166 research outputs found
Investigations into the effectiveness of measures to reduce the energy requirements of domestic dwellings in Cyprus
This thesis was submitted for the degree of Doctor of Philosophy and was awarded by Brunel University.In recent years there has been an increasing trend in the provision of central heating and
split vapour compression air conditioning systems to domestic dwellings in Cyprus. To
minimise their economic and environmental impact, this study examines the feasibility
and economic viability of energy conservation measures and the feasibility of the
application of solar driven LiBr-water absorption system for space conditioning.
Initially, the study compares through simulation, the heating and cooling requirements
of domestic dwellings constructed in Cyprus during the last century. The simulations
required values for the thermal conductivity of local building materials, like the hollow
brick and mud and straw block. These were not available, and measurements were
performed on a machine specifically purchased for the project to establish these values
for the first time. These material properties will be of value to building services
engineers in Cyprus and the Middle East for the more precise determination of building
heating and cooling loads.
Evaluation of the internal conditions resulting from the various types of constructions
indicated that the traditional and insulated modem houses, could maintain indoor
temperature in winter between 16°C and 20°C, but in the summer temperatures
exceeded 36°C. The use of natural and mechanical ventilation could reduce slightly the
maximum indoor summertime temperatures, but not to a level that could provide
thermal comfort.
Window gains are an important factor in domestic building energy requirements, and
significant savings can result when extra measures are taken. The savings in cooling
energy demand for a well-insulated house may be as high as 24% when low-emissivity
double glazed windows are used compared to clear double glazed windows giving a
pay-back period of 3.8 years. Other factors investigated are the effect of overhangs,
shape and orientation of buildings and thermal mass. The results show that the roof is
the most important structural element of domestic dwellings in the Cypriot environment.
For good thermal performance, the roof must offer a discharge time of 6 hours or more
and have a thermal conductivity of less than 0.48 W/m-K. Life cycle cost analysis has
shown that measures that increase the roof insulation pay back in a short period of time,
between 3.5 to 5 years. However, measures taken to increase wall insulation pay back in
a longer period of time, approximately 10 years.
The only natural energy resource abundantly available in Cyprus is solar energy, which
could be used to power a low energy active cooling system based on the absorption
cycle. To facilitate investigation of the feasibility of the application of solar driven
absorption systems for domestic cooling, a 1 kW LiBr-water absorption-cooling unit
was designed and constructed. The unit was used to determine experimentally the heat
and mass transfer coefficients in the heat exchangers of absorption systems. In certain
cases these were found to differ considerably from values obtained from heat and mass
transfer correlations published by other investigators. The experimentally determined
heat and mass transfer coefficients were employed in the design and costing of an 11
kW cooling capacity solar driven absorption cooling machine which, from simulations,
was found to have sufficient capacity to satisfy the cooling needs of a well insulated
domestic dwelling. Economic analysis has shown that for such a system to be
economically competitive compared to conventional cooling systems its capital cost
should be below C£ 2000. This drawback can be balanced by a lower total equivalent
warming impact being 2.7 times smaller compared to conventional cooling systems.Higher Technical Institute Research Committe
Cyprus building energy performance methodology: A comparison of the calculated and measured energy consumption results
In order to fulfil article 4 of the 2002/91/EC Directive (EPBD) a national methodology for the energy performance of buildings was drafted and approved by the Government of Cyprus in 2009. This methodology is in line with the European standards prepared to facilitate EPBD implementation and follows the asset rating approach that is, it represents the intrinsic annual energy use of a building under standardised conditions. CEN standards leave an option, quite suitable for existing and complex buildings, for operational rating, which is an energy rating based on measured amounts of delivered and exported energy. The calculated and measured rating exhibit advantages and disadvantages and as expected the results of the two approaches vary, since the measured rating approach takes into account the effect of user behaviour, the actual weather conditions and the realized (actual) thermal comfort conditions inside the building. This paper presents the Cyprus legal framework for adopting the EPBD and exhibits the Cyprus methodology for the energy performance of buildings. Moreover the advantages and disadvantages of the asset and operational rating approaches are discussed and a comparison of the results of these two approaches for a selected number of dwellings is presented. One of these cases is also examined with respect to the climatic conditions, by changing the climatic zone in which the building is erected. The latter reveals the effect of climate on the calculated energy requirements of the building for both heating and cooling
