Changes
On August 20, 2024 at 3:53:45 PM +0800, Lan Thuong:
-
Added resource Ocean wave power data generation for grid integration studies to The Potential of Ocean Wave Power in Vietnam
f | 1 | { | f | 1 | { |
2 | "author": "Lan Thuong Nguyen", | 2 | "author": "Lan Thuong Nguyen", | ||
3 | "author_email": null, | 3 | "author_email": null, | ||
4 | "contact_email": "lanthuong0812@gmail.com", | 4 | "contact_email": "lanthuong0812@gmail.com", | ||
5 | "contact_person": "Lan Thuong Nguyen", | 5 | "contact_person": "Lan Thuong Nguyen", | ||
6 | "created_time": "2024-08-20", | 6 | "created_time": "2024-08-20", | ||
7 | "creator_user_id": "4a5904d3-04f6-40d8-9e21-95c706a7278b", | 7 | "creator_user_id": "4a5904d3-04f6-40d8-9e21-95c706a7278b", | ||
8 | "data_type": [ | 8 | "data_type": [ | ||
9 | "doc", | 9 | "doc", | ||
10 | "network" | 10 | "network" | ||
11 | ], | 11 | ], | ||
12 | "end_time": "2024-12", | 12 | "end_time": "2024-12", | ||
13 | "groups": [], | 13 | "groups": [], | ||
14 | "id": "b2693598-1c6a-4041-b414-982c4fc9607d", | 14 | "id": "b2693598-1c6a-4041-b414-982c4fc9607d", | ||
15 | "isopen": false, | 15 | "isopen": false, | ||
16 | "keywords": [ | 16 | "keywords": [ | ||
17 | "Q15751722", | 17 | "Q15751722", | ||
18 | "Q119851458" | 18 | "Q119851458" | ||
19 | ], | 19 | ], | ||
20 | "language": [ | 20 | "language": [ | ||
21 | "eng" | 21 | "eng" | ||
22 | ], | 22 | ], | ||
23 | "license_id": "notspecified", | 23 | "license_id": "notspecified", | ||
24 | "license_title": "License Not Specified", | 24 | "license_title": "License Not Specified", | ||
25 | "maintainer": null, | 25 | "maintainer": null, | ||
26 | "maintainer_email": null, | 26 | "maintainer_email": null, | ||
27 | "metadata_created": "2024-08-20T07:25:06.754289", | 27 | "metadata_created": "2024-08-20T07:25:06.754289", | ||
n | 28 | "metadata_modified": "2024-08-20T07:52:57.889953", | n | 28 | "metadata_modified": "2024-08-20T07:53:45.835937", |
29 | "name": "the-potential-of-ocean-wave-power-in-vietnam", | 29 | "name": "the-potential-of-ocean-wave-power-in-vietnam", | ||
30 | "notes": "This project employs qualitative data collection methods, | 30 | "notes": "This project employs qualitative data collection methods, | ||
31 | emphasizing reusing existing data when appropriate. Data provenance | 31 | emphasizing reusing existing data when appropriate. Data provenance | ||
32 | will be verified through the original publishers. All potential data | 32 | will be verified through the original publishers. All potential data | ||
33 | sources have been thoroughly evaluated for reuse. The project relies | 33 | sources have been thoroughly evaluated for reuse. The project relies | ||
34 | exclusively on textual documents, mainly academic research, storing | 34 | exclusively on textual documents, mainly academic research, storing | ||
35 | data in PDF format or network-based data. Preference is given to open | 35 | data in PDF format or network-based data. Preference is given to open | ||
36 | and standard formats to facilitate data sharing and ensure long-term | 36 | and standard formats to facilitate data sharing and ensure long-term | ||
37 | reusability, as recommended by various repositories that maintain | 37 | reusability, as recommended by various repositories that maintain | ||
38 | lists of such preferred formats.", | 38 | lists of such preferred formats.", | ||
n | 39 | "num_resources": 7, | n | 39 | "num_resources": 8, |
40 | "num_tags": 3, | 40 | "num_tags": 3, | ||
41 | "organization": { | 41 | "organization": { | ||
42 | "approval_status": "approved", | 42 | "approval_status": "approved", | ||
43 | "created": "2024-08-20T15:01:01.093630", | 43 | "created": "2024-08-20T15:01:01.093630", | ||
44 | "description": "This dataset contains an archive of ocean wave | 44 | "description": "This dataset contains an archive of ocean wave | ||
45 | power research data collected from various sources, focusing on the | 45 | power research data collected from various sources, focusing on the | ||
46 | potential of harnessing wave energy for renewable power generation. | 46 | potential of harnessing wave energy for renewable power generation. | ||
47 | The data encompasses background and rationale, geographic potential, | 47 | The data encompasses background and rationale, geographic potential, | ||
48 | technological potential, international cooperation, benefits, and | 48 | technological potential, international cooperation, benefits, and | ||
49 | challenges, which are critical for evaluating the feasibility of wave | 49 | challenges, which are critical for evaluating the feasibility of wave | ||
50 | power projects. ", | 50 | power projects. ", | ||
