AMD RX 460
AMD RX 460 每天净赚 $0.02 挖 BeamHashIII 算力 6.33 Hh/s 功耗 0.0 W. 这是在扣除 $0.1/kWh 电费后的结果 — 按当前行情有利润。
每日预测
| 周期 | /日 | /月 |
|---|---|---|
| 收入 | $0.46 | $13.66 |
|
成本
$0.1/kWh
|
$0.00 | $0.00 |
| 利润 | $0.46 | $13.66 |
| Coin | Algorithm | 收入 | 成本 | 利润 |
|---|---|---|---|---|
BEAM
⚠
Beam
|
BeamHashIII
6.33Hh · 0.0W
|
$0.02 | — | $0.02 |
RVN
Ravencoin
|
KAWPOW
4.862Mh · 45.0W
|
$0.02 | $0.11 | $-0.09 |
ERG
⚠
Ergo
|
Autolykos2
29.0717Mh · 47.0W
|
$0.01 | $0.11 | $-0.10 |
ETC
Ethereum Classic
|
Etchash
1.13Mh · 41.0W
|
— | $0.10 | — |
MONA
⚠
Monacoin
|
Lyra2REv2
14.2706Mh · 60.0W
|
— | $0.14 | — |
|
—
|
CNReverseWaltz
536.571Hh · 44.0W
|
— | $0.11 | — |
|
—
|
Chukwa2
8.365Kh · 52.0W
|
— | $0.12 | — |
|
—
|
Equihash(125,4)
7.146Hh · 55.0W
|
— | $0.13 | — |
|
—
|
Equihash(144,5)
10.97Hh · 55.0W
|
— | $0.13 | — |
|
—
|
HMQ1725
2.0255Mh · 55.0W
|
— | $0.13 | — |
|
—
|
HoneyComb
9.4441Mh · 54.0W
|
— | $0.13 | — |
VTC
⚠
Vertcoin
|
Lyra2REv3
18.325Mh · 59.0W
|
— | $0.14 | — |
ACM
⚠
Actinium
|
Lyra2z
1.058Mh · 47.0W
|
— | $0.11 | — |
FTC
⚠
Feathercoin
|
NeoScrypt
377Kh · 70.0W
|
— | $0.17 | — |
|
—
|
PHI1612
5.8604Mh · 56.0W
|
— | $0.13 | — |
|
—
|
ProgPowSERO
3.794Mh · 70.0W
|
— | $0.17 | — |
|
—
|
ProgPowZ
4.1128Mh · 59.0W
|
— | $0.14 | — |
|
—
|
Skein2
121.9891Mh · 59.0W
|
— | $0.14 | — |
|
—
|
Skunkhash
9.4747Mh · 56.0W
|
— | $0.13 | — |
|
—
|
SonoA
488.1699Kh · 55.0W
|
— | $0.13 | — |
|
—
|
Tribus
16.7696Mh · 56.0W
|
— | $0.13 | — |
|
—
|
Ubqhash
157.25Kh · 0.0W
|
— | — | — |
|
—
|
X16R
3.2421Mh · 55.0W
|
— | $0.13 | — |
|
—
|
X16RT
3.2435Mh · 55.0W
|
— | $0.13 | — |
|
—
|
X16Rv2
3.1171Mh · 56.0W
|
— | $0.13 | — |
|
—
|
X16S
3.2436Mh · 56.0W
|
— | $0.13 | — |
|
—
|
X17
3.2246Mh · 56.0W
|
— | $0.13 | — |
|
—
|
Xevan
1.0173Mh · 53.0W
|
— | $0.13 | — |
LTZ
⚠
Litecoinz
|
Zhash
10.37Hh · 47.0W
|
— | $0.11 | — |
|
—
|
X22i
1.7972Mh · 53.0W
|
— | $0.13 | — |
|
—
|
vProgPow
1.7773Mh · 55.0W
|
— | $0.13 | — |
|
—
|
X21S
2.498Mh · 56.0W
|
— | $0.13 | — |
|
—
|
Cuckarood29
0.5Hh · 44.0W
|
— | $0.11 | — |
|
—
|
HeavyHash
46.7155Mh · 57.0W
|
— | $0.14 | — |
|
—
|
Chukwa
17.0992Kh · 49.0W
|
— | $0.12 | — |
VRSC
⚠
Verus
|
VerusHash
1.7737Mh · 47.0W
|
— | $0.11 | — |
|
—
|
KangarooTwelve
325.7712Mh · 47.0W
|
— | $0.11 | — |
|
—
|
PHI2
1.858Mh · 60.0W
|
— | $0.14 | — |
EPIC
⚠
Epic Cash
|
ProgPow
3.342Mh · 68.0W
|
— | $0.16 | — |
|
—
|
X25X
340.6126Kh · 0.0W
|
— | — | — |
|
—
|
X11k
660.3141Kh · 52.0W
|
— | $0.12 | — |
|
—
|
Argon2d-ninja
0.029Hh · 47.0W
|
— | $0.11 | — |
|
—
|
Phi5
5.148Hh · 59.0W
|
— | $0.14 | — |
|
—
|
Ethash
13.1268Mh · 42.0W
|
— | $0.10 | — |
|
—
|
Equihash192_7
6.677Hh · 50.0W
|
— | $0.12 | — |
|
—
|
Equihash210_9
44.67Hh · 48.0W