Investigation of the parameters affecting the thermosiphonic phenomenon in solar water heaters
Cyprus is currently the leading country in the world with respect to the application of solar water heaters for domestic applications, with more than 93% of the houses equipped with such a system. The great majority of these solar water heaters are of the thermosiphonic type. Thermosiphonic is a natural phenomenon where the flow of the solar heated water from the collector to the storage tank occurs from a small flow created due to the difference in density between hot and cold water. The main advantage of such systems is that they do not require a pump for circulating the water and circulation exists as long as there is sunshine. This reduces the maintenance requirements and the system is foolproof. In spite of the fact that extensive analyses of the performance of solar water heaters has been carried out by numerous researchers, almost all of them concerned forced circulation systems which use a circulating pump. Currently, the knowledge on the parameters affecting the ‘thermosiphonic phenomenon’ is rather poor while on an international level (ISO and CEN committees) there isn’t any standard to test thermosiphon solar collectors. The deeper understanding of the ‘thermosiphonic phenomenon’ and the identification of the key parameters affecting it, is the main aim of a research project currently in process in Cyprus. In this work the first preliminary results of the experimental procedure are presented. More specifically, a special test rig was set up and equipped with all sensors necessary to measure all parameters that are most likely to affect the ‘thermosiphonic phenomenon’. All tests were conducted according to ISO 9459- 2:1995(E). The system was able to operate in various weather and operating conditions and could accommodate the change of inclination of the collector. Initially, the solar collector was tested according to EN12975-2:2006 in order to determine the thermal performance at a flow and operation conditions specified by the standard. Subsequently, the efficiency of the collector operating thermosiphonically was calculated based on quasi-dynamic approach. Finally, a series of correlations were attempted using the data acquired when the collector is operating themosiphonically which are the following: (i) the temperature difference of the water at the outlet and the inlet of the collector (ΔΤ) with the solar global radiation, (ii) the water mass flow with the solar global radiation, (iii) the water mass flow with the temperature difference of the water at the outlet and the inlet of the collector (ΔΤ). The results of the data analysis showed that these parameters are very well correlated between them since the coefficient of determination (R2) is over 0.91 in all cases
Investigation and determination of the geothermal parameters of the ground in Cyprus for the exploitation of geothermal energy and the impact of the results in the design of the geothermal systems
The Energy Service of the Ministry of Commerce, Industry and Tourism has the overall responsibility for Energy matters in Cyprus and specifically for preparing and implementing programmes for energy conservation, the promotion of renewable energy sources (RES) and the development of technologies for the utilization of RES. The Government of Cyprus being aware of the benefits of geothermal energy and in order to increase the share of energy from renewable sources consumed in heating and cooling in 2020, promotes the geothermal energy systems through a Scheme that provides financial incentives for the utilization of RES for heating and cooling. However, the lack of valid data for the ground thermal properties in Cyprus was one of the main obstacles for the design of efficient geothermal systems, the implementation of the Schemes in the field of geothermal energy and the calculation of the share of energy from renewable sources for heating and cooling according to the methodology defined by the E.U in the directive 2009/28/EC. In an effort to identify suitable energy efficient systems for heating and cooling of buildings and the correct calculations of their contribution to the national targets, the Energy Service participated in a project founded by the Research Promotion Foundation of Cyprus to investigate and determine the geothermal parameters of the ground of Cyprus at six representative sites in Cyprus, for use in the design of ground heat exchanger applications and ground thermal storage. The paper presents the importance of the Isothermal map that helps consultants to design efficiently geothermal energy systems, calculate effectively heat losses of buildings to the ground and design the thermal energy storage equipment. The importance’s of the results are analyzed by national authorities’ experts’ point of view for evaluating geothermal applications bridging in this way the gap between technical output and commercial reality