51 | "id": "62f4af9f-de44-46db-b8c2-a2b43a68e399", | 51 | "id": "62f4af9f-de44-46db-b8c2-a2b43a68e399", | ||
52 | "image_url": "", | 52 | "image_url": "", | ||
53 | "is_organization": true, | 53 | "is_organization": true, | ||
54 | "name": "the-potential-of-ocean-wave-power-in-vietnam", | 54 | "name": "the-potential-of-ocean-wave-power-in-vietnam", | ||
55 | "state": "active", | 55 | "state": "active", | ||
56 | "title": "The Potential of Ocean Wave Power in Vietnam", | 56 | "title": "The Potential of Ocean Wave Power in Vietnam", | ||
57 | "type": "organization" | 57 | "type": "organization" | ||
58 | }, | 58 | }, | ||
59 | "owner_org": "62f4af9f-de44-46db-b8c2-a2b43a68e399", | 59 | "owner_org": "62f4af9f-de44-46db-b8c2-a2b43a68e399", | ||
60 | "private": false, | 60 | "private": false, | ||
61 | "process_step": "", | 61 | "process_step": "", | ||
62 | "relationships_as_object": [], | 62 | "relationships_as_object": [], | ||
63 | "relationships_as_subject": [], | 63 | "relationships_as_subject": [], | ||
64 | "remarks": "", | 64 | "remarks": "", | ||
65 | "resources": [ | 65 | "resources": [ | ||
66 | { | 66 | { | ||
67 | "cache_last_updated": null, | 67 | "cache_last_updated": null, | ||
68 | "cache_url": null, | 68 | "cache_url": null, | ||
69 | "created": "2024-08-20T07:30:11.527240", | 69 | "created": "2024-08-20T07:30:11.527240", | ||
70 | "datastore_active": false, | 70 | "datastore_active": false, | ||
71 | "description": "The potential wave power has been assessed based | 71 | "description": "The potential wave power has been assessed based | ||
72 | on long-term wave data along a marginal sea area offshore Phu Yen | 72 | on long-term wave data along a marginal sea area offshore Phu Yen | ||
73 | province in Central Vietnam. Based on the publicly available | 73 | province in Central Vietnam. Based on the publicly available | ||
74 | WaveWatch-III reanalysis wave data (NOAA), the deep-water wave climate | 74 | WaveWatch-III reanalysis wave data (NOAA), the deep-water wave climate | ||
75 | from 1989 to 2019 has been analyzed and used as the boundary condition | 75 | from 1989 to 2019 has been analyzed and used as the boundary condition | ||
76 | for the MIKE21 spectral wave model. The hydrodynamic module of MIKE21 | 76 | for the MIKE21 spectral wave model. The hydrodynamic module of MIKE21 | ||
77 | is also run in coupled mode. The model has been calibrated and | 77 | is also run in coupled mode. The model has been calibrated and | ||
78 | verified against the measured data at three wave gauges. Simulation | 78 | verified against the measured data at three wave gauges. Simulation | ||
79 | has been performed for every month, each with 1-2 typical wave | 79 | has been performed for every month, each with 1-2 typical wave | ||
80 | conditions. The results show that the highest wave power (~29 kW/m) | 80 | conditions. The results show that the highest wave power (~29 kW/m) | ||
81 | occurs in December. The distribution of wave power along the 30-m | 81 | occurs in December. The distribution of wave power along the 30-m | ||
82 | depth contour has also been presented for the annual average, NE | 82 | depth contour has also been presented for the annual average, NE | ||
83 | monsoon (winter) average, and S monsoon (summer) average. The | 83 | monsoon (winter) average, and S monsoon (summer) average. The | ||
84 | distribution map shows that wave power is slightly higher in the south | 84 | distribution map shows that wave power is slightly higher in the south | ||
85 | of this area, and the NE monsoon season has much higher wave power | 85 | of this area, and the NE monsoon season has much higher wave power | ||
86 | (7.4 times compared to that of the S monsoon season). These findings | 86 | (7.4 times compared to that of the S monsoon season). These findings | ||
87 | may aid in planning the region's effective exploitation of wave | 87 | may aid in planning the region's effective exploitation of wave | ||
88 | energy.", | 88 | energy.", | ||
89 | "format": "PDF", | 89 | "format": "PDF", | ||
90 | "hash": "", | 90 | "hash": "", | ||
91 | "id": "1aee3043-2789-43d3-94b9-b24942503322", | 91 | "id": "1aee3043-2789-43d3-94b9-b24942503322", | ||
92 | "last_modified": null, | 92 | "last_modified": null, | ||
93 | "metadata_modified": "2024-08-20T07:34:02.542297", | 93 | "metadata_modified": "2024-08-20T07:34:02.542297", | ||
94 | "mimetype": null, | 94 | "mimetype": null, | ||
95 | "mimetype_inner": null, | 95 | "mimetype_inner": null, | ||
96 | "name": "Assessment of potential wave power along a coastal | 96 | "name": "Assessment of potential wave power along a coastal | ||
97 | province, Central Vietnam", | 97 | province, Central Vietnam", | ||
