GAIA Energy Co., Ltd
5 Patents No Patent Name Registration and Application Remark 1 Solar Cell Module (Registration) 10-1405444 2 3 4 Solar Cell Module Base For Supporting Solar Cell Module Photovoltaic Module Array (Raindrop System) Solar Cell Module and Apparatus for Manufacturing the Same (Registration) 10-1405445 (Registration) 10-1280833 (Registration) 10-1459099 5 Carrier Photovoltaic Generating Device (Registration) 10-1666852 6 Photovoltaic Tracking Device (Application) 10-2013-0088160 7 Hitting Unit for Reflow Apparatus (Application) 10-2016-0030534 8 Conveyor Profile for Reflow Apparatus (Application) 10-2016-0030535 9 Gas Exhaust Apparatus for Reflow Apparatus (Application) 10-2016-0030537 10 Reflow Apparatus (Application) 10-2016-0030538 11 12 Fluid Circulation Jet and Circulation SPA Apparatus Using the Same Heat Treatment Equipment Capable of Easily Assembling Heater (Registration) 10-1439251 (Application) 10-2017-0064610 6 Certifications
Photovoltaic business profitability Photovoltaic 5. REC sale OWNER Subsidiary Type 1. Sales of electricity generation 6.Payment of REC amount 2. Payment of SMP amount KEPCO 3. Check generator capacity performance Korea Energy Management Corporation Energy targets and standards Small scale (~100KW) Medium scale (100~3MW) Large scale (3MW~) Ground 1.2 1.2+1.0 1.2+1.0+0.7 Rooftop 1.5 1.5+1.0 On the water Generation Revenue SMP+(REC X weight) 1.5 SMP Contract subject : KEPCO Monthly systematic marginal price payment After the PPA contract with KEPCO, sustainable sales during power plant operation Automatically renew contract every year REC Issued by: Renewable Energy Center Contract target: 17 suppliers REC is weighted according to install -ation site and capacity (0.7~1.5 times) The contract market Open and trade twice a year (Apr, Oct) Contract with power generation subsidiary (contract with 1 place for 20 years) Fix REC during contract term The spot market Weekly opening and trading Sell or buy like stock market Change REC every time when bid
PV Generation System of Ground Type 1. Capacity : 300 kw 2. Location : Yeongam, Jeollanam-do 3. Period : Jan, 2015 ~ Mar. 2015 4. Module : JSPV 250 W, 1,140 ea 5. Inverter : Dong Yang E&P 5.5 kw, 54 ea 1. Capacity : 99 kw 2. Location : Anseong, Gyeonggi-do 3. Period : Mar. 2013 ~ Apr. 2013 4. Module : JSPV 250 W, 396 ea 5. Inverter : Dong Yang E&P 5.5 kw, 18 ea 1. Capacity : 99 kw 2. Location : Paju, Gyeonggi-do 3. Period : May, 2014 ~ Jun. 2014 4. Module : Hyundai 275 W, 360 ea 5. Inverter : Dong Yang E&P 5.5 kw, 18 ea
PV Generation System of Inclined Roof Type 1. Capacity : 196.04 kw 2. Location : Hwaseong, Gyeonggi-do 3. Period : Sep, 2012 ~ Oct. 2012 4. Module : JSPV 250 W, 1,140 ea 5. Inverter : Dong Yang E&P 5.5 kw, 54 ea 1. Capacity : 395.2 kw 2. Location : Hwaseong, Gyeonggi-do 3. Period : Mar, 2013 ~ Apr, 2013 4. Module : LSIS 260 W, 1,520 ea 5. Inverter : KACO 200 kw, 2 ea 1. Capacity : 248.4 kw 2. Location : Paju, Gyeonggi-do 3. Period : Dec, 2014 ~ Feb. 2015 4. Module : Hyundai 270 W, 920 ea 5. Inverter : Dong Yang E&P 3.1 kw, 80 ea
PV Generation System of Flat Roof Type 1. Capacity : 99.11 kw 2. Location : Chungju, Chungcheongbukdo 3. Period : Oct, 2013 ~ Nov, 2013 4. Module : LG 265 W, 374 ea 5. Inverter : Dong Yang E&P 3.1 kw, 34 ea 1. Capacity : 244.8 kw 2. Location : Anseong, Gyeonggi-do 3. Period : Nov, 2014 ~ Nov. 2014 4. Module : Hansol 260 W, 960 ea 5. Inverter : KACO 250 kw, 1 ea 1. Capacity : 70 kw 2. Location : Suwon, Gyeonggi-do 3. Period : Nov, 2014 ~ Dec. 2014 4. Module : LSIS 250 W, 280 ea 5. Inverter : Dong Yang E&P 5.5 kw, 13 ea
PV Generation System of solar Home 1. Capacity : 600 kw 2. Location : Gyeongsangbuk-do, 200 houses 3. Period : Jul, 2012 ~ Oct, 2015 4. Module : Hyundai, Sinsung 260 W, 12 ea 5. Inverter : Dong Yang E&P 3.1 kw 1. Capacity : 6 Kw 9 houses 2. Location : Yongin, Gyeonggi-do 3. Period : Apr, 2013 ~ Apr. 2013 4. Module : LSIS 250 W, 280 ea 5. Inverter : Dong Yang E&P 5.5 kw, 13 ea
PV Generation of Off-Grid for commercial system 1. PV Generation System : 6 kw 2. MPPT Charger : 6 kw 3. ESS : 96 kwh 4. Inverter : 3 kw 5. Diesel Generator : 3 kw 6. Cold Storage Device : 2 ton 1. Capacity : 1.1 kw. 2 sets 2. Location : Koreatech University 3. Module : Hyundai 265 W, Multi 4 ea Hyundai 275 W, Mono 4 ea 4. MPPT Charger : 1.1 kw 5. ESS : 19.2 kwh 6. Inverter : 2 kw 1. LED Lamp : SET060 (KMW) 2. Module : Hyundai Mono 270Wp 3. Battery : Li-Ion 1 kwh (Number of sunless days: 2 days) 4. Charging Controller : Time, Brightness control (SPM) (Controller and battery Pole encased type)
Heat Treatment Process Equipment of Inline type for high electrical saving 1. Maximum Temperature : 300 ± 5 2. Process Temperature : 180 ± 5 3. Rising Temperature : 20 /min 4. Consumed Power: 16 kwh 8 kwh 5. The interval between the heater and the substrate backside : 10 ~ 8 mm (Adjustable) 3D Modeling Heater structure High electrical saving heat treatment technology by FIR plate heater with high radiation <16 kwh 8 kwh > Indirectly Sheath Heater + Hot air N 2 Gas Supply Directly FIR Plate Heater + N 2 Gas Supply Halogen Lamp Heater FIR Plate Heater Technology to minimize heat loss with temperature control subdivision in heat treatment process 50% saving technology of installation area as to reduction of heat treatment process time < 2 m Below 1 m>
Heat Treatment Process Equipment of Batch type for high electrical saving 1. Maximum Temperature : 300 ± 5 2. Process Temperature : 180 ± 5 3. Rising Temperature : 20 /min 4. Consumed Power : 3.1 kwh 1.5 kwh 5. The interval between the heater and the substrate backside : 10 ~ 8 (Adjustable] The rising temperature data of top and bottom Heater for batch type Dry Unit Electric diagram The figure of front and back electrode by printer after thermal treatment process Division Process Temperature Rise Time Front Process Time Back Convection Heater FIR Heater 180 180 30 min 3 min 5 min 5 min 10 sec 30 sec Note 6Times Faster 18Times Faster 10Timse Faster