|
— | $0.12 | — |
|
—
|
Blake (2s)
982.8462Mh · 47.0W
|
— | $0.11 | — |
|
—
|
Argon2d4096
133.0766Kh · 0.0W
|
— | — | — |
|
—
|
BCD
3.7958Mh · 56.0W
|
— | $0.13 | — |
|
—
|
C11
4.5134Mh · 55.0W
|
— | $0.13 | — |
- Base Frequency
- 1090 MHz
- Boost Frequency
- 1200 MHz
- Max Memory Bandwidth
- 112 GB/s
- Max Memory Size
- 2 GB
- Memory Type
- GDDR5
- OpenCL
- 2
- OpenGL
- 4.5
- Typical Board Power (Desktop)
- 70 W
| 市场 | 算法 | 利润 /天 | |||
|---|---|---|---|---|---|
|
MRR
MRR floor
7% rented · matches cheapest seller
|
Lyra2REv2
0.00000030000 BTC/M/d
|
$0.34
★
$0.34 收入 · — 成本
访问 →
|
|||
|
MRR
MRR recent
last 10 rentals · actual clearing price
|
Lyra2REv2
0.00002520563 BTC/M/d
|
$28.15
★
$28.15 收入 · — 成本
访问 →
|
|||
|
MRR
MRR asking
aspirational — seller wish, not matched
|
Lyra2REv2
0.00000054154 BTC/M/d
|
$0.60
$0.60 收入 · — 成本
|
|||
| Lyra2z | |||||
|
MRR
MRR floor
0% rented · matches cheapest seller
|
Lyra2z
0.00000550000 BTC/M/d
|
$0.46
★
$0.46 收入 · — 成本
访问 →
|
|||
|
MRR
MRR recent
last 10 rentals · actual clearing price
|
Lyra2z
0.00000600172 BTC/M/d
|
$0.50
★
$0.50 收入 · — 成本
访问 →
|
|||
|
MRR
MRR asking
aspirational — seller wish, not matched
|
Lyra2z
0.00000725400 BTC/M/d
|
$0.60
$0.60 收入 · — 成本
|
|||
| X16Rv2 | |||||
|
MRR
MRR floor
0% rented · matches cheapest seller
|
X16Rv2
0.00000078000 BTC/M/d
|
$0.19
★
$0.19 收入 · — 成本
访问 →
|
|||
|
MRR
MRR recent
last 10 rentals · actual clearing price
|
X16Rv2
0.00000063655 BTC/M/d
|
$0.16
★
$0.16 收入 · — 成本
访问 →
|
|||
|
MRR
MRR asking
aspirational — seller wish, not matched
|
X16Rv2
0.00000079195 BTC/M/d
|
$0.19
$0.19 收入 · — 成本
|
|||
| X16R | |||||
|
MRR
MRR floor
0% rented · matches cheapest seller
|
X16R
0.00000056560 BTC/M/d
|
$0.14
★
$0.14 收入 · — 成本
访问 →
|
|||
|
MRR
MRR recent
last 10 rentals · actual clearing price
|
X16R
0.00000061118 BTC/M/d
|
$0.16
★
$0.16 收入 · — 成本
访问 →
|
|||
|
MRR
MRR asking
aspirational — seller wish, not matched
|
X16R
0.00000056587 BTC/M/d
|
$0.14
$0.14 收入 · — 成本
|
|||
| NeoScrypt | |||||
NiceHash
seller 24h-weighted avg
|
NeoScrypt
0.00000064046 BTC/M/d
|
$0.02
$0.02 收入 · — 成本
访问 →
|
|||
|
MRR
MRR floor
0% rented · matches cheapest seller
|
NeoScrypt
0.00000320000 BTC/M/d
|
$0.09
★
$0.09 收入 · — 成本
访问 →
|
|||
|
MRR
MRR recent
last 10 rentals · actual clearing price
|
NeoScrypt
0.00000314000 BTC/M/d
|
$0.09
★
$0.09 收入 · — 成本
访问 →
|
|||
|
MRR
MRR asking
aspirational — seller wish, not matched
|
NeoScrypt
0.00000359000 BTC/M/d
|
$0.11
$0.11 收入 · — 成本
|
|||
| Zhash | |||||
|
NiceHash
seller 24h-weighted avg
|
Zhash
0.00000000827 BTC/H/d
|
$0.0067
$0.01 收入 · — 成本
访问 →
|
|||
|
MRR
MRR floor
0% rented · matches cheapest seller
|
Zhash
0.00000007080 BTC/H/d
|
$0.06