98 | "package_id": "b2693598-1c6a-4041-b414-982c4fc9607d", | 98 | "package_id": "b2693598-1c6a-4041-b414-982c4fc9607d", | ||
99 | "position": 0, | 99 | "position": 0, | ||
100 | "resource_type": null, | 100 | "resource_type": null, | ||
101 | "size": null, | 101 | "size": null, | ||
102 | "state": "active", | 102 | "state": "active", | ||
103 | "url": | 103 | "url": | ||
104 | "https://marineenergyjournal.org/imej/article/view/129/87", | 104 | "https://marineenergyjournal.org/imej/article/view/129/87", | ||
105 | "url_type": "" | 105 | "url_type": "" | ||
106 | }, | 106 | }, | ||
107 | { | 107 | { | ||
108 | "cache_last_updated": null, | 108 | "cache_last_updated": null, | ||
109 | "cache_url": null, | 109 | "cache_url": null, | ||
110 | "created": "2024-08-20T07:34:02.559631", | 110 | "created": "2024-08-20T07:34:02.559631", | ||
111 | "datastore_active": false, | 111 | "datastore_active": false, | ||
112 | "description": "With about a 7% average annual economic growth | 112 | "description": "With about a 7% average annual economic growth | ||
113 | rate in Vietnam, the demand for electricity production is increasing, | 113 | rate in Vietnam, the demand for electricity production is increasing, | ||
114 | and, with more than 3000 km of coastline, the country has great | 114 | and, with more than 3000 km of coastline, the country has great | ||
115 | potential for developing wave energy sources to meet such electricity | 115 | potential for developing wave energy sources to meet such electricity | ||
116 | production. This energy source, also known as renewable energy, comes | 116 | production. This energy source, also known as renewable energy, comes | ||
117 | from tides, wind, heat differences, flows, and waves. Both wind and | 117 | from tides, wind, heat differences, flows, and waves. Both wind and | ||
118 | wave energy are considered to have the most potential for energy | 118 | wave energy are considered to have the most potential for energy | ||
119 | sources in Vietnam. Hydropower projects are controversial due to | 119 | sources in Vietnam. Hydropower projects are controversial due to | ||
120 | depleting water resources and regulating floods, but nuclear power | 120 | depleting water resources and regulating floods, but nuclear power | ||
121 | projects cause safety concerns. To overcome this problem, Vietnamese | 121 | projects cause safety concerns. To overcome this problem, Vietnamese | ||
122 | scientists are considering using abundant wave energy resources for | 122 | scientists are considering using abundant wave energy resources for | ||
123 | electricity. The ocean energy sector offers many new technologies to | 123 | electricity. The ocean energy sector offers many new technologies to | ||
124 | help minimize carbon dioxide emissions (CO2) in the living | 124 | help minimize carbon dioxide emissions (CO2) in the living | ||
125 | environment. Further, many countries already have wave power plants. | 125 | environment. Further, many countries already have wave power plants. | ||
126 | In this research, an integrated model is proposed for wave energy | 126 | In this research, an integrated model is proposed for wave energy | ||
127 | plant location selection, combining the fuzzy analytical network | 127 | plant location selection, combining the fuzzy analytical network | ||
128 | process (FANP) and the technique for order of preference by similarity | 128 | process (FANP) and the technique for order of preference by similarity | ||
129 | to ideal solution (TOPSIS). As a result, Con Co (SITE3) is determined | 129 | to ideal solution (TOPSIS). As a result, Con Co (SITE3) is determined | ||
130 | the best site for wave energy production. The primary aim of this | 130 | the best site for wave energy production. The primary aim of this | ||
131 | study is to provide insight into site selection problems for renewable | 131 | study is to provide insight into site selection problems for renewable | ||
132 | energy investments of Vietnam. This research proposes a fuzzy | 132 | energy investments of Vietnam. This research proposes a fuzzy | ||
133 | multiple-criteria decision-making (MCDM) model for site selection in | 133 | multiple-criteria decision-making (MCDM) model for site selection in | ||
134 | the renewable energy sector. The proposed model can also address | 134 | the renewable energy sector. The proposed model can also address | ||
135 | different complex problems in location selection; it is also a | 135 | different complex problems in location selection; it is also a | ||
136 | flexible design model for considering the evaluation criteria; | 136 | flexible design model for considering the evaluation criteria; | ||
