An Improved Hot Water Heater

Abstract A small diameter water well drilled in 1977 in the Town of Bulyea, Saskatchewan generated such a rapid plugging (biofouling) that by 1979 the flow rate was reduced by 59%. Heavy growths of non-specific iron bacteria were found in the water and biofouling projected to be the principal cause of the flow loss. Tyndallization (repeated pasteurizations) treatment was applied using a hot water recycling system installed above the well head. Using a displacement passive gravity direct injection of hot water at 82°C from a water heater into the well, a sequential elevation of water column temperatures occurred until bio-film dispersion occurred (pasteurization) at 45°C+. A recovery to original flow specifications was repeatedly obtained at time intervals ranging from 6 to 403 days. Between treatments, a recurrence of biofouling was noted with flow reductions of 0.06 – 0.07 1/min/day frequently being noted. The rate of plugging appeared to be affected by the previous sequence of pasteurization treatments. Tyndallization was found to satisfactorily control iron bacterial biofouling and maintain flow rates.

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Influence of Far Infrared TiO2 and Multi-Walled Carbon Nanotubes Coatings on the Performance of a Hot Water Heater

Applied Sciences ◽

10.3390/app11157043 ◽

2021 ◽

Vol 11 (15) ◽

pp. 7043

Author(s):

Tun-Ping Teng ◽

Shang-Pang Yu ◽

Yeou-Feng Lue ◽

Qi-Lin Xie ◽

Hsiang-Kai Hsieh ◽

...

Keyword(s):

Carbon Nanotubes ◽

Heating Rate ◽

Heat Insulation ◽

Far Infrared ◽

Hot Water ◽

Insulation Material ◽

Water Heater ◽

Multi Walled Carbon Nanotubes ◽

Walled Carbon Nanotubes ◽

Insulation Performance

This study selects titanium dioxide (TiO2) and multi-walled carbon nanotubes (MWCNTs) as far-infrared materials (FIRMs), and further adds water-based acrylic coatings to prepare far-infrared coatings (FIRCs). FIRCs are uniformly coated on #304 stainless steel sheets to make the test samples, which are then installed between the shell and insulation material of the hot water heater to measure the influences of various FIRCs on the performance of the hot water heater. The research results show no significant difference in the heating rate or heat insulation performance of the hot water heater with or without FIRCs coating. However, the uniformity of the water temperatures of the test samples is significantly improved with FIRCs. Considering that the uniformity of water temperature will inhibit the heating rate and heat insulation performance of the hot water heater, TiO2-FIRC should provide better performance improvement when applied to the hot water heater in this study. The application of TiO2-FIRC to large-scale hot water heaters with a high aspect ratio will effectively improve the quality of hot water supply in the future.

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Solar Water Heater Design for Houses in Arid Zones

Volume 12: Systems and Design ◽

10.1115/imece2013-63239 ◽

2013 ◽

Author(s):

Ramses Vega ◽

Hector E. Campbell ◽

Juan de Dios Ocampo ◽

Diego R. Bonilla G.

Keyword(s):

Solar Collector ◽

Extreme Temperature ◽

Hot Water ◽

Arid Zones ◽

Water Heater ◽

Collector System ◽

End Use ◽

Flat Plate Solar Collector ◽

Demand Profile ◽

Heater Design

This paper shows the simulation and design of a flat plate solar collector system, used to feed hot water to a typical home located in the city of Mexicali, Baja California, México. The system consists of a solar collector, a storage tank, a water pump and accessories and special tools that allow its proper operation. Analyzing the consumption and end use of water in a typical House, a demand profile is established, which combined with the weather information of the region, constitutes the input parameters required for the simulation of the system, which is performed with the software package TRNSYS. Mexicali, due to its location (latitude 32 °, longitude 114 °) and semi-desert condition presents high temperatures in the summer and low in winter, so the design and operation of such systems require special features, not always considered in the conventional ratings. This paper presents methods for simulation and design oriented to optimize the dimensioning and operation of this type of solar heaters in regions with extreme temperature conditions.

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Energy Consumption Modeling of a Heat Pump System for Combined Space Conditioning and Residential Water Heating in a Typical Household in Quito, Ecuador

Volume 6B: Energy ◽

10.1115/imece2016-66243 ◽

2016 ◽

Author(s):

Gabriel Agila ◽

Guillermo Soriano

Keyword(s):

Energy Consumption ◽

Heat Pump ◽

Thermal Storage ◽

Hot Water ◽

Water Heating ◽

Water Heater ◽

Pump System ◽

Detailed Model ◽

Heat Pump Water Heater ◽

Residential Water

This research develops a detailed model for a Water to Water Heat Pump Water Heater (HPWH), operating for heating and cooling simultaneously, using two water storage tanks as thermal deposits. The primary function of the system is to produce useful heat for domestic hot water services according to the thermal requirements for an average household (two adults and one child) in the city of Quito, Ecuador. The purpose of the project is to analyze the technical and economic feasibility of implementing thermal storage and heat pump technology to provide efficient thermal services and reduce energy consumption; as well as environmental impacts associated with conventional systems for residential water heating. An energy simulation using TRNSYS 17 is carried to evaluate model operation for one year. The purpose of the simulation is to assess and quantifies the performance, energy consumption and potential savings of integrating heat pump systems with thermal energy storage technology, as well as determines the main parameter affecting the efficiency of the system. Finally, a comparative analysis based on annual energy consumption for different ways to produce hot water is conducted. Five alternatives were examined: (1) electric storage water heater; (2) gas fired water heater; (3) solar water heater; (4) air source heat pump water heater; and (5) a heat pump water heater integrated with thermal storage.