★
$0.06 收入 · — 成本
访问 →
|
|||
|
MRR
MRR recent
last 10 rentals · actual clearing price
|
Zhash
0.00000008185 BTC/H/d
|
$0.07
★
$0.07 收入 · — 成本
访问 →
|
|||
|
MRR
MRR asking
aspirational — seller wish, not matched
|
Zhash
0.00000007080 BTC/H/d
|
$0.06
$0.06 收入 · — 成本
|
|||
| KAWPOW | |||||
|
NiceHash
seller 24h-weighted avg
|
KAWPOW
0.00000005686 BTC/M/d
|
$0.02
$0.02 收入 · — 成本
访问 →
|
|||
|
MRR
MRR floor
5% rented · matches cheapest seller
|
KAWPOW
0.00000012233 BTC/M/d
|
$0.05
★
$0.05 收入 · — 成本
访问 →
|
|||
|
MRR
MRR recent
last 10 rentals · actual clearing price
|
KAWPOW
0.00000012495 BTC/M/d
|
$0.05
★
$0.05 收入 · — 成本
访问 →
|
|||
|
MRR
MRR asking
aspirational — seller wish, not matched
|
KAWPOW
0.00000012321 BTC/M/d
|
$0.05
$0.05 收入 · — 成本
|
|||
| VerusHash | |||||
|
NiceHash
seller 24h-weighted avg
|
VerusHash
0.00000002288 BTC/M/d
|
$0.0032
$0.00 收入 · — 成本
访问 →
|
|||
|
MRR
MRR floor
0% rented · matches cheapest seller
|
VerusHash
0.00000010999 BTC/M/d
|
$0.02
★
$0.02 收入 · — 成本
访问 →
|
|||
|
MRR
MRR recent
last 10 rentals · actual clearing price
|
VerusHash
0.00000023020 BTC/M/d
|
$0.03
★
$0.03 收入 · — 成本
访问 →
|
|||
|
MRR
MRR asking
aspirational — seller wish, not matched
|
VerusHash
0.00000014372 BTC/M/d
|
$0.02
$0.02 收入 · — 成本
|
|||
| BeamHashIII | |||||
|
NiceHash
seller 24h-weighted avg
|
BeamHashIII
0.00000004432 BTC/H/d
|
$0.02
★
$0.02 收入 · — 成本
访问 →
|
|||
| Ethash | |||||
|
NiceHash
seller 24h-weighted avg
|
Ethash
0.00000001916 BTC/M/d
|
$0.02
★
$0.02 收入 · — 成本
访问 →
|
|||
| Autolykos2 | |||||
|
NiceHash
seller 24h-weighted avg
|
Autolykos2
0.00000000557 BTC/M/d
|
$0.01
★
$0.01 收入 · — 成本
访问 →
|
|||
| Etchash | |||||
|
NiceHash
seller 24h-weighted avg
|
Etchash
0.00000000559 BTC/M/d
|
$0.0005
$0.00 收入 · — 成本
访问 →
|
|||
|
MRR
MRR floor
1% rented · matches cheapest seller
|
Etchash
0.00000001320 BTC/M/d
|
$0.0012
★
$0.00 收入 · — 成本
访问 →
|
|||
|
MRR
MRR recent
last 10 rentals · actual clearing price
|
Etchash
0.00000001567 BTC/M/d
|
$0.0014
★
$0.00 收入 · — 成本
访问 →
|
|||
|
MRR
MRR asking
aspirational — seller wish, not matched
|
Etchash
0.00000001217 BTC/M/d
|
$0.0011
$0.00 收入 · — 成本
|
|||
| Rigs × Qty | Share | Rev /rig/day | Cost /rig/day | Profit /rig/day | Total profit /day |
|---|---|---|---|---|---|
| — | — | — | — | — | — |
AMD RX 460 的回本周期
测算此设备的回本周期、电费和首年收益。
曲线穿过零点即回本。之后全是利润。
| Month | Earned (mo) | Cost burned (mo) | Cumulative earned | Cumulative cost | Net | % ROI |
|---|
按能源来源的年度排放
基于年度耗电量和常见电网的碳强度。
| 能源来源 | CO₂e / 年 |
|---|---|
| Wind | 0.0 kg |
| Nuclear | 0.0 kg |
| Hydroelectric | 0.0 kg |
| Geothermal | 0.0 kg |
| Solar | 0.0 kg |
| Biofuels | 0.0 kg |
| Gas | 0.0 kg |
| Coal | 0.0 kg |
仅为估算 — 实际排放因硬件、冷却和电网而异。
这意味着什么?
