Showing total 5 results

1. A hierarchical layout approach for underfloor heating systems in single-family residential buildings.

Author

Shi, Ganquan, Qiu, Andong, and Yang, Zhouwang

Subjects

*RESIDENTIAL heating systems, *DWELLINGS, *HEATING, *RECTANGLES, *ENERGY consumption, *RECURSION theory

Abstract

[Display omitted] • A hierarchical approach for automatic layout of an underfloor heating system is proposed. • The routing problem is formulated as a shortest path problem in a proper routing graph. • An order relation is defined to separate the intersecting paths. • A depth-first layout algorithm based on recursion is developed to solve the coverage path planning problem. The layout of an underfloor heating system determines its heating performance. Conventionally, the design is completed by qualified experts using professional software, but this method is inefficient and heavily relies on the experts' previous experience. This paper proposes a hierarchical approach for the automatic design of underfloor heating systems aimed at residential buildings, and the underfloor heating layout problem is decomposed into a routing problem and coverage path planning problem. First, the routing problem is formulated as a shortest path problem in an appropriate routing graph and solved to provide the routing of pipes for further coverage. Subsequently, a depth-first layout algorithm is developed to recursively simplify the coverage path planning problem to obtain the basic rectangle layout, achieving uniform coverage of the given layout zone. Simulation results on two houses show that, unlike one popular commercial platform, the proposed approach generated feasible solutions in all 13 test instances. The new method improved the minimum temperature, average temperature, average percentage of nodes greater than 30 °C, and total energy efficiency by 3.18 °C, 0.79 °C, 3.23%, and 4.19%, respectively, with a lower variance on average. These improvements lead to a higher coverage rate, more even thermal distribution, and stronger robustness under flexible parameter selection. [ABSTRACT FROM AUTHOR]

Published

2022

2. Calculation of the yearly energy performance of heating systems based on the European Building Energy Directive and related CEN standards

Author

Olesen, Bjarne W. and de Carli, Michele

Subjects

*ENERGY consumption, *HEATING, *VENTILATION, *EMISSIONS (Air pollution), *CARBON dioxide, *INDUSTRIAL buildings, *DWELLINGS, *BOILERS

Abstract

Abstract: According to the Energy Performance of Buildings Directive (EPBD) all new European buildings (residential, commercial, industrial, etc.) must since 2006 have an energy declaration based on the calculated energy performance of the building, including heating, ventilating, cooling and lighting systems. This energy declaration must refer to the primary energy or CO2 emissions. The European Organization for Standardization (CEN) has prepared a series of standards for energy performance calculations for buildings and systems. This paper presents related standards for heating systems. The relevant CEN-standards are presented and a sample calculation of energy performance is made for a small single family house, an office building and an industrial building in three different geographical locations: Stockholm, Brussels, and Venice. The additional heat losses from heating systems can be 10–20% of the building energy demand. The additional loss depends on the type of heat emitter, type of control, pump and boiler. [Copyright &y& Elsevier]

Published

2011

3. Parameter identification and model based predictive control of temperature inside a house

Author

Bălan, Radu, Cooper, Joshua, Chao, Kuo-Ming, Stan, Sergiu, and Donca, Radu

Subjects

*TEMPERATURE control, *PARAMETER estimation, *PREDICTIVE control systems, *DWELLINGS, *HEATING, *VENTILATION, *AIR conditioning, *ENERGY consumption, *BUILDING operation management, *ELECTRIC power consumption

Abstract

Abstract: HVAC (Heating, Ventilation and Air Conditioning) systems used for heating or cooling buildings, consume a considerable amount of energy. To optimize the energy consumption, the behavior of occupants must be changed. This can be achieved by providing information and suggestions to occupants. A first step is developing of a less expensive and non-invasive measurement system and metering of the electricity and heat consumed. Based on collected experimental data, it can identify the parameters of a thermal model of the house. The model obtained will be used to simulate different aspects that can help to reduce the energy consumption. This paper presents a simple solution for thermal modeling of a house which includes experimental identification of the model''s parameters. Such data are used to simulate the thermal behavior of the house and to obtain solutions to reduce energy consumption. In simulation, the control of the thermal system is performed using a model based predictive control algorithm. [Copyright &y& Elsevier]

Published

2011

4. Evaluation of energy-related and economic aspects of heating a family house with dendromass in the north-east of Poland

Author

Stolarski, M., Krzyżaniak, M., and Graban, Ł.

Subjects

*HEATING, *DWELLINGS, *BIOMASS, *WOOD pellets, *ENERGY consumption, *NATURAL gas, *ECONOMIC impact, *BRIQUETS

Abstract

Abstract: This paper presents an evaluation of energy-related and economic aspects of production of thermal energy to heat a family house with wood briquette. The object of the study was a detached house with an area of 247m2, situated in Olsztyn, in the north-east of Poland. The study lasted three years, from October 2006 to September 2009. The highest monthly consumption of wood briquette for thermal energy production: heating water for the central heating system and hot utility water production were recorded in January (1052–1333kg/month). The average annual briquette consumption ranged from 6.36 to 6.72t/year. With the mean lower heating value of briquette of 17.99GJ/t, the mean consumption of energy in the fuel ranged from 114 to 121GJ/year. The annual cost of heat production for a family house with briquette as fuel ranged from €572 to €651, during the 2006/2007 and 2008/2009 seasons, respectively. It would have been cheaper by €187–228year−1 to heat the house with seasoned willow chips, whereas using alternative fuels, such as hard coal (fraction 0.5–2.5cm) oak pellets, natural gas and heating oil would have increased the cost of heat production. If the last of those fuels had been used, it would have increased the cost 3.5-fold as compared with wood briquette. [ABSTRACT FROM AUTHOR]

Published

2011

5. Simulation of the heating performance of the Kang system in one Chinese detached house using biomass

Author

Cao, Guangyu, Jokisalo, Juha, Feng, Guohui, Duanmu, Lin, Vuolle, Mika, and Kurnitski, Jarek

Subjects

*BIOMASS, *COMPUTER simulation, *HEATING, *ENERGY consumption, *POWER plants, *ENERGY development, *DWELLINGS

Abstract

Abstract: A traditional Chinese heating system, the Chinese Kang, is used by 175 million people in detached houses in the rural regions of China, especially in Northeast China. This system utilizes biomass such as corn stalks, straw, corncob and energy plants as the heat sources. The objective of this paper is to establish a set of models to simulate the energy performance of the Kang heating system in one Chinese detached house. An experimental field study was carried out to collect practical parameters in a newly constructed Chinese detached house. The dynamic performance of the Kang heating system was simulated by using IDA-ICE 4.0 embedded with an empirical model built in the field study. The results show that the simulation can obtain good overall agreement with the field measurement results. It was confirmed that the Kang model created by IDA-ICE 4.0 is capable of simulating the performance of the Kang system and of calculating energy consumption in the detached house. Moreover, the result reveals that the thermal environment in the present Chinese detached house is still poor during the severe cold season if only the Kang system is used to heat the whole house. [ABSTRACT FROM AUTHOR]

Published

2011