Proper Designs For Air Conditioning In Mosques Environmental Sciences Essay

Proper Designs For job Conditioning In Mosques Environmental Sciences EssayTo maintain cling to qualified thermic conditions for the occupants is the basic requirement for any environment, beca do the caloric conditions turn over direct impact on the health, morale and productivity of military man. Through erupt the history exploitation by using the intelligence and by existence creative humans has been able to create environments which atomic number 18 informalityable for them to fulfill their activities and to keep maintaining such environments is very alpha. A complete thermic protect occurs when the net disturb gained by body is equal to the net heat loss from the body, in other terms in that location occurs no storage of heat in the body. This is situation is known as thermal labyrinthine sensed situation. and then to attain thermal relief it is is important to achieve thermal balance. It is mathematical to attain the thermal balance at a large range of e nvironmental conditions moreover the thermal hold dear is mainly achievable in conditions which are readily adjustable for the body. Thermal sympathiser is infact the state of mind which shows satisfaction within the lively thermal environment (Hutchean, 1989). There are many parameters involved which decide the thermal comfort conditions. These parameters are those which are link to the body heat loss and gains. Some of the important parameters which determine the heat balance in a office stafficular thermal environment for a human body are ancestry velocity, transmit temperature, humidity of air, military action levels of human, human clothing, means radiant temperature etc. Different meansls are being habitd till date by many people in order to relate the human amenities with these parameters in a particular environment. In many cases body has been considered as a thermal object which exchanges heat with the surrounding environment through different modes worry conve ction, conduction, radiation and is able to emit heat to the surroundings through evaporation and by adapting to the environment using the regulatory system of the body. (Cheng, 2006) Thus prediction of thermal soothe in different environments is of substantial splendor for people and organizations like ASHRAE which grant with air conditioning. Thus one important part of the present enquiry would be to develop an accession which would be helpful for taxing the thermal comforts and chores for the manakinings which would then be utilized for a pilot muse on some of the mosques of Kuwait and near by areas where the environment is harsh and humid. During harsh acerbic and humid climatic conditions, an effective air conditioning system is required for buildings, which gutter provide an acceptable thermal comfort level. Although such systems exists in many places but in many situations either the buildings gets over cooled or in many cases proper levels of thermal comfort are n ot achieved because of improperly designed system, or improper operation practices with lack of maintenance and thus resulting into an inefficient air-conditioning system. Thus the other important conniption of the explore would be to conduct a learn for Mosques in harsh hot and humid climatic conditions. Mosques are a type of building which has their own unique operating schedule which depends on the age of charms or others. So in the work a designed study would be carried emerge to admonisher the thermal comfort conditions and to monitor the vigour use of a number of mosques during hot and humid conditions so as to assess accu vagabondly the thermal comfort conditions and the aptitude efficiency in such buildings during the job period so that an efficient air-conditioning system can be designed for them.1.2 Problem statement single of the important essential requirements from an indoor environment is that it should be able to provide proper thermal comforts in order to s atisfy human desires. Undesirable conditions can result in human dissatisfaction and in turn affecting their activities. Thus in this scenario it is very essential to give urgent consideration and anxiety to the thermal comfort conditions of the buildings especially building in the harsh hot and humid climatic conditions like Mosques where occupant satisfaction is very important during peak hours of prayers etc. In most of the buildings today the comfort levels are achieved through complex air conditioning systems but this might result into to the thermal comfort problems which can occur because daily operations in the building. many a times it can be very difficult to identify thermal comfort problems and solve them because they can be very diverse in nature and can be cause because of large number of factors. Thus there is a need of developing a overbearing approach so as to deal with the problems of thermal comforts in building, which in the present case is Mosque. Mosques are the place of great importance for the religioners and it is needed that the worshipers olfactory sensation calm and comfortable in the mosque and when they leave the mosque they receive the feeling of peace and tranquility. Thus a thorough evaluation of mosques is needed for thermal comforts and requirement of susceptibility. Till date only a fewer studies have been conducted to fulfill this requirements for Mosques and thus there is a need of systematic study which can be helpful in monitoring the thermal comforts and ability use for Mosques so as to assess accurately the thermal comfort conditions and the energy efficiency in such buildings during the occupancy period so that an efficient air-conditioning system can be designed for them.1.3 Objectives of the ResearchDetailed study on the methods for predicting the thermal comforts and energy use and previous work done by people in predicting the thermal comforts in buildingsDevelopment of a systematic approach for identify ing and treating thermal-comfort problemsInvestigating the Basic design Elements of Mosques observe thermal comfort conditions and energy use in some of the mosques of Kuwait and near by areasSuggesting recommendations for feat of proper thermal comfort levels and properly designing air-conditioning systems for Mosques1.4 MethodologyThe methodology adopted for playacting the question and to meet the desired objectives is as belowStep 1 First of all the problem is place through thorough discussion and thoughtfulness of the area to be studied. After than understanding the background of the problem and finding out the necessity areas where the research needs to be conductedStep 2 Exhaustive