At the world-average grid intensity of about 475 g CO₂e/kWh, AMD RX 460 running 24/7 for a year releases about 0 kg of carbon dioxide equivalent. Here's what that looks like in everyday terms:
你在哪里接电很重要
Electricity is not one thing. A kilowatt-hour from a coal plant carries roughly 820 g of CO₂; the same kilowatt-hour from a hydro reservoir carries about 24 g. That's a 34× difference — large enough that AMD RX 460's annual footprint swings from roughly 0 kg on coal-heavy grids down to about 0 kg on hydro-dominated grids. The single biggest lever a miner has on their carbon footprint is choosing where to plug in.
Regions commonly used for low-carbon crypto mining include Quebec and British Columbia (hydro-dominated, typically <50 g CO₂/kWh), Iceland and Norway (geothermal + hydro, often <30 g), Paraguay (Itaipú hydro), and parts of the US Pacific Northwest. Coal-heavy grids — Kazakhstan, Inner Mongolia, Poland, parts of Australia — sit at the opposite end, often above 700 g CO₂/kWh.
Some operators also reduce their net impact by using otherwise-wasted energy: flare gas at oil wells (burning methane that would be vented anyway), curtailed renewables (wind or solar that the grid can't absorb), or behind-the-meter hydro during off-peak hours. These arrangements can drop effective emissions below the local grid average because the energy would have been wasted or flared without the mining load.
如何减少该矿机的碳足迹
- Pick a greener ASIC. The efficiency column above matters as much as the grid: a 15 J/TH rig emits roughly half the CO₂ of a 30 J/TH rig for the same hashrate.
- Choose a low-carbon host. Data centres advertising hydro, geothermal, or nuclear power typically sit at <100 g CO₂/kWh.
- Look for stranded or curtailed energy. Flare-gas miners, wind-curtailment co-location, and off-peak hydro arrangements use energy that would otherwise be wasted.
- Use heat recovery. Capturing the heat for greenhouse agriculture, pool heating, or district warmth offsets fossil-fuel heating that would have been burned anyway.
- Time-shift your uptime. In grids with high daytime solar, running more during the day and less at night lowers your effective intensity even if you don't switch providers.
- Purchase verifiable offsets. Treat this as a last resort, not a substitute — and favour additional, permanent, third-party-verified projects (Gold Standard, Verra VCS).
常见问题
Yearly electricity use = rig power (W) × 24 × 365 ÷ 1000. We multiply that by each row's grid intensity in grams CO₂-equivalent per kWh and convert to kilograms. Intensities are representative averages — real emissions depend on your specific utility mix, time of day, and local transmission losses.
It depends almost entirely on where the electricity comes from. A single rig plugged into hydro in Quebec emits less over a year than an average family's two cars in a month. The same rig on a coal-dominated grid can exceed that in a few days. The hardware is the same — the grid is what changes the answer.
Network-wide estimates vary by methodology; the Cambridge Centre for Alternative Finance's Bitcoin Electricity Consumption Index is the most widely cited reference. As of recent reporting, the network's sustainable-energy share has grown as more hashrate migrates to hydro, wind, solar, and stranded-gas sites. This page just estimates a single rig — for the big picture, CCAF's dashboard is the best source.
