Vol 15 (1-6) ◽

pp. 177-179 ◽

Cited By ~ 9

Author(s):

Martin Schata ◽

Wolfgang Jorde ◽

J.H. Elixmann ◽

H.F. Linskens

Keyword(s):

Air Conditioning ◽

Fungal Spores ◽

Conditioning Equipment

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Air conditioning equipment using dc power supply system

2017 IEEE International Telecommunications Energy Conference (INTELEC) ◽

10.1109/intlec.2017.8214140 ◽

2017 ◽

Cited By ~ 2

Author(s):

Kazuto Yukita ◽

Tadashi Hosoe ◽

Shunsuke Horie ◽

Toshiro Matsumura ◽

Masayoshi Hamanaka ◽

...

Keyword(s):

Power Supply ◽

Air Conditioning ◽

Power Supply System ◽

Supply System ◽

Dc Power ◽

Dc Power Supply ◽

Conditioning Equipment

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Methodology for Energy Optimization in Wastewater Treatment Plants. Phase II: Reduction of Air Requirements and Redesign of the Biological Aeration Installation

Water ◽

10.3390/w12041143 ◽

2020 ◽

Vol 12 (4) ◽

pp. 1143

Author(s):

Ana Belén Lozano Avilés ◽

Francisco Del Cerro Velázquez ◽

Mercedes Llorens Pascual Del Riquelme

Keyword(s):

Wastewater Treatment ◽

Energy Consumption ◽

Phase Ii ◽

Wastewater Treatment Plants ◽

Energy Optimization ◽

Treatment Plant ◽

Pressure Losses ◽

San Pedro ◽

Air Supply ◽

Optimization Methodology

Phase I of the proposed energy optimization methodology showed how the selection of best management criteria for the biological aeration process, and the guarantee of its control at the wastewater treatment plant (WWTP) in San Pedro del Pinatar (Murcia, Spain) produced reductions of around 20% in energy consumption by considerably reducing the oxygen needs of the microorganisms in the biological system. This manuscript focused on phase II of this methodology, which describes the tools that can be used to detect and correct deviations in the optimal operating points of the aeration equipment and the intrinsic deficiencies in the installation, in order to achieve optimization of the oxygen needs by the microorganisms and improve the efficiency of their transfer from the gas phase to the liquid phase. The objectives pursued were: (i) to minimize the need for aeration, (ii) to reduce the pressure losses in the installation, (iii) to optimize the air supply pressures to avoid excessive energy consumption for the same airflow, and (iv) to optimize the control strategy for the actual working conditions. The use of flow modeling and simulation techniques, the measurement and calculation of air transfer efficiency through the use of off-gas hoods, and the redesign of the aeration facility at the San Pedro del Pinatar WWTP were crucial, and allowed for reductions in energy consumption in Phase II of more than 20%.

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Performance Characteristics of Solid-Desiccant Evaporative Cooling Systems

Energies ◽

10.3390/en11102574 ◽

2018 ◽

Vol 11 (10) ◽

pp. 2574 ◽

Cited By ~ 4

Author(s):

Ramadas Narayanan ◽

Edward Halawa ◽

Sanjeev Jain

Keyword(s):

Air Conditioning ◽

Natural Ventilation ◽

Waste Heat ◽

Numerical Study ◽

Evaporative Cooling ◽

Peak Load ◽

Dew Point ◽

Low Grade ◽

Subtropical Climate ◽

Cooling Systems

Air conditioning accounts for up to 50% of energy use in buildings. Increased air-conditioning-system installations not only increase total energy consumption but also raise peak load demand. Desiccant evaporative cooling systems use low-grade thermal energy, such as solar energy and waste heat, instead of electricity to provide thermal comfort. This system can potentially lead to significant energy saving, reduction in carbon emissions, and it has a low dew-point operation and large capacity range. Their light weight, simplicity of design, and close-to-atmospheric operation make them easy to maintain. This paper evaluates the applicability of this technology to the climatic conditions of Brisbane, Queensland, Australia, specifically for the residential sector. Given the subtropical climate of Brisbane, where humidity levels are not excessively high during cooling periods, the numerical study shows that such a system can be a potential alternative to conventional compression-based air-conditioning systems. Nevertheless, the installation of such a system in Brisbane’s climate zone requires careful design, proper selection of components, and a cheap heat source for regeneration. The paper also discusses the economy-cycle options for this system in such a climate and compares its effectiveness to natural ventilation.

