Capital Cost of Project with Capacity Q1 using Sixth Tenth Rule Calculator

✖Capital Cost of Project with Capacity Q2 refers to the total cost incurred to plan, develop, and implement the project to achieve the desired production or operational capacity Q2.ⓘ Capital Cost of Project with Capacity Q2 [C₂]			+10% -10%
✖Capacity of Equipment 1 seems to refer to the maximum production or processing capability of Equipment 1, measured in terms of the area it occupies or affects, typically expressed in square meters.ⓘ Capacity of Equipment 1 [Q₁]			+10% -10%
✖Capacity of Equipment 2 seems to refer to the maximum production or processing capability of Equipment 2, measured in terms of the area it occupies or affects, typically expressed in square meters.ⓘ Capacity of Equipment 2 [Q₂]			+10% -10%
✖Value of Index refers to the numerical level or measurement of a financial index that measure of changes in a market, representing the performance of a specific group of assets.ⓘ Value of Index [n]			+10% -10%
✖Cost Index 2 is a ratio used in cost estimation and economic analysis in engineering and construction projects.ⓘ Cost Index 2 [I₂]			+10% -10%
✖Cost Index 1 is a ratio used in cost estimation and economic analysis in engineering and construction projects.ⓘ Cost Index 1 [I₁]			+10% -10%

✖Capital Cost of Project with Capacity Q1 refers to the total cost incurred to plan, develop, and implement the project to achieve the desired production or operational capacity Q1.ⓘ Capital Cost of Project with Capacity Q1 using Sixth Tenth Rule [C₁]

⎘ Copy

👎

Formula

✖

Capital Cost of Project with Capacity Q1 using Sixth Tenth Rule

Formula

`"C"_{"1"} = "C"_{"2"}*(("Q"_{"1"}/"Q"_{"2"})^("n"))*("I"_{"2"}/"I"_{"1"})`

Example

`"44.289"="62.38"*(("15m²"/"20m²")^("0.6"))*("270"/"320")`

Calculator

LaTeX

Reset

👍

Download Chemical Engineering Formula PDF PDF Image

Capital Cost of Project with Capacity Q1 using Sixth Tenth Rule Solution

STEP 0: Pre-Calculation Summary

Formula Used

Capital Cost of Project with Capacity Q1 = Capital Cost of Project with Capacity Q2*((Capacity of Equipment 1/Capacity of Equipment 2)^(Value of Index))*(Cost Index 2/Cost Index 1)
C₁ = C₂*((Q₁/Q₂)^(n))*(I₂/I₁)
This formula uses 7 Variables

Variables Used

Capital Cost of Project with Capacity Q1 - Capital Cost of Project with Capacity Q1 refers to the total cost incurred to plan, develop, and implement the project to achieve the desired production or operational capacity Q1.
Capital Cost of Project with Capacity Q2 - Capital Cost of Project with Capacity Q2 refers to the total cost incurred to plan, develop, and implement the project to achieve the desired production or operational capacity Q2.
Capacity of Equipment 1 - (Measured in Square Meter) - Capacity of Equipment 1 seems to refer to the maximum production or processing capability of Equipment 1, measured in terms of the area it occupies or affects, typically expressed in square meters.
Capacity of Equipment 2 - (Measured in Square Meter) - Capacity of Equipment 2 seems to refer to the maximum production or processing capability of Equipment 2, measured in terms of the area it occupies or affects, typically expressed in square meters.
Value of Index - Value of Index refers to the numerical level or measurement of a financial index that measure of changes in a market, representing the performance of a specific group of assets.
Cost Index 2 - Cost Index 2 is a ratio used in cost estimation and economic analysis in engineering and construction projects.
Cost Index 1 - Cost Index 1 is a ratio used in cost estimation and economic analysis in engineering and construction projects.