Not directly. The rig draws the same wattage regardless of which pool it joins or how difficulty trends — so its electricity use, and therefore its emissions, stay constant. Those factors change revenue, not power consumption.
每日预测
| 周期 | /日 | /月 |
|---|---|---|
| 收入 | $0.46 | $13.66 |
|
成本
$0.1/kWh
|
$0.00 | $0.00 |
| 利润 | $0.46 | $13.66 |
| Coin | Algorithm | 收入 | 成本 | 利润 |
|---|---|---|---|---|
|
BEAM
⚠
Beam
|
BeamHashIII
6.33Hh · 0.0W
|
$0.02 | — | $0.02 |
|
RVN
Ravencoin
|
KAWPOW
4.862Mh · 45.0W
|
$0.02 | $0.11 | $-0.09 |
|
ERG
⚠
Ergo
|
Autolykos2
29.0717Mh · 47.0W
|
$0.01 | $0.11 | $-0.10 |
|
ETC
Ethereum Classic
|
Etchash
1.13Mh · 41.0W
|
— | $0.10 | — |
|
MONA
⚠
Monacoin
|
Lyra2REv2
14.2706Mh · 60.0W
|
— | $0.14 | — |
|
—
|
CNReverseWaltz
536.571Hh · 44.0W
|
— | $0.11 | — |
|
—
|
Chukwa2
8.365Kh · 52.0W
|
— | $0.12 | — |
|
—
|
Equihash(125,4)
7.146Hh · 55.0W
|
— | $0.13 | — |
|
—
|
Equihash(144,5)
10.97Hh · 55.0W
|
— | $0.13 | — |
|
—
|
HMQ1725
2.0255Mh · 55.0W
|
— | $0.13 | — |
|
—
|
HoneyComb
9.4441Mh · 54.0W
|
— | $0.13 | — |
|
VTC
⚠
Vertcoin
|
Lyra2REv3
18.325Mh · 59.0W
|
— | $0.14 | — |
|
ACM
⚠
Actinium
|
Lyra2z
1.058Mh · 47.0W
|
— | $0.11 | — |
|
FTC
⚠
Feathercoin
|
NeoScrypt
377Kh · 70.0W
|
— | $0.17 | — |
|
—
|
PHI1612
5.8604Mh · 56.0W
|
— | $0.13 | — |
|
—
|
ProgPowSERO
3.794Mh · 70.0W
|
— | $0.17 | — |
|
—
|
ProgPowZ
4.1128Mh · 59.0W
|
— | $0.14 | — |
|
—
|
Skein2
121.9891Mh · 59.0W
|
— | $0.14 | — |
|
—
|
Skunkhash
9.4747Mh · 56.0W
|
— | $0.13 | — |
|
—
|
SonoA
488.1699Kh · 55.0W
|
— | $0.13 | — |
|
—
|
Tribus
16.7696Mh · 56.0W
|
— | $0.13 | — |
|
—
|
Ubqhash
157.25Kh · 0.0W
|
— | — | — |
|
—
|
X16R
3.2421Mh · 55.0W
|
— | $0.13 | — |
|
—
|
X16RT
3.2435Mh · 55.0W
|
— | $0.13 | — |
|
—
|
X16Rv2
3.1171Mh · 56.0W
|
— | $0.13 | — |
|
—
|
X16S
3.2436Mh · 56.0W
|
— | $0.13 | — |
|
—
|
X17
3.2246Mh · 56.0W
|
— | $0.13 | — |
|
—
|
Xevan
1.0173Mh · 53.0W
|
— | $0.13 | — |
|
LTZ
⚠
Litecoinz
|
Zhash
10.37Hh · 47.0W
|
— | $0.11 | — |
|
—
|
X22i
1.7972Mh · 53.0W
|
— | $0.13 | — |
|
—
|
vProgPow
1.7773Mh · 55.0W
|
— | $0.13 | — |
|
—
|
X21S
2.498Mh · 56.0W
|
— | $0.13 | — |
|
—
|
Cuckarood29
0.5Hh · 44.0W
|
— | $0.11 | — |
|
—
|
HeavyHash
46.7155Mh · 57.0W
|
— | $0.14 | — |
|
—
|
Chukwa
17.0992Kh · 49.0W
|
— | $0.12 | — |
|
VRSC
⚠
Verus
|
VerusHash
1.7737Mh · 47.0W
|
— | $0.11 | — |
|
—
|
KangarooTwelve
325.7712Mh · 47.0W
|
— | $0.11 | — |
|
—
|
PHI2
1.858Mh · 60.0W
|
— | $0.14 | — |
|
EPIC
⚠
Epic Cash
|
ProgPow
3.342Mh · 68.0W
|
— | $0.16 | — |
|
—
|
X25X
340.6126Kh · 0.0W
|
— | — | — |
|
—
|
X11k
660.3141Kh · 52.0W
|
— | $0.12 | — |
|
—
|
Argon2d-ninja
0.029Hh · 47.0W
|
— | $0.11 | — |
|
—
|
Phi5
5.148Hh · 59.0W
|
— | $0.14 | — |
|
—
|
Ethash
13.1268Mh · 42.0W
|
— | $0.10 | — |
