Development of a Network-location-model for the Economic Optimization of Local Heating Systems in Urban Chile

In an effort to reduce the operational cost of their dwellings, occupants may even have to sacrifice their indoor thermal comfort conditions. Following the economic recession in Greece over recent years, homeowners have been forced to adapt their practices by shortening heating hours, lowering the indoor thermostat settings, isolating spaces that are not heated or even turning off their central heating system and using alternative local heating systems. This paper presents the results from over 100 occupant surveys using questionnaires and walk-through energy audits in Hellenic households that documented how occupants operated the heating systems in their dwellings and the resulting indoor thermal comfort conditions and actual energy use. The results indicate that the perceived winter thermal comfort conditions were satisfactory in only half of the dwellings, since the actual operating space heating periods averaged only 5 h (compared with the assumed 18 h in standard conditions), while less than half heated their entire dwellings and only a fifth maintained an indoor setpoint temperature of 20 °C, corresponding to standard comfort conditions. Mainstream energy conservation measures include system maintenance, switching to more efficient systems, reducing heat losses and installing controls. This information is then used to derive empirical adaptation factors for bridging the gap between the calculated and actual energy use, making more realistic estimates of the expected energy savings following building renovations, setting prudent targets for energy efficiency and developing effective plans toward a decarbonized building stock.

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Using the Paratunsky geothermal field to provide heating for Kamchatka

Вулканология и сейсмология ◽

10.31857/s0203-03062019221-33 ◽

2019 ◽

pp. 21-33

Author(s):

A. V. Kiryukhin ◽

N. B. Zhuravlev

Keyword(s):

Waste Water ◽

Thermal Energy ◽

Thermal Water ◽

Discharge Rate ◽

Local Heating ◽

Geothermal Field ◽

Heat Energy ◽

Heating Systems ◽

Geothermal Fields ◽

Potential Market

The Paratunsky geothermal field has been in operation since 1964, mostly in a self-flowing mode, with a discharge rate of approximately 250 kg/s of thermal water at temperatures of 70–90°С (47 Mw, with the waste water having a temperature of 35°С). The water drawn from the field is used for local heating, spa heating, and for greeneries in the villages of Paratunsky and Termal’nyi (3000 residents). The potential market of thermal energy in Kamchatka includes Petropavlovsk-Kamchatskii (180000 residents), Elizovo (39 000), and Vilyuchinsk (22 000). The heat consumption in the centralized heating systems for Petropavlovsk-Kamchatskii is 1 623 000 GCal per annum (216 Mw). A thermohydrodynamic model developed previously is used to show that the Paratunsky geothermal reservoir can be operated in a sustainable mode using submersible pumps at an extraction rate of as much as 1375 kg/s, causing a moderate decrease in pressure (by no more than 8 bars) and temperature (by no more than 4°С) in the reservoir. Additional geothermal sources of heat energy may include the Verkhne-Paratunsky and Mutnovsky geothermal fields.

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Techno-economic optimization of thermosyphonic solar hybrid water heating systems

Energy Conversion and Management ◽

10.1016/0196-8904(94)90003-5 ◽

1994 ◽

Vol 35 (3) ◽

pp. 205-217 ◽

Cited By ~ 2

Author(s):

R.S. Misra

Keyword(s):

Economic Optimization ◽

Water Heating ◽

Heating Systems

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Identifying Heating Technologies suitable for Historic Churches, Taking into Account Heating Strategy and Conservation through Pairwise Analysis

E3S Web of Conferences ◽

10.1051/e3sconf/202124607006 ◽

2021 ◽

Vol 246 ◽

pp. 07006

Author(s):

Robin Talbot ◽

Arman Hashemi ◽

Philip Ashton ◽

Marco Picco

Keyword(s):

Energy Efficiency ◽

Fossil Fuels ◽

Local Heating ◽

Heating Systems ◽

Individual Preferences ◽

Central Heating ◽

The Matrix ◽

Pairwise Analysis ◽

Fuel Source ◽

Generation Technology

As a result of difficulty meeting energy efficiency through fabric alteration, historic churches must focus on heating systems and operational strategy as key to reducing carbon emissions. Strategies can be defined as local or central heating. Local heating strives to heat occupants, while central heating aims to heat the building fabric and therefore the occupants. Each strategy requires a different approach to control and technology in response to priorities such as conservation, comfort and cost. This paper reviews current and emerging technologies in the context of church heating. The fuel source, heat generation technology and heat emitter are arranged in a matrix, with pairwise analysis undertaken to create weightings for each assessment criteria. The process of constructing the matrix and undertaking pairwise analysis using personas is discussed. The result is a ranking of fuels and technologies appropriate to the main priorities and individual preferences. Some desirable technologies are inherently more damaging to historic church environments due to invasive installation. These technologies score poorly when the aim is fabric preservation. Greener fuels, like biomass, may rank lower than fossil fuels, due in part to operational differences.