STEP 1: Convert Input(s) to Base Unit

Capital Cost of Project with Capacity Q2: 62.38 --> No Conversion Required
Capacity of Equipment 1: 15 Square Meter --> 15 Square Meter No Conversion Required
Capacity of Equipment 2: 20 Square Meter --> 20 Square Meter No Conversion Required
Value of Index: 0.6 --> No Conversion Required
Cost Index 2: 270 --> No Conversion Required
Cost Index 1: 320 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

C₁ = C₂*((Q₁/Q₂)^(n))*(I₂/I₁) --> 62.38*((15/20)^(0.6))*(270/320)

Evaluating ... ...

C₁ = 44.2890040609973

STEP 3: Convert Result to Output's Unit

44.2890040609973 --> No Conversion Required

FINAL ANSWER

44.2890040609973 ≈ 44.289 <-- Capital Cost of Project with Capacity Q1

(Calculation completed in 00.020 seconds)

You are here -

Home » Engineering » Chemical Engineering » Plant Design and Economics » Cost Estimation » Capital Cost of Project with Capacity Q1 using Sixth Tenth Rule

Credits

Created by Heet

Thadomal Shahani Engineering College (Tsec), Mumbai

Heet has created this Calculator and 200+ more calculators!

Verified by Prerana Bakli

University of Hawaiʻi at Mānoa (UH Manoa), Hawaii, USA

Prerana Bakli has verified this Calculator and 1600+ more calculators!

< 11 Cost Estimation Calculators

Capital Cost of Project with Capacity Q2 using Sixth Tenth Rule

Go Capital Cost of Project with Capacity Q2 = Capital Cost of Project with Capacity Q1*((Capacity of Equipment 2/Capacity of Equipment 1)^(Value of Index))*(Cost Index 2/Cost Index 1)

Capital Cost of Project with Capacity Q1 using Sixth Tenth Rule

Go Capital Cost of Project with Capacity Q1 = Capital Cost of Project with Capacity Q2*((Capacity of Equipment 1/Capacity of Equipment 2)^(Value of Index))*(Cost Index 2/Cost Index 1)

Fixed Cost at Breakeven Point

Go Fixed Cost = Production Capacity at Breakeven Point*Selling Cost per Unit-Production Capacity at Breakeven Point*Production Cost per Unit

Cash Flow

Go Cash Flow = ((Total Sale Revenue-Total Product Cost-Depreciation)*(1-Tax Rate))+Depreciation

Net Profit

Go Net Profit = (Total Sale Revenue-Total Product Cost-Depreciation)*(1-Tax Rate)

Working Capital Investment

Go Working Capital Investment = Total Capital Investment-Fixed Capital Investment

Total Capital Investment

Go Total Capital Investment = Fixed Capital Investment+Working Capital Investment

Fixed Capital Investment

Go Fixed Capital Investment = Total Capital Investment-Working Capital Investment

Turndown Ratio

Go Turndown Ratio = Fixed Capital Investment/Total Capital Investment

Turnover Ratio

Go Turnover Ratio = Gross Annual Sales/Fixed Capital Investment

Total Production Cost Considering Fixed Cost and Variable Cost

Go Total Product Cost = Fixed Cost+Variable Cost

Capital Cost of Project with Capacity Q1 using Sixth Tenth Rule Formula

What is Capital Cost?

Capital cost, also known as capital expenditure (CapEx), refers to the funds that a company or organization invests in the acquisition, construction, expansion, or improvement of physical assets or long-term investments. These assets can include property, buildings, machinery, equipment, infrastructure, technology, and other items that are expected to provide ongoing benefits and value over an extended period. Capital costs are incurred to initiate or enhance a business's productive capacity or operational capabilities.

What is Cost Estimation?

Cost estimation is the process of estimating the total cost, typically in monetary terms, required to complete a project, construct a facility, develop a product, or provide a service. It is a critical aspect of project management, business planning, and decision-making. Cost estimation serves various purposes, including budgeting, financial planning, and assessing the feasibility of a project. Here are the key components and considerations of cost estimation.