137 | further, it applies to site selection of other renewable energies | 137 | further, it applies to site selection of other renewable energies | ||
138 | worldwide.", | 138 | worldwide.", | ||
139 | "format": "PDF", | 139 | "format": "PDF", | ||
140 | "hash": "", | 140 | "hash": "", | ||
141 | "id": "463fa670-3afb-4041-8389-a7fea6c0f486", | 141 | "id": "463fa670-3afb-4041-8389-a7fea6c0f486", | ||
142 | "last_modified": null, | 142 | "last_modified": null, | ||
143 | "metadata_modified": "2024-08-20T07:36:10.683830", | 143 | "metadata_modified": "2024-08-20T07:36:10.683830", | ||
144 | "mimetype": null, | 144 | "mimetype": null, | ||
145 | "mimetype_inner": null, | 145 | "mimetype_inner": null, | ||
146 | "name": "The Study of a Multicriteria Decision Making Model for | 146 | "name": "The Study of a Multicriteria Decision Making Model for | ||
147 | Wave Power Plant Location Selection in Vietnam", | 147 | Wave Power Plant Location Selection in Vietnam", | ||
148 | "package_id": "b2693598-1c6a-4041-b414-982c4fc9607d", | 148 | "package_id": "b2693598-1c6a-4041-b414-982c4fc9607d", | ||
149 | "position": 1, | 149 | "position": 1, | ||
150 | "resource_type": null, | 150 | "resource_type": null, | ||
151 | "size": null, | 151 | "size": null, | ||
152 | "state": "active", | 152 | "state": "active", | ||
153 | "url": "https://www.mdpi.com/2227-9717/7/10/650", | 153 | "url": "https://www.mdpi.com/2227-9717/7/10/650", | ||
154 | "url_type": "" | 154 | "url_type": "" | ||
155 | }, | 155 | }, | ||
156 | { | 156 | { | ||
157 | "cache_last_updated": null, | 157 | "cache_last_updated": null, | ||
158 | "cache_url": null, | 158 | "cache_url": null, | ||
159 | "created": "2024-08-20T07:36:10.696103", | 159 | "created": "2024-08-20T07:36:10.696103", | ||
160 | "datastore_active": false, | 160 | "datastore_active": false, | ||
161 | "description": "Tidal energy is a renewable energy source | 161 | "description": "Tidal energy is a renewable energy source | ||
162 | produced by the rise and fall of ocean tides. Tidal energy can be | 162 | produced by the rise and fall of ocean tides. Tidal energy can be | ||
163 | exploited using a special type of generator that converts tidal energy | 163 | exploited using a special type of generator that converts tidal energy | ||
164 | into electricity. Tidal power generation has the potential to open up | 164 | into electricity. Tidal power generation has the potential to open up | ||
165 | many prospects for energy field and minimize carbon dioxide emissions | 165 | many prospects for energy field and minimize carbon dioxide emissions | ||
166 | that cause the greenhouse effect. To evaluate the possibility of tidal | 166 | that cause the greenhouse effect. To evaluate the possibility of tidal | ||
167 | power, it is necessary to have documents and data on average annual | 167 | power, it is necessary to have documents and data on average annual | ||
168 | tidal amplitude, tidal regime, and main tidal waves in the study area. | 168 | tidal amplitude, tidal regime, and main tidal waves in the study area. | ||
169 | To calculate the tidal power potential for the east coast of Vietnam, | 169 | To calculate the tidal power potential for the east coast of Vietnam, | ||
170 | this article applies the calculation formula of tidal power energy by | 170 | this article applies the calculation formula of tidal power energy by | ||
171 | Russian scientist L.B. Bernstein. The annual mean tidal amplitude and | 171 | Russian scientist L.B. Bernstein. The annual mean tidal amplitude and | ||
172 | the K1, O1, and M2 wave amplitude data at nearly 2000 calculation | 172 | the K1, O1, and M2 wave amplitude data at nearly 2000 calculation | ||
173 | points along the coast of Vietnam were extracted from the TPOX8-Atlas | 173 | points along the coast of Vietnam were extracted from the TPOX8-Atlas | ||
174 | harmonic constant set. Research results showed that Vietnam has great | 174 | harmonic constant set. Research results showed that Vietnam has great | ||
175 | potential for tidal energy along the Hai Phong - Quang Ninh coastal | 175 | potential for tidal energy along the Hai Phong - Quang Ninh coastal | ||
176 | area and the southeast region with a prospective 41.6 GWh/km2/y.", | 176 | area and the southeast region with a prospective 41.6 GWh/km2/y.", | ||
177 | "format": "PDF", | 177 | "format": "PDF", | ||
178 | "hash": "", | 178 | "hash": "", | ||
179 | "id": "f0416ae1-989f-4d67-9156-2298ab33251e", | 179 | "id": "f0416ae1-989f-4d67-9156-2298ab33251e", | ||
180 | "last_modified": null, | 180 | "last_modified": null, | ||
181 | "metadata_modified": "2024-08-20T07:37:57.467760", | 181 | "metadata_modified": "2024-08-20T07:37:57.467760", | ||
182 | "mimetype": null, | 182 | "mimetype": null, | ||