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Effect of Air Conditioning Position on Thermal Comfort in the Floor Air Conditioning System

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.493.74 ◽

2014 ◽

Vol 493 ◽

pp. 74-79

Author(s):

Y.A. Sabtalistia ◽

S.N.N. Ekasiwi ◽

B. Iskandriawan

Keyword(s):

Fluid Dynamics ◽

Computational Fluid Dynamics ◽

Energy Consumption ◽

Thermal Comfort ◽

Energy Efficient ◽

Air Conditioning ◽

Air Conditioning System ◽

Air Supply ◽

Air Conditioning Systems ◽

Air Diffusion

Energy consumption for air conditioning systems (air conditioning system) increased along with the increasing need for fresh air and comfortable in the room especially apartments. FAC system (Floor Air Conditioning) is growing because it is more energy efficient than CAC (Ceiling Air Conditioning) system. However, the position of the AC supply is on the lower level at the FAC system causes draft discomfort becomes greater as air supply closer to the occupants so that thermal comfort can be reduced. Heat mixture of windows, exterior walls, kitchen, and occupants in the studio apartment affect thermal comfort in the room too.This study aims to determine the position of the AC supply which has the best thermal comfort of FAC system in the studio apartment. It can be done by analyzing ADPI (Air Diffusion Performance Index), the distribution of air temperature, wind speed, RH (Relative Humidity), and DR (Draft Risk) to change the position of the AC supply supported by CFD (Computational Fluid Dynamics) simulation.This result prove that AC position 2 (on wall near the kitchen) is more comfortable than AC position 1 (on the bathroom wall) because AC position 2 away from occupied areas, thereby reducing the occurrence of draught discomfort.

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The study of solar absorption air-conditioning systems

Journal of Energy in Southern Africa ◽

10.17159/2413-3051/2005/v16i4a3103 ◽

2005 ◽

Vol 16 (4) ◽

pp. 59-66 ◽

Cited By ~ 10

Author(s):

V Mittal ◽

KS Kasana ◽

NS Thakur

Keyword(s):

Air Conditioning ◽

Lithium Bromide ◽

Cooling Systems ◽

Solar Absorption ◽

Air Conditioning System ◽

Heating And Cooling ◽

Absorption Cooling ◽

Solar Powered ◽

Solar Absorption Cooling ◽

Air Conditioning Systems

An air-conditioning system utilizing solar energy would generally be more efficient, cost wise, if it was used to provide both heating and cooling requirements in the building it serves. Various solar powered heating systems have been tested extensively, but solar powered air conditioning systems have received very little attention. Solar powered absorption cooling systems can serve both heating and cooling requirements in the building it serves. Many researchers have studied the solar absorption air conditioning system in order to make it economically and technically viable. But still, much more research in this area is needed. This paper will help many researchers working in this area and provide them with fundamental knowledge on absorption systems, and a detailed review on the past efforts in the field of solar absorption cooling systems with the absorption pair of lithium-bromide and water. This knowledge will help them to start the parametric study in order to investigate the influence of key parameters on the overall system performance.

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Guidance on Conducting Tests of Inlet Chiller Systems Installed in GT Inlets

ASME 2005 Power Conference ◽

10.1115/pwr2005-50048 ◽

2005 ◽

Cited By ~ 1

Author(s):

Terry B. Sullivan ◽

Michael Giampetro

Keyword(s):

Gas Turbine ◽

Gas Turbines ◽

Air Conditioning ◽

Performance Testing ◽

Project Team ◽

Plant Performance ◽

Timely Manner ◽

Turbine Inlet ◽

Plant Equipment ◽

Conditioning Equipment

This paper provides comprehensive methodology on testing inlet chiller systems that are used for Gas Turbine Inlet Air Conditioning. It will serve as a guiding document for the Inlet Chiller Project Team formed by PTC 51, “Combustion Turbine Inlet Air Conditioning Equipment” for use in scripting that code’s section on Inlet Chiller Performance Testing. This paper shows the conceptual similarities that can be drawn between inlet chiller and overall plant performance testing, as well as detailing the pertinent test scopes and boundaries, identifying expected test objectives, and listing the applicable test boundary parameters to be used for correction. Addressing an industry need, this paper also offers guidance on testing these components / systems at conditions different than design. Current equipment code committees, such as ASME PTC 22 on Gas Turbines, and ASME PTC 46 on Overall Plant Performance Testing, have concluded that inlet air conditioning equipment must be out of service while testing the major plant equipment. This would require the inlet chilling system to be tested separately. This requirement dictates that a technically-sound method of inlet chiller testing be codified in a timely manner.

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Calculation of Water Evaporative Cooling Systems in Animal Husbandry

Machinery and Equipment for Rural Area ◽

10.33267/2072-9642-2020-11-35-38 ◽

2020 ◽

pp. 35-38

Author(s):

N.N. Novikov ◽

Keyword(s):

Air Conditioning ◽

Evaporation Rate ◽

Evaporative Cooling ◽

Animal Husbandry ◽

Water Evaporation ◽

Cooling Systems ◽

Temperature And Humidity ◽

Hot Weather ◽

Livestock Building ◽

Air Exchange

A method for calculating the parameters of the microclimate in a livestock building using water-evaporative air conditioning is described. It makes it possible to choose a rational temperature and humidity conditions for a room in hot weather, calculate the required air exchange, water evaporation rate and select the appropriate equipment.

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