How to Calculate Capital Cost of Project with Capacity Q1 using Sixth Tenth Rule?

Capital Cost of Project with Capacity Q1 using Sixth Tenth Rule calculator uses Capital Cost of Project with Capacity Q1 = Capital Cost of Project with Capacity Q2*((Capacity of Equipment 1/Capacity of Equipment 2)^(Value of Index))*(Cost Index 2/Cost Index 1) to calculate the Capital Cost of Project with Capacity Q1, The Capital Cost of Project with Capacity Q1 using Sixth Tenth Rule formula is a heuristic or rule of thumb used in estimating the capital cost of a project based on its capacity or size. Capital Cost of Project with Capacity Q1 is denoted by C₁ symbol.

How to calculate Capital Cost of Project with Capacity Q1 using Sixth Tenth Rule using this online calculator? To use this online calculator for Capital Cost of Project with Capacity Q1 using Sixth Tenth Rule, enter Capital Cost of Project with Capacity Q2 (C₂), Capacity of Equipment 1 (Q₁), Capacity of Equipment 2 (Q₂), Value of Index (n), Cost Index 2 (I₂) & Cost Index 1 (I₁) and hit the calculate button. Here is how the Capital Cost of Project with Capacity Q1 using Sixth Tenth Rule calculation can be explained with given input values -> 44.289 = 62.38*((15/20)^(0.6))*(270/320).

FAQ

What is Capital Cost of Project with Capacity Q1 using Sixth Tenth Rule?

The Capital Cost of Project with Capacity Q1 using Sixth Tenth Rule formula is a heuristic or rule of thumb used in estimating the capital cost of a project based on its capacity or size and is represented as C₁ = C₂*((Q₁/Q₂)^(n))*(I₂/I₁) or Capital Cost of Project with Capacity Q1 = Capital Cost of Project with Capacity Q2*((Capacity of Equipment 1/Capacity of Equipment 2)^(Value of Index))*(Cost Index 2/Cost Index 1). Capital Cost of Project with Capacity Q2 refers to the total cost incurred to plan, develop, and implement the project to achieve the desired production or operational capacity Q2, Capacity of Equipment 1 seems to refer to the maximum production or processing capability of Equipment 1, measured in terms of the area it occupies or affects, typically expressed in square meters, Capacity of Equipment 2 seems to refer to the maximum production or processing capability of Equipment 2, measured in terms of the area it occupies or affects, typically expressed in square meters, Value of Index refers to the numerical level or measurement of a financial index that measure of changes in a market, representing the performance of a specific group of assets, Cost Index 2 is a ratio used in cost estimation and economic analysis in engineering and construction projects & Cost Index 1 is a ratio used in cost estimation and economic analysis in engineering and construction projects.

How to calculate Capital Cost of Project with Capacity Q1 using Sixth Tenth Rule?

The Capital Cost of Project with Capacity Q1 using Sixth Tenth Rule formula is a heuristic or rule of thumb used in estimating the capital cost of a project based on its capacity or size is calculated using Capital Cost of Project with Capacity Q1 = Capital Cost of Project with Capacity Q2*((Capacity of Equipment 1/Capacity of Equipment 2)^(Value of Index))*(Cost Index 2/Cost Index 1). To calculate Capital Cost of Project with Capacity Q1 using Sixth Tenth Rule, you need Capital Cost of Project with Capacity Q2 (C₂), Capacity of Equipment 1 (Q₁), Capacity of Equipment 2 (Q₂), Value of Index (n), Cost Index 2 (I₂) & Cost Index 1 (I₁). With our tool, you need to enter the respective value for Capital Cost of Project with Capacity Q2, Capacity of Equipment 1, Capacity of Equipment 2, Value of Index, Cost Index 2 & Cost Index 1 and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

Home

FREE PDFs

🔍 Search