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Thermal Comfort and Energy Use with Local Heaters

Energies ◽

10.3390/en13112912 ◽

2020 ◽

Vol 13 (11) ◽

pp. 2912

Author(s):

Jan Kaczmarczyk ◽

Joanna Ferdyn-Grygierek

Keyword(s):

Thermal Comfort ◽

Energy Use ◽

Human Subjects ◽

Local Heating ◽

Internal Heat ◽

Thermal Conditions ◽

Heating System ◽

Local Conditions ◽

Heating Systems ◽

Low Efficiency

This paper presents the investigation of a local heating system consisting of three heating mats incorporated within a sedentary workplace. Thermal comfort and individual power settings for the heating mats were studied in experiments with 41 human subjects. Experiments were performed in a climate chamber at two operative temperatures: 16 and 18 °C. Results showed that local heating systems improved occupants’ comfort and were able to create acceptable thermal conditions under both temperatures. The power settings identified were used to study the applicability of heating mats in an industrial hall. Multi-variant analysis of energy consumption for heating was carried out using an ESP-r (Environmental Systems Performance–Research) simulation program. The analysis results demonstrate that in some cases, the installation of local heating mats in industrial halls may reduce energy usage compared to having to heat the entire hall. However, the benefits depend on numerous parameters. Local heating is most advantageous when installed in halls with a small number of workstations, small internal heat gains, and low-efficiency central heating systems. In reality for the satisfactory implementation of local heating systems for a particular application, it is advised to perform analysis for the specific local conditions. In order to improve the effectiveness of local heating systems, an advanced heating control strategy should be considered.

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Appropriate Sizing of Solar Heating Systems

Journal of Solar Energy Engineering ◽

10.1115/1.3266348 ◽

1983 ◽

Vol 105 (1) ◽

pp. 66-72

Author(s):

P. Bendt

Keyword(s):

Life Cycle Cost ◽

Minimum Cost ◽

Heating System ◽

Limited Range ◽

Solar Heating ◽

Economic Optimization ◽

Heating Systems ◽

Solar Systems ◽

Solar Fraction ◽

Economic Trends

It is generally assumed that a solar heating system should be sized by minimizing its life-cycle cost. This study shows, however, that the uncertainty in future economic trends makes the results of such a procedure questionable. The design conditions for minimum cost are extremely broad and all practical systems have a solar fraction within the limited range of 30 to 90 percent. Thus, by choosing only three collector areas that give systems within this range, one is assured of selecting a nearly optimal system for any realistic economic scenario. Selecting one of these three systems is essentially equivalent to economic optimization, but simpler. Procedures are derived in this paper for determining the sizes of the three systems. The conclusion is that the collector areas should be about 1/8, 1/5, and 1/3 of the building floor area. This rule of thumb eliminates the need to design solar systems individually, allowing the possiblity of mass-produced homes with standardized solar heating systems.

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Economic optimization of combined cycle district heating systems

Sustainable Energy Technologies and Assessments ◽

10.1016/j.seta.2014.03.006 ◽

2014 ◽

Vol 7 ◽

pp. 91-100 ◽

Cited By ~ 12

Author(s):

Hariharan Gopalakrishnan ◽

Dragoljub Kosanovic

Keyword(s):

District Heating ◽

Combined Cycle ◽

Economic Optimization ◽

Heating Systems ◽

District Heating Systems

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"The Last Kilometer" Network Optimization Research of E-Commerce

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.1042.224 ◽

2014 ◽

Vol 1042 ◽

pp. 224-227

Author(s):

Yu Feng Zhuang ◽

Zhi Wei Wang

Keyword(s):

Network Optimization ◽

Location Problem ◽

Location Model ◽

Network Location ◽

Relevant Factors

In this paper we present a series of more rigorous steps, using a location model and take into account the actual roads’ condition, rents and other relevant factors to solve the network location problem. And we put forward a new idea to solve the "the last kilometer" problem of e-commerce’s network optimization.

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