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●
Baikal
·
ASIC
·
X11
·
RELEASED OCT 2018
Baikal G28
利润 /day
$-2.98
收入 /day
$0.14
0.00331 DASH/day
成本 $3.12 @ $0.1/kWh
Hashrate
28Gh/s
X11
Power · Efficiency
1300.0W
46.43 j/Gh
Baikal G28 每天净亏 $3.01 挖 X11 算力 28 Gh/s 功耗 1300.0 W. 这是在扣除 $0.1/kWh 电费后的结果 — 按当前行情暂未回本。
●
1 minute ago
Similar miners ↓
利润随时间变化
每日预测
Loading...
| 周期 | /日 | /月 |
|---|---|---|
| 收入 | $0.14 | $4.12 |
|
成本
$0.1/kWh
|
$3.12 | $93.60 |
| 利润 | $-2.98 | $-89.48 |
算力市场
★
当前最佳
MRR recent
· Qubit
· $622.03/day
MRR recent
last 10 rentals · actual clearing price
$622.03
利润 /天
Qubit
·
$625.15
收入
·
$3.12
成本
访问 →
Mineable coins
8 algos
| Coin | Algorithm | 收入 | 成本 | 利润 |
|---|---|---|---|---|
SMLY
⚠
SMLY
|
Qubit
28Gh · 850.0W
|
— | $2.04 | — |
DASH
Dash
|
X11
28Gh · 1300.0W
|
$0.11 | $3.12 | $-3.01 |
DIME
⚠
Dimecoin
|
Quark
28Gh · 800.0W
|
$0.01 | $1.92 | $-1.91 |
|
—
|
X11Gost
3.5Gh · 450.0W
|
— | $1.08 | — |
|
—
|
NIST5
28Gh · 550.0W
|
— | $1.32 | — |
|
—
|
Skein
14Gh · 300.0W
|
— | $0.72 | — |
|
—
|
Groestl
28Gh · 450.0W
|
— | $1.08 | — |
|
—
|
Myr-Groestl
28Gh · 350.0W
|
— | $0.84 | — |
在哪里挖
如有实时数据则显示
该矿机的币种尚未追踪矿池。
利润 vs 成本
cost 2836.36%
试试你的算力
Gh/s
W
Income/d
$0.00
Cost/d
$0.00
Profit/d
$0.00
规格
- Noise level
- 70db
- Release
- October 2018
- Size
- 30 x 19 x 15.8 cm
- Weight
- 6.6 kg
算力市场
2 个市场
·
3 种算法
★
当前最佳
MRR recent
· Qubit
· $622.03/day
| 市场 | 算法 | 利润 /天 | |||
|---|---|---|---|---|---|
|
MRR floor
0% rented · matches cheapest seller
|
Qubit
0.00000029000 BTC/M/d
|
$609.40
★
$612.52 收入 · $3.12 成本
访问 →
|
|||
|
MRR recent
last 10 rentals · actual clearing price
|
Qubit
0.00000029598 BTC/M/d
|
$622.03
★
$625.15 收入 · $3.12 成本
访问 →
|
|||
|
MRR asking
aspirational — seller wish, not matched
|
Qubit
0.00000001238 BTC/M/d
|
$23.02
$26.14 收入 · $3.12 成本
|
|||
| Quark | |||||
|
MRR recent
last 10 rentals · actual clearing price
|
Quark
0.00000008035 BTC/M/d
|
$168.65
★
$171.77 收入 · $3.12 成本
访问 →
|
|||
|
MRR asking
aspirational — seller wish, not matched
|
Quark
0.00000001094 BTC/M/d
|
$20.27
$23.39 收入 · $3.12 成本
|
|||
| X11 | |||||
NiceHash
seller 24h-weighted avg
|
X11
0.00000000004 BTC/M/d
|
$-3.04
$0.08 收入 · $3.12 成本
访问 →
|
|||
|
MRR floor
6% rented · matches cheapest seller
|
X11
0.00000000007 BTC/M/d
|
$-2.98
★
$0.14 收入 · $3.12 成本
访问 →
|
|||
|
MRR recent
last 10 rentals · actual clearing price
|
X11
0.00000000009 BTC/M/d
|
$-2.93
★
$0.19 收入 · $3.12 成本
访问 →
|
|||
|
MRR asking
aspirational — seller wish, not matched
|
X11
0.00000000009 BTC/M/d
|
$-2.92
$0.20 收入 · $3.12 成本
|
|||
价格历史 — Qubit
84 个点
Loading...
