Design and experimental study of an energy-saving and ...Design and experimental study of an...
Transcript of Design and experimental study of an energy-saving and ...Design and experimental study of an...
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Design and experimental study of an energy-saving and outlet temperature-adjustable electric water boiler
School of Aeronautic Science and Engineering, BUAA
Nov. 20, 2018
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Background
Principle of the Device
Design of the Device
Conclusions
CONTENTS
01
02
03
04
05
Experimental Results
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Background 01
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Background
a) The power of electric water boilers are mostly 9kW for 120L/h boiled water. b) There is enormous waste of energy from 100℃ boiled water to drinkable temperature boiled water. c) Presuming 1.5L boiled water for 1 person 1 day for a whole year, drinkable at 40℃,the whole wasteful energy could be 36kWh; For China, with population of 1.4 billion people, it would be up to 5.0 * 1010 kWh, generated by a 10GW power plant for a whole year.
(A) Common electric water boilers consuming enormous energy
01
fig.1 a common water boiler
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background
e.g. a) Black tea and coffee requires 100℃ water. b) Green tea demands 80℃ boiled water. c) Milk powder prefers 37-40℃ water.
(B) Varied boiled water temperatures are necessary for different drinks
01
fig.2 boiling water for tea
fig.3 warm water requirment for milk powder powder
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background 01 (C) Common electric water boilers exist unhealthy factors
a) Mixture of boiled and unboiled water may contain a variety of pathogenic microorganisms. b) Repeatedly boiled water may contain carcinogens which may exceed the safe standard.
fig.4 Mixture of boiled and unboiled water
fig.5 Repeatedly boiled water
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Principle of the Device 02
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Principle of the Device
Heat Exchanger
B1
A1
A2 A3
A4 A5
A6 A7
1 2
4 5
02
3
A1—A7:Solenoid valves B1 : Solenoid valve 4,5:outlets of boiled water
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Principle of the Device 02 Operation principle: 1. The flow rate on the hot side can be constant at 120L/h, while the flow on the cold side can be varied from 0 to 120L/h.
2.The hot side inlet water temperature is 100℃ and the cold side inlet water temperature is 23℃。
3. When heating water in any heating box is less than 3L, the box is replenished by cold water from the water pipe to 3L via valve A1.
fig.6 system schematic
Cold side 23℃
Hot side,100℃
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Mechanism
Based on experiment, this design eliminated problem of mixed water and reduced the problem of repeatedly boiled water.
Advantage 1: Healthy
Advantage 3: Energy Conserving
02 System Advantages
Temperature Adjustable
Energy Conserving
Healthy
• Recycled wasted energy through heat exchanger
• Reduced power through two boiler system
Advantage 2: Temperature Adjustable
Adjust temperature output through heat exchanger and controlling the rate of flow for cold water.
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Design of the Device 03
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03 Design of the Device
project 1:Heating Box
project 2:Heat Exchanger
project 4:Experimental Platform
project 3:Control System
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03 Design of the Device
project 1:Heating Box
fig.7 the design of heating box
Q cm tQPt
= Δ
=Energy equation:
The design results for the heating box: • external diameter is 220mm • thickness is 1.5mm with • height is 196.5mm • 304 stainless steel. The heating box has one water outlet,one water inlet and 1 service outlet.
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03 Design of the Device
project 2:Heat Exchanger
The method of designing a heat exchanger is LMTD(Log Mean Temperature Difference) method.
fig.8 Plate Heat Exchanger
Table.1 Parameters of actual plate heat exchanger
parameters value and unit
board spacing 0.003m
width of flowing path 0.197m
thickness of plate 0.0004m
total heat exchanging area
0.30m2
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03 Design of the Device
project 3:Control System
fig.9 Control subsystem
The control subsystem is the Arduino system, which mainly contains:
Ø one Arduino mega control module Ø multiple sensors,relays Ø solenoid valves Ø transformers Ø step-down modules.
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03 Design of the Device
project 4:Experimental Platform
fig.10 experimental platform
The experimental platform includes:
Ø 2 heating boxes
Ø 1 plate heat exchanger
Ø 7 solenoid valves
Ø 1 control subsystem
Ø 1 cold water inlet and 2 outlets
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Experimental Results
04
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04 Research Results
Stabilize the flow rate in hot side, adjust the flow rate of cold side water Find the relation between the temperature of outlet water and the flow rate of the cold water.
Assessment on the ability of conserving energy.
Test the workability of controlling on-off switch of the solenoid valve to change the temperature of output water.
Experiment 1 Experiment 2
Experiment 3
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04 Research Result
rela%onbetweenthetemperatureofoutputwaterandtheflowrateofthecoldwater
Experiment 1
As the cold side flow rate increases, the output boiled water temperature decreases.
Conclusion 1
y = 3E-05x3 - 0.005x2 - 0.0821x + 88.763 R² = 0.99239
60.0
65.0
70.0
75.0
80.0
85.0
90.0
10 20 30 40 50 60 70 80 90 100 110 120
Out
put t
empe
ratu
re(℃)
Cold side rate of flow(L/h)
Relation of output/cold side temperature
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04 Research Result
controllingon-offswitchofthesolenoidvalvetochangethetemperatureofoutput
Experiment 2
It is possible to change output temperature by controlling on-off switch of the solenoid valve
Conclusion2
y = 3E-07x2 - 0.0059x + 91.892 R² = 0.99138
60.0
65.0
70.0
75.0
80.0
85.0
90.0
95.0
0 2000 4000 6000 8000 10000 12000
Out
put t
empe
ratu
re(℃)
Time that valve is open(ms)
Temperature of output and time that the valve is open
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04 Experimental Results
Estimate energy saving performance using the heat amount reserved to the total heat to boil 3L of cold water. The efficient of energy saving is given by:
Experiment 3
2
1
1 QQ
η = −
Where: Q1 is the electric heat required to heat 3L water from 23s℃ to 100℃, Q2 is the electric heat required to heat 3L water firstly by heat exchanger, then to 100℃.
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04 Research Result
Assessmentontheabilityofconservingenergy(comparingin3Lwater)
Experiment 3
When boiling 3L water, the higher the cold side flow rate, the higher the efficiency.
Conclusion 3
y = 6E-07x3 - 0.0001x2 + 0.0089x - 0.1044 R² = 0.99715
0
0.1
0.2
0.3
0.4
0.5
0.6
0.00 20.00 40.00 60.00 80.00 100.00 120.00
Per
cent
age
of c
onse
rvin
g en
ergy
effi
cien
cy
Cold side rate of flow(L/h)
efficiency
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Conclusions
05
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05 Conclusions
1.This presentation raised a innovative type of energy conserving and temperature adjustable water boiler. This system includes two boiler, one plat heat exchanger and the Arduino control system. This design solved problems that standard boilers face such as mixed boiled and unboiled water, waste of energy, unadjusted output temperature.
2.With the usage of plat heat exchanger, this design enable the boiler to recycle heat energy, while being able to adjust output water temperature. At the same time, this design uses the unique two boiler system, being able to intake water and boil at the same time, enabling consistent output of boiled water.
Inovation
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05 Conclusion
1.Remained water in the heat exchanger that affects the temperature adjustability and efficiency of the boiler.
2. More optimization of the system is needed,i.e., heat preservation and filtration at the input.
3. More accurate temperature control subsystem.
Defects and follow ups
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Thanks for watching! Presenter: Rui Fu
November 20, 2019