183 | "mimetype_inner": null, | 183 | "mimetype_inner": null, | ||
184 | "name": "Tidal energy potential in coastal Vietnam", | 184 | "name": "Tidal energy potential in coastal Vietnam", | ||
185 | "package_id": "b2693598-1c6a-4041-b414-982c4fc9607d", | 185 | "package_id": "b2693598-1c6a-4041-b414-982c4fc9607d", | ||
186 | "position": 2, | 186 | "position": 2, | ||
187 | "resource_type": null, | 187 | "resource_type": null, | ||
188 | "size": null, | 188 | "size": null, | ||
189 | "state": "active", | 189 | "state": "active", | ||
190 | "url": | 190 | "url": | ||
191 | "https://vietnamscience.vjst.vn/index.php/vjste/article/view/41/29", | 191 | "https://vietnamscience.vjst.vn/index.php/vjste/article/view/41/29", | ||
192 | "url_type": "" | 192 | "url_type": "" | ||
193 | }, | 193 | }, | ||
194 | { | 194 | { | ||
195 | "cache_last_updated": null, | 195 | "cache_last_updated": null, | ||
196 | "cache_url": null, | 196 | "cache_url": null, | ||
197 | "created": "2024-08-20T07:37:57.477586", | 197 | "created": "2024-08-20T07:37:57.477586", | ||
198 | "datastore_active": false, | 198 | "datastore_active": false, | ||
199 | "description": "In Vietnam, the energy demand shows an | 199 | "description": "In Vietnam, the energy demand shows an | ||
200 | ever-increasing trend. To limit the utilization of fossil fuels and | 200 | ever-increasing trend. To limit the utilization of fossil fuels and | ||
201 | the following consequences for the environment, renewable energy | 201 | the following consequences for the environment, renewable energy | ||
202 | sources must be adopted. In this context, the paper assesses the | 202 | sources must be adopted. In this context, the paper assesses the | ||
203 | utilization of offshore wind and sea wave, by considering a commercial | 203 | utilization of offshore wind and sea wave, by considering a commercial | ||
204 | wind turbine and a prototypical wave energy converter. Solar energy | 204 | wind turbine and a prototypical wave energy converter. Solar energy | ||
205 | can be optionally also collected by this device. An algorithm is | 205 | can be optionally also collected by this device. An algorithm is | ||
206 | introduced to find the best composition of the three sources able to | 206 | introduced to find the best composition of the three sources able to | ||
207 | cover a desired share of energy demand. The approach is applied to Ca | 207 | cover a desired share of energy demand. The approach is applied to Ca | ||
208 | Mau, a province in the southern part of Vietnam. Finally, the results | 208 | Mau, a province in the southern part of Vietnam. Finally, the results | ||
209 | encourage the adoption of these energy sources that could be easily | 209 | encourage the adoption of these energy sources that could be easily | ||
210 | implemented up to a share of the local energy demand equal to 65%. ", | 210 | implemented up to a share of the local energy demand equal to 65%. ", | ||
211 | "format": "PDF", | 211 | "format": "PDF", | ||
212 | "hash": "", | 212 | "hash": "", | ||
213 | "id": "9b37a833-a760-4d77-89ed-4661dcaf7003", | 213 | "id": "9b37a833-a760-4d77-89ed-4661dcaf7003", | ||
214 | "last_modified": null, | 214 | "last_modified": null, | ||
215 | "metadata_modified": "2024-08-20T07:48:20.032756", | 215 | "metadata_modified": "2024-08-20T07:48:20.032756", | ||
216 | "mimetype": null, | 216 | "mimetype": null, | ||
217 | "mimetype_inner": null, | 217 | "mimetype_inner": null, | ||
218 | "name": "Introduction of Offshore Wave, Wind and Solar Energies | 218 | "name": "Introduction of Offshore Wave, Wind and Solar Energies | ||
219 | in Vietnam", | 219 | in Vietnam", | ||
220 | "package_id": "b2693598-1c6a-4041-b414-982c4fc9607d", | 220 | "package_id": "b2693598-1c6a-4041-b414-982c4fc9607d", | ||
221 | "position": 3, | 221 | "position": 3, | ||
222 | "resource_type": null, | 222 | "resource_type": null, | ||
223 | "size": null, | 223 | "size": null, | ||
224 | "state": "active", | 224 | "state": "active", | ||
225 | "url": "https://ieeexplore.ieee.org/document/9389219", | 225 | "url": "https://ieeexplore.ieee.org/document/9389219", | ||
226 | "url_type": "" | 226 | "url_type": "" | ||
227 | }, | 227 | }, | ||
228 | { | 228 | { | ||
229 | "cache_last_updated": null, | 229 | "cache_last_updated": null, | ||
230 | "cache_url": null, | 230 | "cache_url": null, | ||
231 | "created": "2024-08-20T07:48:20.041877", | 231 | "created": "2024-08-20T07:48:20.041877", | ||
232 | "datastore_active": false, | 232 | "datastore_active": false, | ||
233 | "description": "Vietnam energy demand is currently growing at a | 233 | "description": "Vietnam energy demand is currently growing at a | ||