价格历史 — Quark
18 个点
Loading...
价格历史 — X11
336 个点
Loading...
Profitability Simulator · Dash
Dash network →
Network hashrate
2.57 PH/s
This rig
28 Gh/s
Network ≈
91,622 rigs
Your share · 1 rig
—
Scenario · add 1 of this rig
vs Dash network: 2.57 PH/s
| Rigs × Qty | Share | Rev /rig/day | Cost /rig/day | Profit /rig/day | Total profit /day |
|---|---|---|---|---|---|
| — | — | — | — | — | — |
Profit vs quantity added
Adjust the Quantity slider to see how adding more of this rig affects earnings.
Open in Mining Profitability Simulator — compare against other rigs
Add up to 4 rigs, plug in your own electricity rate, and stress-test network dilution at farm scale.
Price vs Profitability · Dash
Dash price →
Dash price (current)
$34.6000
Rev /day (today)
$0.11
Cost /day @ $0.1/kWh
$3.12
Break-even floor
—
—
-
%
+
%
Profit vs price
Price sensitivity
Center row is today's price. Rows above model higher prices, rows below model lower. The first row in red marks the break-even floor.
Open in Price vs Profitability — compare floors across multiple rigs
Stack up to 4 rigs against the same price curve and see which survives the deepest market.
回本周期
Baikal G28 的回本周期
测算此设备的回本周期、电费和首年收益。
购买价格
$5,000
电价
$0.10/kWh
每日小时
24
矿池费
2.0%
年难度增长
+0%
日利润
$0.00
扣除电费和手续费
回本天数
—
—
12 个月利润
$0
—
累计利润预测
曲线穿过零点即回本。之后全是利润。
Monthly P&L · 3-year horizon
Capital cost is booked in month 1. Cumulative columns include the rig purchase, so Net goes positive at true breakeven.
| Month | Earned (mo) | Cost burned (mo) | Cumulative earned | Cumulative cost | Net | % ROI |
|---|
碳足迹
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 | 123.55 kg |
| Nuclear | 134.78 kg |
| Hydroelectric | 269.57 kg |
| Geothermal | 426.82 kg |
| Solar | 505.44 kg |
| Biofuels | 2,583.36 kg |
| Gas | 5,503.68 kg |
| Coal | 9,210.24 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, Baikal G28 running 24/7 for a year releases about 5,335 kg of carbon dioxide equivalent. Here's what that looks like in everyday terms:
Driving a gas car
13,205 mi
EPA average passenger car emissions ≈ 404 g CO₂/mile.
Trees to absorb it
242 trees
A mature tree absorbs roughly 22 kg CO₂ per year.
Household electricity
1.3 yrs
Equivalent to the yearly emissions of an average household's electricity.
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 Baikal G28's annual footprint swings from roughly 9,210 kg on coal-heavy grids down to about 270 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
How do you calculate these numbers?
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.
Is crypto mining bad for the environment?
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.
What about the Bitcoin network as a whole?
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.
Do pool fees or mining difficulty affect the footprint?
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.