|
—
|
Equihash192_7
6.677Hh · 50.0W
|
— | $0.12 | — |
|
—
|
Equihash210_9
44.67Hh · 48.0W
|
— | $0.12 | — |
|
—
|
Blake (2s)
982.8462Mh · 47.0W
|
— | $0.11 | — |
|
—
|
Argon2d4096
133.0766Kh · 0.0W
|
— | — | — |
|
—
|
BCD
3.7958Mh · 56.0W
|
— | $0.13 | — |
|
—
|
C11
4.5134Mh · 55.0W
|
— | $0.13 | — |
- Base Frequency
- 1090 MHz
- Boost Frequency
- 1200 MHz
- Max Memory Bandwidth
- 112 GB/s
- Max Memory Size
- 2 GB
- Memory Type
- GDDR5
- OpenCL
- 2
- OpenGL
- 4.5
- Typical Board Power (Desktop)
- 70 W
| 市场 | 算法 | 利润 /天 | |||
|---|---|---|---|---|---|
|
MRR
MRR floor
7% rented · matches cheapest seller
|
Lyra2REv2
0.00000030000 BTC/M/d
|
$0.34
★
$0.34 收入 · — 成本
访问 →
|
|||
|
MRR
MRR recent
last 10 rentals · actual clearing price
|
Lyra2REv2
0.00002520563 BTC/M/d
|
$28.15
★
$28.15 收入 · — 成本
访问 →
|
|||
|
MRR
MRR asking
aspirational — seller wish, not matched
|
Lyra2REv2
0.00000054154 BTC/M/d
|
$0.60
$0.60 收入 · — 成本
|
|||
| Lyra2z | |||||
|
MRR
MRR floor
0% rented · matches cheapest seller
|
Lyra2z
0.00000550000 BTC/M/d
|
$0.46
★
$0.46 收入 · — 成本
访问 →
|
|||
|
MRR
MRR recent
last 10 rentals · actual clearing price
|
Lyra2z
0.00000600172 BTC/M/d
|
$0.50
★
$0.50 收入 · — 成本
访问 →
|
|||
|
MRR
MRR asking
aspirational — seller wish, not matched
|
Lyra2z
0.00000725400 BTC/M/d
|
$0.60
$0.60 收入 · — 成本
|
|||
| X16Rv2 | |||||
|
MRR
MRR floor
0% rented · matches cheapest seller
|
X16Rv2
0.00000078000 BTC/M/d
|
$0.19
★
$0.19 收入 · — 成本
访问 →
|
|||
|
MRR
MRR recent
last 10 rentals · actual clearing price
|
X16Rv2
0.00000063655 BTC/M/d
|
$0.16
★
$0.16 收入 · — 成本
访问 →
|
|||
|
MRR
MRR asking
aspirational — seller wish, not matched
|
X16Rv2
0.00000079195 BTC/M/d
|
$0.19
$0.19 收入 · — 成本
|
|||
| X16R | |||||
|
MRR
MRR floor
0% rented · matches cheapest seller
|
X16R
0.00000056560 BTC/M/d
|
$0.14
★
$0.14 收入 · — 成本
访问 →
|
|||
|
MRR
MRR recent
last 10 rentals · actual clearing price
|
X16R
0.00000061118 BTC/M/d
|
$0.16
★
$0.16 收入 · — 成本
访问 →
|
|||
|
MRR
MRR asking
aspirational — seller wish, not matched
|
X16R
0.00000056587 BTC/M/d
|
$0.14
$0.14 收入 · — 成本
|
|||
| NeoScrypt | |||||
|
NiceHash
seller 24h-weighted avg
|
NeoScrypt
0.00000064046 BTC/M/d
|
$0.02
$0.02 收入 · — 成本
访问 →
|
|||
|
MRR
MRR floor
0% rented · matches cheapest seller
|
NeoScrypt
0.00000320000 BTC/M/d
|
$0.09
★
$0.09 收入 · — 成本
访问 →
|
|||
|
MRR
MRR recent
last 10 rentals · actual clearing price
|
NeoScrypt
0.00000314000 BTC/M/d
|
$0.09
★
$0.09 收入 · — 成本
访问 →
|
|||
|
MRR
MRR asking
aspirational — seller wish, not matched
|
NeoScrypt
0.00000359000 BTC/M/d
|
$0.11
$0.11 收入 · — 成本
|
|||
| Zhash | |||||
|
NiceHash
seller 24h-weighted avg
|
Zhash
0.00000000827 BTC/H/d
|
$0.0067
$0.01 收入 · — 成本
访问 →
|
|||
|
MRR
MRR floor
0% rented · matches cheapest seller
