TCWY Reference Cases
1. COG Methanation to LNG (Whole Process) and COG Purification Cases
|
No. |
Customer |
Project |
Remark |
|
1 |
Handan Xinsheng |
34500Nm3/h COG comprehensive utilization project |
The first set of adjustable carbon-hydrogen co-production LNG industrial plant |
|
2 |
Shangdong Dong’e |
12500 Nm3/h COG comprehensive utilization to production SNG project |
|
|
3 |
Hebei Gaocheng |
25000 Nm3/h COG comprehensive utilization to production LNG project |
|
|
4 |
Xinjiang Ilite |
COG comprehensive utilization to production LNG project |
carbon supplement process LNG: 50X104Nm3/d |
|
5 |
Yunnan Fuyuan |
20000 Nm3/h COG Comprehensive utilization to production LNG project |
the first set of localization technology |
|
6 |
Ningxia Pingluo Sunshine coking |
10000 Nm3/h COG comprehensive utilization to production SNG project |
|
|
7 |
Heilongjiang Qitaihe Baililiang New Energy |
25000 Nm3/h COG comprehensive utilization to production SNG project |
|
|
8 |
Panzhihua Huayi Energy Co., LTD. |
COG to LNG and anthracene oil hydrogenation , Energy saving and emission Reduction project |
40000 Nm3/h, Preliminary design |
|
9 |
Jilin Dingyun |
30000 Nm3/h COG comprehensive utilization to production LNG project |
|
|
10 |
Shanxi Huasheng |
25000 Nm3/h COG comprehensive utilization to production LNG project |
|
2. Fuel Cell Hydrogen/High Purity Hydrogen Typical Cases
|
No. |
Customer |
Capacity |
Hydrogen Requirements |
Remark |
|
1 |
South Korea Hyundai Steel hydrogen plant |
Feed gas pressure 1.65MPa, H2 content 57%, processing capacity 12000Nm³/h, |
Product hydrogen 5745Nm³/h, and the purity meets the 99.999% high purity hydrogen requirement in GB/T3634.2-2011. |
The world's first set of COG direct production of fuel cell high-purity hydrogen, starting running in 2015 |
|
2 |
Wuhan Iron & Steel Petrochemical Industry PSA Hydrogen purification unit (Phase I) |
Feed gas pressure 2.0MPa, H2 content 95%, processing capacity 975Nm³/h |
Product hydrogen 800Nm³/h,and the purity meets the 99.999% high purity hydrogen requirement in GB/T3634.2-2011. |
The first set of hydrogen standards for the production of electronic grade from fossil exhaust |
|
3 |
Wuhan Iron & Steel Petrochemical Industry PSA Hydrogen purification unit (Phase II) |
Feed gas pressure 2.0MPa, H2 content 95%, processing capacity 1950Nm³/h
|
Product hydrogen 1600Nm³/h,and the purity meets the 99.999% high purity hydrogen requirement in GB/T3634.2-2011. |
Hydrogen standard for electronic grade |
|
4 |
Zhuhai petrochemical PSA hydrogen purification unit |
Feed gas pressure 2.3MPa, H2 content 74%, processing capacity 20000Nm³/h, |
Product hydrogen①4000Nm³/h,and the purity meets the 99.999% high purity hydrogen requirement in GB/T3634.2-2011. Product hydrogen ②10000Nm³/h, purity 99.9%。 |
|
|
5 |
Baofeng Cheng Ye hydrogen technology Co., LTD PSA hydrogen purification unit |
Feed gas pressure 1.9MPa, H2 content 84%, processing capacity 3000Nm³/h, yield 86% |
Product hydrogen 2175Nm³/h, and the purity meets the 99.999% high purity hydrogen requirement in GB/T3634.2-2011.