Experimental investigation of the thermosiphonic phenomenon in domestic solar water heaters
The deeper understanding of the ‘thermosiphonic phenomenon’ and the identification of the key parameters affecting it, is the main aim of a research project currently in process in Cyprus. In this work a review of the existing standards and scientific knowledge concerning domestic solar water heaters is presented. The first preliminary results of the experimental investigation of the ‘thermosiphonic phenomenon’ in domestic solar water heaters are also presented. For this purpose a special test rig was set up and equipped with all sensors necessary to measure all parameters that are most likely to affect the ‘thermosiphonic phenomenon’. All tests were conducted according to ISO 9459- 2:1995(E). At first, the solar collector was tested according to EN12975-2:2006 in order to determine the thermal performance characteristics at a flow and operation conditions specified by the standard. Consequently, the efficiency of the collector operating thermosiphonically was calculated based on quasi-dynamic approach. Finally, a series of correlations were attempted using the data acquired when the collector is operating themosiphonically which are the following: (i) the temperature difference of the water at the outlet and the inlet of the collector (ΔΤ) with the solar global radiation, (ii) the water mass flow with the solar global radiation, (iii) the water mass flow with the temperature difference of the water at the outlet and the inlet of the collector (ΔΤ). The results of the data analysis showed that these parameters are very well correlated between them since the coefficient of determination (R2) is over 0.91 in all cases
Solar space heating and cooling systems
This chapter examines solar space heating and cooling systems. Initially, the basic system configurations are presented which include active solar systems in which direct circulation systems, indirect water-heating systems, and air water-heating systems are presented, space heating and service hot water systems which include air and water systems, issues concerning the location of auxiliary and heat pump systems, and solar cooling, which includes adsorption units, absorption units, lithium--water absorption systems, ammonia--water absorption systems, and solar cooling with absorption refrigeration. Subsequently, heat storage systems are examined which include air and liquid systems thermal storage. Finally, details of various aspects of system design are presented which include module and array design, heat exchangers, and differential temperature controllers
Solar space heating and cooling systems
This chapter examines solar space heating and cooling systems. Initially, the basic system configurations are presented which include active solar systems in which direct circulation systems, indirect water-heating systems, and air water-heating systems are presented, space heating and service hot water systems which include air and water systems, issues concerning the location of auxiliary and heat pump systems, and solar cooling, which includes adsorption units, absorption units, lithium--water absorption systems, ammonia--water absorption systems, and solar cooling with absorption refrigeration. Subsequently, heat storage systems are examined which include air and liquid systems thermal storage. Finally, details of various aspects of system design are presented which include module and array design, heat exchangers, and differential temperature controllers
Energy analysis of buildings employing thermal mass in Cyprus
In this paper the effects on the heating and cooling load resulting from the use of building thermal mass in Cyprus are presented. This is achieved by modelling and simulation with the TRNSYS program of a typical four-zone building with an insulated roof in which the south wall of one of the zones has been replaced by a thermal wall. Despite the fact that the diurnal temperature variations in Cyprus are ideal for the application of thermal mass, no such application is presently available. Therefore the main objective of this paper is to investigate the possible benefits resulting from such an application. The results of the simulation show that there is a reduction in the heating load requirement of the zone by about 47%, whereas at the same time a slight increase of the zone-cooling load is exhibited. Optimisations of the various construction parameters have also been carried out. The optimum overhang size is found to be equal to 1.2 m with minor variations in the range of 1 to 1.5 m. The effect of the air gap size between the glazing and the thermal wall is insignificant. The optimum value of wall thickness obtained is equal to 25 cm. The effect of roof insulation is investigated and it is found that insulation is a must for better comfort conditions. Also, the effect of applying ventilation whenever the ambient temperature is lower than the indoor temperature during summertime is investigated. A reduction of 7.5% is obtained when air at 3 air changes per hour is directed into the house. In conclusion it can be said that the thermal wall offers some advantages and should be used whenever buildings are erected with south-facing walls
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