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Evaluation of a High-Performance Solar Home in Loveland, Colorado

Journal of Solar Energy Engineering ◽

10.1115/1.2710248 ◽

2006 ◽

Vol 129 (2) ◽

pp. 226-234

Author(s):

Robert Hendron ◽

Mark Eastment ◽

Ed Hancock ◽

Greg Barker ◽

Paul Reeves

Keyword(s):

High Performance ◽

Energy Savings ◽

High Efficiency ◽

Building Envelope ◽

Operating Conditions ◽

Hot Water ◽

Space Heating ◽

Solar Water Heater ◽

Water Heater ◽

Solar Water

Building America (BA) partner McStain Neighborhoods built the Discovery House in Loveland, CO, with an extensive package of energy-efficient features, including a high-performance envelope, efficient mechanical systems, a solar water heater integrated with the space-heating system, a heat-recovery ventilator (HRV), and ENERGY STAR appliances. The National Renewable Energy Laboratory (NREL) and Building Science Consortium conducted short-term field-testing and building energy simulations to evaluate the performance of the house. These evaluations are utilized by BA to improve future prototype designs and to identify critical research needs. The Discovery House building envelope and ducts were very tight under normal operating conditions. The HRV provided fresh air at a rate of about 35L∕s(75cfm), consistent with the recommendations of ASHRAE Standard 62.2. The solar hot water system is expected to meet the bulk of the domestic hot water (DHW) load (>83%), but only about 12% of the space-heating load. DOE-2.2 simulations predict whole-house source energy savings of 54% compared to the BA Benchmark (Hendron, R., 2005 NREL Report No. 37529, NREL, Golden, CO). The largest contributors to energy savings beyond McStain’s standard practice are the solar water heater, HRV, improved air distribution, high-efficiency boiler, and compact fluorescent lighting package.

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Theoretical investigation on the heating performance of a recuperative heat pump water heater using CO2/HCs with large temperature glides in cold regions

Journal of Thermal Science and Engineering Applications ◽

10.1115/1.4052599 ◽

2021 ◽

pp. 1-22

Author(s):

Jielin Luo ◽

Qin Wang ◽

Zhen Zhao ◽

Kaiyin Yang ◽

Guangming Chen ◽

...

Keyword(s):

Heat Pump ◽

Temperature Difference ◽

Hot Water ◽

Large Temperature ◽

Water Heater ◽

Ambient Temperatures ◽

Heating Performance ◽

Heat Pump Water Heater ◽

Vapor Injection ◽

Injection Cycle

Abstract Considering the issues of environmental pollution and energy efficiency, heat pumps are gradually replacing traditional coal combustion for heating at low ambient temperatures. In this paper, eco-friendly CO2/HCs with large temperature glides are applied in a single-stage recuperative heat pump water heater. Its heating performance is theoretically investigated under the working condition of producing circulating hot water in typical winter of northern China, with medium temperature difference between supply/return water and large temperature difference between air inlet and water inlet. Due to its simple structure, low initial investment and high efficiency, its potential for producing circulating hot water is demonstrated. Exergy analyses are conducted to reveal the significant influence of the exergy losses of heat exchanger on system performance. For specified CO2/HC, optimal COP is obtained through global optimization of cycle pressures and mixture concentration. The heating performances of different CO2/HCs are compared, among which CO2/R600 and CO2/R600a behave better. Meanwhile, a typical vapor-injection cycle is used to demonstrate priorities on the heating performance of this recuperative cycle, in which the COP of recuperative cycle using CO2/R600 is more than 3.4% higher than that of the vapor-injection cycle. The results obtained in this paper provide a simple and efficient solution for producing circulating hot water at low ambient temperatures.

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Experimental Study of Solar Water Heater under the Libyan Climate Conditions

Modern Applied Science ◽

10.5539/mas.v14n9p28 ◽

2020 ◽

Vol 14 (9) ◽

pp. 28

Author(s):

Ali. J. S. Alrafad ◽

Abdihg S. Alrafad ◽

Tarek. Hamad ◽

Ahmed. Nassar

Keyword(s):

Fossil Fuel ◽

Hot Water ◽

Solar Water Heater ◽

Way Of Life ◽

Water Heater ◽

Climate Conditions ◽

Solar Water ◽

Solar Heater ◽

Glass Surfaces ◽

Local Materials

In our modern societies, One of the main and simplest signature traits is hot water as a convenient and efficient way of life either for industrial and domestic purposes, however, obtaining hot water in most cases will be through fossil fuel either by direct burning for the fuel for heating or indirectly by using electricity that generated by fossil fuel. Using solar heaters will limit the in some extent the usage of fossil fuel. A flat solar water heater of (165 to 175) cm3 has been constructed to be used as a model for educational purposes. The solar heater is made of local materials consist of galvanized iron pipes, glass surfaces, wool insulation, aluminum frame, and fixed iron base. Moreover, Thermocouples, pyranometer, and an anemometer were used to test the performance of the heater in four days in May for the angle of inclination of the complex 320 is on the horizontal. In conclusion, the daily average efficiency was around 57%. The temperature in the tank is about  62 0C at noon, which is sufficient for home use throughout the day.

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