|
For Yutong Automotive Fuel Cell Bus (start running) |
|
6 |
Handan Xinsheng PSA hydrogen purification unit |
Feed gas pressure 1.7MPa, H2 content 56%, processing capacity 34500Nm³/h |
Product hydrogen 16000Nm³/h,Purity 99.999%, meet GB/T37244-2018 proton exchange membrane fuel cell vehicle fuel requirements. |
Comprehensive utilization of COG (34500Nm³/h high purity hydrogen) is under design and construction |
|
7 |
Taishan Iron and Steel hydrogen purification unit |
Feed gas pressure 1.5MPa, H2 content 99%, processing capacity 1200Nm³/h |
Product hydrogen 1000Nm³/h,Purity 99.999%, meet GB/T37244-2018 proton exchange membrane fuel cell vehicle fuel requirements. |
Jinan hydrogen energy demonstration, the project was reported by CCTV news |
|
8 |
Shandong Mingshui Chemical Group High purity hydrogen production technology modification project |
Feed gas pressure 2.0MPa, H2 content 74%, processing capacity 7000Nm³/h |
Product hydrogen 4200Nm³/h,Purity 99.999%, meet GB/T37244-2018 proton exchange membrane fuel cell vehicle fuel requirements. |
Jinan hydrogen energy demonstration |
|
9 |
FULLCYRO hydrogen purification unit |
Feed gas pressure 2.2MPa, H2 content 84%, processing capacity 2850Nm³/h |
Product hydrogen 2000Nm³/h, Purity 99.999%, meet the requirements of liquid hydrogen. |
|
|
10 |
Guangfa Chemical PSA hydrogen plant |
Feed gas pressure 3.MPa, H2 content 84%, processing capacity 9200Nm³/h |
Product hydrogen 6600Nm³/h,purity 99.999% |
Shanxi first set of hydrogen energy plant |
|
11 |
Chongqing Wansheng coal chemical |
Feed gas pressure 1.7MPa, H2 content 82%,Ar2% processing capacity 4600Nm³/h |
Product hydrogen 3000Nm³/h, Meet GB/T37244-2018 Proton exchange membrane fuel cell vehicle fuel requirements. |
Chongqing's first hydrogen energy demonstration project |
|
12 |
Xin Ao |
Feed gas pressure 5.6MPa, H2 content 82%,Ar2% processing capacity 4700Nm³/h |
Product hydrogen 3000Nm³/h, Meet GB/T37244-2018 Proton exchange membrane fuel cell vehicle fuel requirements. |
Under construction |
3. Hydrogen Production and Other Cases
|
No. |
Customer |
Project |
Capacity |
Product pressure |
Product purity |
|
1 |
Gansu Huasheng |
Methanol to produce hydrogen |
50000Nm3/h |
2.0MPaG |
H2≥99.99% |
|
2 |
Shanxi Sanwei Phase I |
Methanol to produce hydrogen |
8400Nm3/h |
2.0MPaG |
H2≥99.99% |
|
3 |
Shanxi Sanwei Phase II |
Methanol to produce hydrogen |
8400Nm3/h |
2.0MPaG |
H2≥99.99% |
|
4 |
Guizhou Saibang |
Methanol to produce hydrogen |
2500Nm3/h |
2.0MPaG |
H2≥99.99% |
|
5 |
Shandong Shengao |
Methanol to produce hydrogen |
3000Nm3/h |
2.5MPaG |
H2≥99.99% |
|
6 |
India AIR |