|
Zhash
0.00000007080 BTC/H/d
|
$0.06
★
$0.06 收入 · — 成本
访问 →
|
|||
|
MRR
MRR recent
last 10 rentals · actual clearing price
|
Zhash
0.00000008185 BTC/H/d
|
$0.07
★
$0.07 收入 · — 成本
访问 →
|
|||
|
MRR
MRR asking
aspirational — seller wish, not matched
|
Zhash
0.00000007080 BTC/H/d
|
$0.06
$0.06 收入 · — 成本
|
|||
| KAWPOW | |||||
|
NiceHash
seller 24h-weighted avg
|
KAWPOW
0.00000005686 BTC/M/d
|
$0.02
$0.02 收入 · — 成本
访问 →
|
|||
|
MRR
MRR floor
5% rented · matches cheapest seller
|
KAWPOW
0.00000012233 BTC/M/d
|
$0.05
★
$0.05 收入 · — 成本
访问 →
|
|||
|
MRR
MRR recent
last 10 rentals · actual clearing price
|
KAWPOW
0.00000012495 BTC/M/d
|
$0.05
★
$0.05 收入 · — 成本
访问 →
|
|||
|
MRR
MRR asking
aspirational — seller wish, not matched
|
KAWPOW
0.00000012321 BTC/M/d
|
$0.05
$0.05 收入 · — 成本
|
|||
| VerusHash | |||||
|
NiceHash
seller 24h-weighted avg
|
VerusHash
0.00000002288 BTC/M/d
|
$0.0032
$0.00 收入 · — 成本
访问 →
|
|||
|
MRR
MRR floor
0% rented · matches cheapest seller
|
VerusHash
0.00000010999 BTC/M/d
|
$0.02
★
$0.02 收入 · — 成本
访问 →
|
|||
|
MRR
MRR recent
last 10 rentals · actual clearing price
|
VerusHash
0.00000023020 BTC/M/d
|
$0.03
★
$0.03 收入 · — 成本
访问 →
|
|||
|
MRR
MRR asking
aspirational — seller wish, not matched
|
VerusHash
0.00000014372 BTC/M/d
|
$0.02
$0.02 收入 · — 成本
|
|||
| BeamHashIII | |||||
|
NiceHash
seller 24h-weighted avg
|
BeamHashIII
0.00000004432 BTC/H/d
|
$0.02
★
$0.02 收入 · — 成本
访问 →
|
|||
| Ethash | |||||
|
NiceHash
seller 24h-weighted avg
|
Ethash
0.00000001916 BTC/M/d
|
$0.02
★
$0.02 收入 · — 成本
访问 →
|
|||
| Autolykos2 | |||||
|
NiceHash
seller 24h-weighted avg
|
Autolykos2
0.00000000557 BTC/M/d
|
$0.01
★
$0.01 收入 · — 成本
访问 →
|
|||
| Etchash | |||||
|
NiceHash
seller 24h-weighted avg
|
Etchash
0.00000000559 BTC/M/d
|
$0.0005
$0.00 收入 · — 成本
访问 →
|
|||
|
MRR
MRR floor
1% rented · matches cheapest seller
|
Etchash
0.00000001320 BTC/M/d
|
$0.0012
★
$0.00 收入 · — 成本
访问 →
|
|||
|
MRR
MRR recent
last 10 rentals · actual clearing price
|
Etchash
0.00000001567 BTC/M/d
|
$0.0014
★
$0.00 收入 · — 成本
访问 →
|
|||
|
MRR
MRR asking
aspirational — seller wish, not matched
|
Etchash
0.00000001217 BTC/M/d
|
$0.0011
$0.00 收入 · — 成本
|
|||
| Rigs × Qty | Share | Rev /rig/day | Cost /rig/day | Profit /rig/day | Total profit /day |
|---|---|---|---|---|---|
| — | — | — | — | — | — |
AMD RX 460 的回本周期
测算此设备的回本周期、电费和首年收益。
曲线穿过零点即回本。之后全是利润。
| Month | Earned (mo) | Cost burned (mo) | Cumulative earned | Cumulative cost | Net | % ROI |
|---|
按能源来源的年度排放
基于年度耗电量和常见电网的碳强度。
| 能源来源 | CO₂e / 年 |
|---|---|
| Wind | 0.0 kg |
| Nuclear | 0.0 kg |
| Hydroelectric | 0.0 kg |
| Geothermal | 0.0 kg |
| Solar | 0.0 kg |
| Biofuels | 0.0 kg |
| Gas | 0.0 kg |
| Coal | 0.0 kg |
仅为估算 — 实际排放因硬件、冷却和电网而异。
这意味着什么?