234 | very high annual rate, with the government being very interested in | 234 | very high annual rate, with the government being very interested in | ||
235 | investments in renewable energies. Since the region with the highest | 235 | investments in renewable energies. Since the region with the highest | ||
236 | solar and wind potential is far away from the big load centers, an | 236 | solar and wind potential is far away from the big load centers, an | ||
237 | investigation of offshore energy resources is here proposed. In this | 237 | investigation of offshore energy resources is here proposed. In this | ||
238 | study, a review of previous energy potential assessments is provided. | 238 | study, a review of previous energy potential assessments is provided. | ||
239 | Moreover, the minimum feed-in-tariff to make the investments | 239 | Moreover, the minimum feed-in-tariff to make the investments | ||
240 | profitable is evaluated, showing that the current tariff for offshore | 240 | profitable is evaluated, showing that the current tariff for offshore | ||
241 | wind plants is largely unattractive.", | 241 | wind plants is largely unattractive.", | ||
242 | "format": "PDF", | 242 | "format": "PDF", | ||
243 | "hash": "", | 243 | "hash": "", | ||
244 | "id": "ed0fffc9-f1b7-417f-a89b-64bc05a03351", | 244 | "id": "ed0fffc9-f1b7-417f-a89b-64bc05a03351", | ||
245 | "last_modified": null, | 245 | "last_modified": null, | ||
246 | "metadata_modified": "2024-08-20T07:52:16.758923", | 246 | "metadata_modified": "2024-08-20T07:52:16.758923", | ||
247 | "mimetype": null, | 247 | "mimetype": null, | ||
248 | "mimetype_inner": null, | 248 | "mimetype_inner": null, | ||
249 | "name": "Wave and Wind Energy Systems Integration in Vietnam: | 249 | "name": "Wave and Wind Energy Systems Integration in Vietnam: | ||
250 | Analysis of Energy Potential and Economic Feasibility", | 250 | Analysis of Energy Potential and Economic Feasibility", | ||
251 | "package_id": "b2693598-1c6a-4041-b414-982c4fc9607d", | 251 | "package_id": "b2693598-1c6a-4041-b414-982c4fc9607d", | ||
252 | "position": 4, | 252 | "position": 4, | ||
253 | "resource_type": null, | 253 | "resource_type": null, | ||
254 | "size": null, | 254 | "size": null, | ||
255 | "state": "active", | 255 | "state": "active", | ||
256 | "url": "https://ieeexplore.ieee.org/document/9160682", | 256 | "url": "https://ieeexplore.ieee.org/document/9160682", | ||
257 | "url_type": "" | 257 | "url_type": "" | ||
258 | }, | 258 | }, | ||
259 | { | 259 | { | ||
260 | "cache_last_updated": null, | 260 | "cache_last_updated": null, | ||
261 | "cache_url": null, | 261 | "cache_url": null, | ||
262 | "created": "2024-08-20T07:52:16.769908", | 262 | "created": "2024-08-20T07:52:16.769908", | ||
263 | "datastore_active": false, | 263 | "datastore_active": false, | ||
264 | "description": "This study aims to assess potential of tidal | 264 | "description": "This study aims to assess potential of tidal | ||
265 | current energy resources in Vietnam. The two regions of Vietnam, which | 265 | current energy resources in Vietnam. The two regions of Vietnam, which | ||
266 | have the highest tidal amplitudes are chosen to investigate. Their | 266 | have the highest tidal amplitudes are chosen to investigate. Their | ||
267 | tidal energy resource assessments are based on IEC TS 62600\u2013201 | 267 | tidal energy resource assessments are based on IEC TS 62600\u2013201 | ||
268 | standard and the technical guideline of European Marine Energy Center | 268 | standard and the technical guideline of European Marine Energy Center | ||
269 | (EMEC) combining with hydrodynamic modelling techniques using Delf3D | 269 | (EMEC) combining with hydrodynamic modelling techniques using Delf3D | ||
270 | and spatial analysis by ArcGIS. The input data for tidal propagation | 270 | and spatial analysis by ArcGIS. The input data for tidal propagation | ||
271 | model are extracted from Global Tidal Solutions (TPXO.8) and General | 271 | model are extracted from Global Tidal Solutions (TPXO.8) and General | ||
272 | Bathymetric Chart of the Ocean (GEBCO). The validation data are taken | 272 | Bathymetric Chart of the Ocean (GEBCO). The validation data are taken | ||
273 | from the tidal stations of Hon Dau and Vung Tau. The hydrodynamic | 273 | from the tidal stations of Hon Dau and Vung Tau. The hydrodynamic | ||
274 | model is only account for tide while neglecting effects of wind and | 274 | model is only account for tide while neglecting effects of wind and | ||
275 | wave. A hind-cast modelling for the year of 2019 is conducted to | 275 | wave. A hind-cast modelling for the year of 2019 is conducted to | ||