Methanol to produce hydrogen |
500Nm3/h |
1.5MPaG |
H2≥99.99% |
|
7 |
Philippines |
Methanol to produce hydrogen |
1000Nm3/h |
1.6MPaG |
H2≥99.999% |
|
8 |
Zhisheng Power |
Methanol to produce hydrogen |
100Nm3/h |
1.2MPaG |
H2≥99.99% |
|
9 |
Jianye Chemical |
Methanol to produce hydrogen |
3000Nm3/h |
2.5MPaG |
H2≥99.999% |
|
10 |
Fortune |
Methanol to produce hydrogen |
500Nm3/h |
1.5MPaG |
H2≥99.99% |
|
11 |
Guangxi Vicot Biotechnology |
Methanol to produce hydrogen |
300Nm3/h |
1.2MPaG |
H2≥99.99% |
|
12 |
India |
Methanol to produce hydrogen |
400Nm3/h |
1.2MPaG |
H2≥99.99% |
|
13 |
Lianyungang Fudong Zhengtuo |
Methanol to produce hydrogen |
200Nm3/h |
0.8MPaG |
H2≥99.99% |
|
14 |
Lufa chemical industry |
PSA-H2 |
80000Nm3/h |
2.5MPaG |
H2≥99.99% |
|
15 |
Yingde gas |
PSA-H2 |
70000Nm3/h |
4.6MPaG |
H2≥99.999% |
|
16 |
Shandong Chengda new energy |
PSA-H2 |
50000Nm3/h |
1.2MPaG |
H2≥99.99% |
|
17 |
Bideo Chemical Co |
PSA-H2 |
13000Nm3/h |
5.45MPaG |
H2≥99.9% |
|
18 |
Zhuhai |
PSA-H2 |
20000Nm3/h |
2.0MPaG |
H2≥99.999% |
|
19 |
Xinsheng Energy |
PSA-H2 |
34500Nm3/h |
1.7MPaG |
H2≥99.99% |
|
20 |
Henan Liyuan coking |
PSA-H2 |
31700Nm3/h |
0.8MPaG |
H2≥99.99% |
|
21 |
Hyundai Steel |
PSA-H2 |
12000Nm3/h |
1.7MPaG |
H2≥99.999% |
|
22 |
Shanxi Coking Co., LTD |
PSA-H2 |
1400Nm3/h |
1.7MPaG |
H2≥99.999% |
|
23 |
Rongwei new energy |
PSA-H2 |
28000Nm3/h |
2.0MPaG |
H2≥99.99% |
|
24 |
Fengxi Group |
PSA-H2 |
25000Nm3/h |
1.7MPaG |
H2≥99.99% |
|
25 |
Yunnan Fuyuan coking |
PSA-H2 |
15000Nm3/h |
0.8MPaG |
H2≥99.99% |
|
26 |
Panzhihua Huayi Energy |
PSA-H2 |
40000Nm3/h |
0.8MPaG |
H2≥99.99% |
|
27 |
Shandong Sunshine Energy |
PSA-H2 |
10000Nm3/h |
1.7MPaG |
H2≥99.99% |
|
28 |
Bideo Chemical Co., LTD |
PSA-H2 |
4400Nm3/h |
2.3MPaG |
H2≥99.9% |
|
29 |
Bideo Chemical Co., LTD |
PSA-H2 |
13000Nm3/h |
5.45MPaG |
H2≥99.9% |
|
30 |
Shandong Mingshui Chemical Co., LTD |
PSA-H2 |
55000Nm3/h |
2.0MPaG |
H2≥99.9% |
|
31 |
Shandong Mingshui Chemical Co., LTD |
PSA-H2 |
145000Nm3/h |
2.0MPaG |
H2≥99.9% |
|
32 |
Henan Hongda Chemical Industry |
Shift gas decarburization (two-stage process, methanol to ammonia) |
14000Nm3/h |
2.0MPaG |
CO2≤0.2% |
|
33 |
Qingyang Hongda Chemical Industry |
NG to produce hydrogen |
7000Nm3/h |
2.0MPaG |
H2≥99.99% |
|
34 |
Foran energy |
NG to produce hydrogen |
500Nm3/h |
2.0MPaG |
H2≥99.999% |
|
35 |
Samsung |
VPSA-O2 |
2400 Nm3/h |
|
O2≥93% |
|
36 |
HuaGan Ruilin |
VPSA-O2 |
6000 Nm3/h |
|
O2≥90% |
|
37 |
Anyang Iron and Steel |
VPSA-O2 |
15000 Nm3/h |
|
O2≥80% |
|
38 |
Fengcheng Phase I |
VPSA-O2 |
1100 Nm3/h |
|
O2≥93% |
|
39 |
Fengcheng Phase II |
VPSA-O2 |
1100 Nm3/h |
|
O2≥93% |