At the world-average grid intensity of about 475 g CO₂e/kWh, AMD RX 460 running 24/7 for a year releases about 0 kg of carbon dioxide equivalent. Here's what that looks like in everyday terms:
你在哪里接电很重要
Electricity is not one thing. A kilowatt-hour from a coal plant carries roughly 820 g of CO₂; the same kilowatt-hour from a hydro reservoir carries about 24 g. That's a 34× difference — large enough that AMD RX 460's annual footprint swings from roughly 0 kg on coal-heavy grids down to about 0 kg on hydro-dominated grids. The single biggest lever a miner has on their carbon footprint is choosing where to plug in.
Regions commonly used for low-carbon crypto mining include Quebec and British Columbia (hydro-dominated, typically <50 g CO₂/kWh), Iceland and Norway (geothermal + hydro, often <30 g), Paraguay (Itaipú hydro), and parts of the US Pacific Northwest. Coal-heavy grids — Kazakhstan, Inner Mongolia, Poland, parts of Australia — sit at the opposite end, often above 700 g CO₂/kWh.
Some operators also reduce their net impact by using otherwise-wasted energy: flare gas at oil wells (burning methane that would be vented anyway), curtailed renewables (wind or solar that the grid can't absorb), or behind-the-meter hydro during off-peak hours. These arrangements can drop effective emissions below the local grid average because the energy would have been wasted or flared without the mining load.
如何减少该矿机的碳足迹
- Pick a greener ASIC. The efficiency column above matters as much as the grid: a 15 J/TH rig emits roughly half the CO₂ of a 30 J/TH rig for the same hashrate.
- Choose a low-carbon host. Data centres advertising hydro, geothermal, or nuclear power typically sit at <100 g CO₂/kWh.
- Look for stranded or curtailed energy. Flare-gas miners, wind-curtailment co-location, and off-peak hydro arrangements use energy that would otherwise be wasted.
- Use heat recovery. Capturing the heat for greenhouse agriculture, pool heating, or district warmth offsets fossil-fuel heating that would have been burned anyway.
- Time-shift your uptime. In grids with high daytime solar, running more during the day and less at night lowers your effective intensity even if you don't switch providers.
- Purchase verifiable offsets. Treat this as a last resort, not a substitute — and favour additional, permanent, third-party-verified projects (Gold Standard, Verra VCS).
常见问题
Yearly electricity use = rig power (W) × 24 × 365 ÷ 1000. We multiply that by each row's grid intensity in grams CO₂-equivalent per kWh and convert to kilograms. Intensities are representative averages — real emissions depend on your specific utility mix, time of day, and local transmission losses.
It depends almost entirely on where the electricity comes from. A single rig plugged into hydro in Quebec emits less over a year than an average family's two cars in a month. The same rig on a coal-dominated grid can exceed that in a few days. The hardware is the same — the grid is what changes the answer.
Network-wide estimates vary by methodology; the Cambridge Centre for Alternative Finance's Bitcoin Electricity Consumption Index is the most widely cited reference. As of recent reporting, the network's sustainable-energy share has grown as more hashrate migrates to hydro, wind, solar, and stranded-gas sites. This page just estimates a single rig — for the big picture, CCAF's dashboard is the best source.
Not directly. The rig draws the same wattage regardless of which pool it joins or how difficulty trends — so its electricity use, and therefore its emissions, stay constant. Those factors change revenue, not power consumption.