276 | estimate tidal velocity, from which annual tidal energy is calculated. | 276 | estimate tidal velocity, from which annual tidal energy is calculated. | ||
277 | Main results of the study include maps of tidal power density and | 277 | Main results of the study include maps of tidal power density and | ||
278 | potential areas, theoretical kinetic power, velocity distribution | 278 | potential areas, theoretical kinetic power, velocity distribution | ||
279 | histogram and technical power for potential areas.", | 279 | histogram and technical power for potential areas.", | ||
280 | "format": "PDF", | 280 | "format": "PDF", | ||
281 | "hash": "", | 281 | "hash": "", | ||
282 | "id": "be33b3db-4757-4244-a14a-6d822ece8c28", | 282 | "id": "be33b3db-4757-4244-a14a-6d822ece8c28", | ||
283 | "last_modified": null, | 283 | "last_modified": null, | ||
284 | "metadata_modified": "2024-08-20T07:52:57.897129", | 284 | "metadata_modified": "2024-08-20T07:52:57.897129", | ||
285 | "mimetype": null, | 285 | "mimetype": null, | ||
286 | "mimetype_inner": null, | 286 | "mimetype_inner": null, | ||
287 | "name": "Tidal Current Energy Resource Assessment for Vietnam", | 287 | "name": "Tidal Current Energy Resource Assessment for Vietnam", | ||
288 | "package_id": "b2693598-1c6a-4041-b414-982c4fc9607d", | 288 | "package_id": "b2693598-1c6a-4041-b414-982c4fc9607d", | ||
289 | "position": 5, | 289 | "position": 5, | ||
290 | "resource_type": null, | 290 | "resource_type": null, | ||
291 | "size": null, | 291 | "size": null, | ||
292 | "state": "active", | 292 | "state": "active", | ||
293 | "url": "https://ieeexplore.ieee.org/document/10395159", | 293 | "url": "https://ieeexplore.ieee.org/document/10395159", | ||
294 | "url_type": "" | 294 | "url_type": "" | ||
295 | }, | 295 | }, | ||
296 | { | 296 | { | ||
297 | "cache_last_updated": null, | 297 | "cache_last_updated": null, | ||
298 | "cache_url": null, | 298 | "cache_url": null, | ||
299 | "created": "2024-08-20T07:52:57.907517", | 299 | "created": "2024-08-20T07:52:57.907517", | ||
300 | "datastore_active": false, | 300 | "datastore_active": false, | ||
301 | "description": "An extremely abundant and promising source of | 301 | "description": "An extremely abundant and promising source of | ||
302 | energy exists in the world's oceans. Ocean energy exists in the forms | 302 | energy exists in the world's oceans. Ocean energy exists in the forms | ||
303 | of wave, tidal, marine currents, thermal (temperature gradient), and | 303 | of wave, tidal, marine currents, thermal (temperature gradient), and | ||
304 | salinity. Among these forms, opportunities and benefits have been | 304 | salinity. Among these forms, opportunities and benefits have been | ||
305 | identified in the area of ocean wave energy extraction, i.e., using | 305 | identified in the area of ocean wave energy extraction, i.e., using | ||
306 | wave energy converters (WECs) to harness the motion of waves and | 306 | wave energy converters (WECs) to harness the motion of waves and | ||
307 | converting that motion into electrical energy. Ocean wave power | 307 | converting that motion into electrical energy. Ocean wave power | ||
308 | exhibits several advantageous characteristics including high power | 308 | exhibits several advantageous characteristics including high power | ||
309 | density, low variability, and excellent forecastability. The United | 309 | density, low variability, and excellent forecastability. The United | ||
310 | States is estimated to have 260 TWh of potential wave energy off its | 310 | States is estimated to have 260 TWh of potential wave energy off its | ||
311 | coasts, which is approximately 6% of its annual electrical load | 311 | coasts, which is approximately 6% of its annual electrical load | ||
312 | (comparable to the current traditional hydro power contribution). | 312 | (comparable to the current traditional hydro power contribution). | ||
313 | Ocean waves have well-defined geographical attributes, where the wave | 313 | Ocean waves have well-defined geographical attributes, where the wave | ||
314 | power tends to be stronger on the western coasts of land masses and | 314 | power tends to be stronger on the western coasts of land masses and | ||
315 | also stronger moving north and south away from the equator. This is | 315 | also stronger moving north and south away from the equator. This is | ||
316 | due to the global wind cells, primarily the Westerlies, which tend to | 316 | due to the global wind cells, primarily the Westerlies, which tend to | ||
317 | cause eastwardly moving waves.", | 317 | cause eastwardly moving waves.", | ||
318 | "format": "PDF", | 318 | "format": "PDF", | ||
319 | "hash": "", | 319 | "hash": "", | ||
