designing 2 renewable energy system, that can produce electricity needed to make hydrogen that can power a 100 house

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– The similarity in the project report should be less than 5% from a single source.

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– Style Guide: Use Times New Roman font, size 12 with single spacing for the report.

– the chosen topic is ( Green hydrogen production to meet the annual electricity needs of hundred homes ).

– the annual energy consumption is calculated in the excel sheet provided.

– when u design the two systems choose the location of Dammam in Saudi Arabia.

– Solar and Wind energy system is to be chosen as the two systems.

– read the paper of the project carfully and applay all required parts


Unformatted Attachment Preview

Electricity Consumption Baseline Data
DEVICE (hrs)
Window Type Air Conditioner
Split Type Air Conditioner
TV
Refrigerator *
Freezer *
Washing Machine AND DRYER
Laptop Computer
Water Heater
Hair Dryer
LED LIGHTS
VACUUME CLEANER
* refrigerator compressors generally run 25% of the time, so input 6 hours
Summer Hours
15
15
9
6
6
5
3
6
1
9
1.5
Winter Hours
8
8
9
6
6
5
3
9
1
9
1.5
Units
5
3
3
2
2
1
4
4
2
14
14
Rating (W)
1700
7950
220
178
332
475
65
1200
1200
7
1500
Annual Energy Consumption (kWhr) AS PER SASO OR UNIT LABLE
4811
6021
178
332
475

Summer Consumption/day Winter Consumption/day
127.5
68.0
357.8
190.8
5.9
5.9
2.14
2.14
3.98
3.98
2.38
2.38
0.78
0.78
28.80
43.20
2.40
2.40
0.88
0.88
31.50
31.50
Annual Energy Consumption (kWhr)
24055.0
18063.0
2168.1
356.0
664.0
475.0
284.7
13140.0
876.0
321.9
11497.5
Reference
(Classic) brand
(Mando) brand SASO label
(Skyworth) brand
(Hisense) brand SASO label
(Hisense) brand SASO label
(LG) brand SASO label
(ASUS) brand
(SAUDI CERAMICS) brand
(OKEMA) brand
(PHILIPS AND OTHER ) brand
(PANASONIC) brand
SASO LABLE Reference
NA
SASO 2683:2018
NA
SASO 2892:2018
SASO 2892:2018
SASO 2885:2020
NA
NA
NA
NA
NA
Conversions and Parameters
W per kW
1000
TOTALS
KWh/month
5991.77
3918.62
Annual Energy Consumption kWh
Annual CO2 Emitted
CO2: kg/kWh
71901
47023.4
Emission Factors for Saudi Arabia [1]
0.654
[1] https://cdmdna.gov.sa/content/pdf/GEF.pdf
30000.0
250.0
400.0
Winter Consumption/day
150.0
100.0
50.0
350.0
Summer Consumption/day
Annual Energy Consumption (kWhr)
25000.0
200.0
20000.0
15000.0
10000.0
5000.0
300.0
250.0
200.0
150.0
100.0
50.0
0.0
0.0
Window Type
Air Conditioner
Split Type Air
Conditioner
TV
Refrigerator *
Freezer *
Washing
Machine AND
DRYER
DEVICE
Laptop
Computer
Water Heater
Hair Dryer
LED LIGHTS
VACUUME
CLEANER
Window Type Split Type Air
Air Conditioner Conditioner
0.0
Window Type Air
Conditioner
Split Type Air
Conditioner
TV
Refrigerator *
Freezer *
Washing Machine Laptop Computer
AND DRYER
DEVICE
Water Heater
Hair Dryer
LED LIGHTS
VACUUME
CLEANER
TV
Refrigerator *
Freezer *
Washing
Machine AND
DRYER
DEVICE
Laptop
Computer
Water Heater
Hair Dryer
LED LIGHTS
VACUUME
CLEANER
Perform a techno-economic study on any of the following or similar topics:
1. Renewable energy powered desalination to meet the annual fresh water needs of
hundred homes.
2. Renewable energy powered carbon capture (can be direct air capture or capture
from point sources) to capture the CO2 emissions emitted from fossil-fueled power
plants to meet the annual electricity needs of hundred homes.
3. Green hydrogen production to meet the annual electricity needs of hundred
homes.
The annual consumption of water and electricity for your home is to be used as the basis
for estimating the annual fresh water and electricity requirement for hundred homes.
It is recommended to use System Advisor Model (SAM) or an equivalent software for the
above mentioned topics. SAM has a dedicated channel on YouTube which describes the
usage of various modules in detail. Please see the link below for more details:
https://www.youtube.com/@SAMDemoVideos
The student is expected to estimate the electricity required to accomplish the target
(desalination, carbon capture, hydrogen production, and others) based on a thorough
literature review and then focus on comparing two different grid-connected energy
conversion systems to generate the required electricity. The student is expected to
optimize each energy conversion system to some degree and pick the best option. The
overall comparison between the two grid-connected energy conversion systems should
include metrics for cost incurred and emissions prevented. Some suggested metrics
include CO2 emissions, payback time, and LCOE. Always ensure to clearly mention the
assumptions used in the study.
The IBL project report is expected to follow the template of a typical research paper and
should contain the following:
1. Abstract
2. Keywords
3. Introduction (with at least 15 references)
4. Methodology (including key formula used)
5. Results and Discussion
6. Concluding remarks
7. References

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