study about the existing models and approaches for thermal comfort problems identification and ways to solve them. Studying the previous research done in the desired area for Mosques or similar kind of buildings in different environmental conditions and there by making a roadmap for the present research.Step 3 On the basis of the fine analysis of the various approaches and by putting up new ideas through discussion and thorough observation of area, a systematic approach for identifying and treating thermal-comfort problems in building swould be developed which would then be apply for the Mosques of Kuwait or near by placesStep 4 Before carrying out the analysis of comfort levels of mosques a study on the basic design elements of the Mosques would be performed in order to make the research more effectiveStep 5 Finally with the help of developed approach thermal comfort conditions and energy use in some of the mosques of Kuwait and near by cities would be monitored and the problems related to to thermal comforts would be identifiedStep 6 At last a list of recommendations would be generated which would be helpful in improving the air conditioning functioning, thermal comfort levels and efficient energy use.Step 7 And the research would then be completed by concluding the findings from the study and well-favored a future vision to the study and some points of research in future.1.5 Expected OutcomesA systematic approach would be proposed with the help of which thermal comfort problems can be identified assessed and can be dealt with in a proper way.The developed approach will acts as a helpful cock for the building managers and the operators in order to deal with the thermal comfort problems arising in a building.Based on the study conducted for the mosques a list of recommendations would be generated. Although this recommendations would be genrated from the mosques in hot and humid climatic conditions but an attempt would be made to make them generic so that they can be applicable in any mosques in general.Chapter 2LITERATURE REVIEWMosques represent a place of great importance and unique function and operation as worshipers using the mosque need to feel comfortable and calm, and be able to leave with a feeling of tranquility and peace. Consequent ly, they need to be carefully evaluated in terms of thermal comfort and energy requirements. However, only a limited number of studies have dealt with these requirements of mosques. A study on thermal comfort requirements for Friday prayer during the hot flavor in Riyadh (Saeed, 1996) indicated that most people are comfortable and few prefer cooler conditions. Thermal comfort considerations are usually paramount in most buildings involving people occupancy. This requires the addition or extraction of heat from the space depending mainly on the season and type of activities performed indoors. The thermal environment parameters involved are all those affecting body heat gains and losses. Air temperature, air humidity, air velocity, mean radiant temperature as well as human clothing and activity levels are factors that determine the heat balance of a human body in a accustomed thermal environment. Several models are available in the literature to relate the human sensation of comfort to those factors. Prediction of thermal comfort has been of substantial interest to ASHRAE.ASHRAE has developed a comfort index which is base on the effective temperature. The effective temperature is defined on the basis of 50 % relative humidity. The basis of the translation is that the effective temperature describes the uniform temperature of enclosure which is radiantly black at 50% RH (ASHRAE, 1997) and in which the comfort, heat exchange and physiological strain experienced by the occupant would be corresponding as that of the true(a) environment with same air velocity. Fanger, 1970 has done a very elaborative study on the prediction of thermal comfort levels under steady state conditions. Fanger, 1970 formulated a comprehensive comparison for heat balance which was based on the various parameters of heat exchange. Fanger, 1970 developed a comfort equation which involved the use of two empirical relations which relates skin temperature and evaporative heat loss to the m etabolic rate. With the help of the equation developed by Fanger, 1970 comfort conditions for any type of environmental conditions with any type of parameters of clothing and rate of metabolism can be calculated. The other major development in this study by Fanger was the theme of the PMV (Predicted Mean Vote) for a space in which there are differences in the thermal sensation from the best the optimal value. This PMV is helpful in predicting the percentage of dissatisfied people. Considering the variability of thermal sensation under the same conditions, Fanger devised a means of estimating a predicted mean vote (PMV) of the outlets in a space in which there are deviations from optimal in the thermal sensation. Using the PMV, the percentage of people dissatisfied (PPD) can be predicted.The impact of air movement and the effect of its flow patterns on thermal comfort have been the subject of many theoretical and experimental studies(Jiang, 1992) (Chow, 1994). Results from those s tudies have emphasized the role of air velocity and air statistical distribution patterns as a determinant factor of thermal comfort. Furthermore, models for predicting comfort at different flow regimes and air distribution patterns have been suggested. Charles (Charles, 2003) reviewed and assessed the validity of Fangers Predicted Mean Vote (PMV) Model, and Fangers Draught Model. The review also suggested that the bias in PMV predictions varies by context. The model was a better predictor in air-conditioned buildings than by nature air out ones, in part because of the influence of outdoor temperature, and opportunities for adaptation. Ji et al, 2006, examined the thermal comfort of people in naturally ventilated environments in a field study in Shanghai, China. The study suggested that people residing in such hot area have adapted to its climate and their expectations for comfort allow them to endure heat better than anticipateMany studies have been conducted and carried out in different environmental conditions in order to find out the difference in requirement of thermal comfort levels based on parameters related to sex, body build and age. Results showed that there is no significant difference in the comfort conditions required by male or female, elderly or young etc. (Chung, 1990), (Cheng, 2006). Dear and Brager, 2002 summarized earlier adaptive comfort research, presented some of its findings