320 | "id": "a7273a16-4972-49ea-8352-a10868b48505", | 320 | "id": "a7273a16-4972-49ea-8352-a10868b48505", | ||
321 | "last_modified": null, | 321 | "last_modified": null, | ||
n | 322 | "metadata_modified": "2024-08-20T07:52:57.897304", | n | 322 | "metadata_modified": "2024-08-20T07:53:45.842410", |
323 | "mimetype": null, | 323 | "mimetype": null, | ||
324 | "mimetype_inner": null, | 324 | "mimetype_inner": null, | ||
325 | "name": "Advancing the Wave Energy Industry", | 325 | "name": "Advancing the Wave Energy Industry", | ||
326 | "package_id": "b2693598-1c6a-4041-b414-982c4fc9607d", | 326 | "package_id": "b2693598-1c6a-4041-b414-982c4fc9607d", | ||
327 | "position": 6, | 327 | "position": 6, | ||
328 | "resource_type": null, | 328 | "resource_type": null, | ||
329 | "size": null, | 329 | "size": null, | ||
330 | "state": "active", | 330 | "state": "active", | ||
331 | "url": "https://ieeexplore.ieee.org/document/7001788", | 331 | "url": "https://ieeexplore.ieee.org/document/7001788", | ||
t | t | 332 | "url_type": "" | ||
333 | }, | ||||
334 | { | ||||
335 | "cache_last_updated": null, | ||||
336 | "cache_url": null, | ||||
337 | "created": "2024-08-20T07:53:45.852735", | ||||
338 | "datastore_active": false, | ||||
339 | "description": "Ocean wave power is a promising renewable energy | ||||
340 | source that offers several attractive qualities, including high power | ||||
341 | density, low variability, and excellent forecastability. Within the | ||||
342 | next few years, several utility-scale wave energy converters are | ||||
343 | planned for grid connection (e.g., Pelamis Power in Portugal and Ocean | ||||
344 | Power Technologies in Oregon, USA), with plans for more utility-scale | ||||
345 | development to follow soon after. Presently, there is little research | ||||
346 | on the impact of large wave parks on utility operation. This paper | ||||
347 | presents a methodology for generating large-scale wave park power | ||||
348 | time-series data that can be used for utility integration studies. In | ||||
349 | addition, this paper presents a broad, brief introduction to ocean | ||||
350 | wave energy fundamentals, history, and state of the art.", | ||||
351 | "format": "PDF", | ||||
352 | "hash": "", | ||||
353 | "id": "3a9e3cd2-5e92-4534-b519-946bce6972c8", | ||||
354 | "last_modified": null, | ||||
355 | "metadata_modified": "2024-08-20T07:53:45.842597", | ||||
356 | "mimetype": null, | ||||
357 | "mimetype_inner": null, | ||||
358 | "name": "Ocean wave power data generation for grid integration | ||||
359 | studies", | ||||
360 | "package_id": "b2693598-1c6a-4041-b414-982c4fc9607d", | ||||
361 | "position": 7, | ||||
362 | "resource_type": null, | ||||
363 | "size": null, | ||||
364 | "state": "active", | ||||
365 | "url": "https://ieeexplore.ieee.org/document/5589711", | ||||
332 | "url_type": "" | 366 | "url_type": "" | ||
333 | } | 367 | } | ||
334 | ], | 368 | ], | ||
335 | "start_time": "2024-08", | 369 | "start_time": "2024-08", | ||
336 | "state": "draft", | 370 | "state": "draft", | ||
337 | "tags": [ | 371 | "tags": [ | ||
338 | { | 372 | { | ||
339 | "display_name": "Clean energy", | 373 | "display_name": "Clean energy", | ||
340 | "id": "2c9518ef-441a-48a7-ad0e-e30d1b79e8d2", | 374 | "id": "2c9518ef-441a-48a7-ad0e-e30d1b79e8d2", | ||
341 | "name": "Clean energy", | 375 | "name": "Clean energy", | ||
342 | "state": "active", | 376 | "state": "active", | ||
343 | "vocabulary_id": null | 377 | "vocabulary_id": null | ||
344 | }, | 378 | }, | ||
345 | { | 379 | { | ||
346 | "display_name": "Ocean wave", | 380 | "display_name": "Ocean wave", | ||
347 | "id": "6c67afb9-f168-4363-a9ce-471513c1e3af", | 381 | "id": "6c67afb9-f168-4363-a9ce-471513c1e3af", | ||
348 | "name": "Ocean wave", | 382 | "name": "Ocean wave", | ||
349 | "state": "active", | 383 | "state": "active", | ||
350 | "vocabulary_id": null | 384 | "vocabulary_id": null | ||
351 | }, | 385 | }, | ||
352 | { | 386 | { | ||
353 | "display_name": "Tide", | 387 | "display_name": "Tide", | ||
354 | "id": "8bc09c2d-14cc-4975-8fd7-80f6e52f4b2a", | 388 | "id": "8bc09c2d-14cc-4975-8fd7-80f6e52f4b2a", | ||
355 | "name": "Tide", | 389 | "name": "Tide", | ||
356 | "state": "active", | 390 | "state": "active", | ||
357 | "vocabulary_id": null | 391 | "vocabulary_id": null | ||
358 | } | 392 | } | ||
359 | ], | 393 | ], | ||
360 | "temp_res": "daily", | 394 | "temp_res": "daily", | ||
361 | "title": "The Potential of Ocean Wave Power in Vietnam", | 395 | "title": "The Potential of Ocean Wave Power in Vietnam", | ||
362 | "type": "dataset", | 396 | "type": "dataset", | ||
363 | "url": null, | 397 | "url": null, | ||
364 | "version": null | 398 | "version": null | ||
365 | } | 399 | } |