Similar Miners
利润随时间变化
每日预测
Loading...
| 周期 | /日 | /月 |
|---|---|---|
| 收入 | $0.14 | $4.12 |
|
成本
$0.1/kWh
|
$3.12 | $93.60 |
| 利润 | $-2.98 | $-89.48 |
算力市场
★
当前最佳
MRR recent
· Qubit
· $622.03/day
MRR recent
last 10 rentals · actual clearing price
$622.03
利润 /天
Qubit
·
$625.15
收入
·
$3.12
成本
访问 →
Mineable coins
8 algos
| Coin | Algorithm | 收入 | 成本 | 利润 |
|---|---|---|---|---|
|
SMLY
⚠
SMLY
|
Qubit
28Gh · 850.0W
|
— | $2.04 | — |
|
DASH
Dash
|
X11
28Gh · 1300.0W
|
$0.11 | $3.12 | $-3.01 |
|
DIME
⚠
Dimecoin
|
Quark
28Gh · 800.0W
|
$0.01 | $1.92 | $-1.91 |
|
—
|
X11Gost
3.5Gh · 450.0W
|
— | $1.08 | — |
|
—
|
NIST5
28Gh · 550.0W
|
— | $1.32 | — |
|
—
|
Skein
14Gh · 300.0W
|
— | $0.72 | — |
|
—
|
Groestl
28Gh · 450.0W
|
— | $1.08 | — |
|
—
|
Myr-Groestl
28Gh · 350.0W
|
— | $0.84 | — |
在哪里挖
如有实时数据则显示
该矿机的币种尚未追踪矿池。
利润 vs 成本
cost 2836.36%
试试你的算力
Gh/s
W
Income/d
$0.00
Cost/d
$0.00
Profit/d
$0.00
规格
- Noise level
- 70db
- Release
- October 2018
- Size
- 30 x 19 x 15.8 cm
- Weight
- 6.6 kg
算力市场
2 个市场
·
3 种算法
★
当前最佳
MRR recent
· Qubit
· $622.03/day
| 市场 | 算法 | 利润 /天 | |||
|---|---|---|---|---|---|
|
MRR floor
0% rented · matches cheapest seller
|
Qubit
0.00000029000 BTC/M/d
|
$609.40
★
$612.52 收入 · $3.12 成本
访问 →
|
|||
|
MRR recent
last 10 rentals · actual clearing price
|
Qubit
0.00000029598 BTC/M/d
|
$622.03
★
$625.15 收入 · $3.12 成本
访问 →
|
|||
|
MRR asking
aspirational — seller wish, not matched
|
Qubit
0.00000001238 BTC/M/d
|
$23.02
$26.14 收入 · $3.12 成本
|
|||
| Quark | |||||
|
MRR recent
last 10 rentals · actual clearing price
|
Quark
0.00000008035 BTC/M/d
|
$168.65
★
$171.77 收入 · $3.12 成本
访问 →
|
|||
|
MRR asking
aspirational — seller wish, not matched
|
Quark
0.00000001094 BTC/M/d
|
$20.27
$23.39 收入 · $3.12 成本
|
|||
| X11 | |||||
|
NiceHash
seller 24h-weighted avg
|
X11
0.00000000004 BTC/M/d
|
$-3.04
$0.08 收入 · $3.12 成本
访问 →
|
|||
|
MRR floor
6% rented · matches cheapest seller
|
X11
0.00000000007 BTC/M/d
|
$-2.98
★
$0.14 收入 · $3.12 成本
访问 →
|
|||
|
MRR recent
last 10 rentals · actual clearing price
|
X11
0.00000000009 BTC/M/d
|
$-2.93
★
$0.19 收入 · $3.12 成本
访问 →
|
|||
|
MRR asking
aspirational — seller wish, not matched
|
X11
0.00000000009 BTC/M/d
|
$-2.92
$0.20 收入 · $3.12 成本
|
|||
价格历史 — Qubit
84 个点
Loading...
价格历史 — Quark
18 个点
Loading...
价格历史 — X11
336 个点
Loading...