for naturally ventilated buildings, and discussed the process of getting the adaptive comfort incorporated into mensuration 55. Adaptive models include in some way the variations in outdoor climate for determining thermal preferences indoors. Cheng and Ng, 2006 discussed in a new-fangled study the adaptive model in thermal comfort, which has been included in the new revision of ASHRAE Standard 55-2004. Furthermore, it demonstrated the development of a comfort temperature chart for naturally ventilated buildings in Hong Kong. Van foot et al (2007) discussed two implementations of the adaptive comfort model in terms of usability and energy use for damp maritime climate zones by means of literature study, a case study comprising temperature measurements, and building performance simulation. The study concluded that for moderate climate zones the adaptive model is only applicable during summer months, and can reduce energy for naturally conditioned buildings. The subject of thermal comfort in buildings is intimately related to the energy consumption/conservation issue as most of the time either heating or cooling is needed to maintain the space at a comfortable level. Many studies have been carried out to investigate this relationship and explore means and ways to conserve energy without compromising comfort (Tham, 1993). A multidisciplinary approach for achieving energy saving and thermal comfort simultaneously was developed (Tham, 1993). The impact of various energy conservation measures and HVAC system and component characteristics on bu ilding thermal performance including thermal comfort has been investigated. Results have indicated that adaptation of a higher temperature set point in summer can lead to a significant reduction in cooling energy without loss of thermal comfort. The energy consumption by building heating, ventilating, and air-conditioning (HVAC) systems has evoked increasing attention to promote energy efficient control and operation of HVAC systems(Mathews, 2000 and 2002). Many other measures related to the design and operation of the HVAC system can be considered for conserving energy. However, in no mickle should the comfort of occupants be compromised. In hot and cold climates, thermal comfort in building is achieved by HVAC systems, resulting in considerable energy costs. In many situations, buildings are over cooled or the HVAC system is unbroken running for a much long-life time than needed. This will allow considerable opportunities to conserve energy while achieving better comfort condit ions or at least maintaining the desired comfort conditions at a reduced level of energy consumption. Recently, Budaiwi (2007) proposed and implemented a multi-phase approach to investigate and remedy thermal comfort problems in buildings. Although mosques are important buildings with a unique function and intermittent operation, evaluation of their thermal performance, problems and, subsequently, possible remedies did not receive adequate attention by researchers. This paper presents the results of a study monitoring energy use and indoor environmental conditions in a number of mosques in order to assess the case of their thermal comfort conditions especially during occupancy periods in such intermittently operated buildings in hot-humid climates. This study is part of a comprehensive research conducted on mosque thermal performance (Budaiwi, 2005). In this part of the study, energy use and thermal indoor conditions for three mosques were monitored over a period of one year. These mosques were selected to represent the common types of a single-zone daily prayers mosque, a single-zone Friday (large) mosque, and a two-zone Friday mosque. The criteria of representative mosques selection as well as their physical and running(a) characteristics have been presented in previous work.Chapter 3CHARACTERISTICS OF MOSQUEBefore going further on the discussion related to the thermal comfort conditions and energy use it is important to first briefly discuss the basic and important elements of a typical design of mosque and the different activity modes in mosque.3.1. Basic Elements of typical design of MosqueMosque is mainly a simple rectangular surround enclosed building having a roofed prayer hall. The longer side of the rectangular shape has orientation in the direction of the Makkah City having the holy mosque. This longer wall is normally termed as Qibla Wall. In the center of the wall is a recess in the form of nook wall which is called as Mihrab. It also include s an elevated understructure commonly termed as Minbar, in the right of Mihrab, from which imam delivers or preaches the speech on Friday, i.e. Khutba.These are some of the essential elements of any mosque design. In Fiugre1 an isometric and a plan of a typical simple design of a mosque has been shown emphasizing the basic elements of design of a mosque. Although from the functional point the mosques are not different and have remained unchanged but the space, building materials, architectural forms and the construction systems have evolved and developed to very different extent in the different parts of the serviceman of Islam which are influenced by many other factors as well.Figure 1 The basic design elements of a simple mosque (a) plan, and (b) isometric Reference 22.Figure2 The geometric configurations (plans) of the investigated mosques.3.2. Activity modes in a mosqueThe design of the mosque is greatly influenced by the worship considerations. There are usually two modes of worship in a mosque. The first mode is the prayer mode which involves doing prayers either in groups or individually as per the religious prescription. Generally while performing group prayers the worshippers stand, prostrate, bow and sit behind the Imam in parallel rows and on the same embellish level which are aligned parallel to the Qibla Wall having a distance of approximately 1.2 m. The second mode of worship is the preaching mode, in which the worshippers seat in random rows and listens to the Imam who preaches and deliver Khutba, standing on the Minbar which is a elevated floor. The height of the Minbar floor is different in different mosques. The mosque capacity is dependent upon the floor area and is determined by dividing the area of the floor with the average area required by a worshipper for performing the prayer which is approximately 0.80 * 1.2 = 0.96 m2.Gantt ChartThermal Comfort in MosquesNovDecJanFebTASKS abidance of Research ProposalLiterature SurveyInterim Report SubmissionDevelopment of Systematic onward motionField study of MosquesResult analysisConcluding Remarks and RecommendationsFinal Project Submission