Profitability Simulator · Dash
Dash network →
Network hashrate
2.57 PH/s
This rig
28 Gh/s
Network ≈
91,622 rigs
Your share · 1 rig
—
Scenario · add 1 of this rig
vs Dash network: 2.57 PH/s
| Rigs × Qty | Share | Rev /rig/day | Cost /rig/day | Profit /rig/day | Total profit /day |
|---|---|---|---|---|---|
| — | — | — | — | — | — |
Profit vs quantity added
Adjust the Quantity slider to see how adding more of this rig affects earnings.
Open in Mining Profitability Simulator — compare against other rigs
Add up to 4 rigs, plug in your own electricity rate, and stress-test network dilution at farm scale.
Price vs Profitability · Dash
Dash price →
Dash price (current)
$34.6000
Rev /day (today)
$0.11
Cost /day @ $0.1/kWh
$3.12
Break-even floor
—
—
-
%
+
%
Profit vs price
Price sensitivity
Center row is today's price. Rows above model higher prices, rows below model lower. The first row in red marks the break-even floor.
Open in Price vs Profitability — compare floors across multiple rigs
Stack up to 4 rigs against the same price curve and see which survives the deepest market.
回本周期
Baikal G28 的回本周期
测算此设备的回本周期、电费和首年收益。
购买价格
$5,000
电价
$0.10/kWh
每日小时
24
矿池费
2.0%
年难度增长
+0%
日利润
$0.00
扣除电费和手续费
回本天数
—
—
12 个月利润
$0
—
累计利润预测
曲线穿过零点即回本。之后全是利润。
Monthly P&L · 3-year horizon
Capital cost is booked in month 1. Cumulative columns include the rig purchase, so Net goes positive at true breakeven.
| Month | Earned (mo) | Cost burned (mo) | Cumulative earned | Cumulative cost | Net | % ROI |
|---|
碳足迹
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 | 123.55 kg |
| Nuclear | 134.78 kg |
| Hydroelectric | 269.57 kg |
| Geothermal | 426.82 kg |
| Solar | 505.44 kg |
| Biofuels | 2,583.36 kg |
| Gas | 5,503.68 kg |
| Coal | 9,210.24 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, Baikal G28 running 24/7 for a year releases about 5,335 kg of carbon dioxide equivalent. Here's what that looks like in everyday terms:
Driving a gas car
13,205 mi
EPA average passenger car emissions ≈ 404 g CO₂/mile.
Trees to absorb it
242 trees
A mature tree absorbs roughly 22 kg CO₂ per year.
Household electricity
1.3 yrs
Equivalent to the yearly emissions of an average household's electricity.
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 Baikal G28's annual footprint swings from roughly 9,210 kg on coal-heavy grids down to about 270 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
How do you calculate these numbers?
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.
Is crypto mining bad for the environment?
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.
What about the Bitcoin network as a whole?
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.
Do pool fees or mining difficulty affect the footprint?
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.
Similar Miners
常见问题
关于 Baikal G28
Baikal G28 盈利吗?
截至 April 2026,Baikal G28 在 $0.1/kWh 电价下挖 X11 每日净赚 $-3.01。按此电价不盈利。
Baikal G28 功耗多少?
Baikal G28 功耗 1300W。按 $0.1/kWh 计算,每日电费约 $3.12。
Baikal G28 可以通过 AI 出租赚钱吗?
不行。Baikal G28 是挖矿 ASIC,没有通用计算核心,无法运行 AI 任务。AI 出租仅限 GPU 使用。
Baikal G28 可以挖哪些加密算法?
Baikal G28 可挖 8 种算法;X11 最赚钱,直接挖矿扣除电费前每日产生 $0.11 收入。传统方式 — 连上矿池,按原生币种结算。
Baikal G28 可以在 NiceHash 卖算力吗?
可以。NiceHash 和其他算力市场(Mining Rig Rentals 等)允许 Baikal G28 直接出售其 X11 算力 — 买家租用计算,你按交付的哈希收到 BTC。类似挖矿,但因为按 NiceHash 汇率收 BTC,规避了币价波动风险。