Estimation of capital

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Authors: Alex Chandel, Eric Jiang, Minwook Kim, Todor Kukushliev, William Lassman (ChE 352 in Winter 2014)

Steward: David Chen, Fengqi You

Date Presented: 2/9/2014



Introduction

One of the most important aspects of determining the overall economic viability of a chemical process is determining the capital cost. In addition to the purchase price of the equipment, capital costs include delivery and installation of equipment, preparation of land for construction, salaries of contractors and construction workers, and any other costs associated with building a chemical plant. For this reason, the cost associated with process equipment is not as straightforward as the sticker price.

Components of Capital Cost

Fixed Capital Investment

The fixed capital investment is the total cost associated with constructing the plant. This cost includes design, site remediation, purchasing process equipment, developing infrastructure, and contingency charges, and includes the raw material costs as well as labor. It is divided into four categories.

ISBL Plant Costs

ISBL plant costs are the cost of procuring and installing all process equipment. ISBL costs include purchasing and shipping costs of equipment, land costs, infrastructure, piping, catalysts, and any other material needed for final plant operation, or construction of the plant. ISBL costs also include any associated fees with construction such as permits, insurance, or equipment rental, even if these items are not needed once the plant is operational.

ISBL is often defined as the "inner" cost of the plant, in that it is the cost associated with building the plant itself, from unloading the raw materials to shipping final products. Any costs associated with developing the plant itself is considered ISBL. It is important and relatively straightforward to obtain an estimate for the ISBL of the plant, and as other costs are often estimated based on the result of the ISBL, it is critical that this value is as accurate as possible.

OSBL Plant Costs

OSBL, or off-site costs are still an important component of the plant cost, but deals with calculating costs associated with off-site developments that require the plant to run. For example, if water or electricity are being utilized from the main grid, and infrastructure needs to be expanded to accommodate the chemical plant's addition to these systems, these costs are considered OSBL because they are not directly associated with elements between the input and output of the chemical plant.

Other examples of OSBL costs include fencing and security, utilities such as steam or electricity generators, sewers and waste treatment, firefighting and emergency equipment, offices and laboratories, and employee amenities. These facilities and pieces of equipment are not directly affiliated with the process but are critical costs associated with constructing any work site, and are filed under OSBL cost.

OSBL costs are initially estimated as a percentage of the ISBL costs. If not a lot of information ins available, a rule of thumb is to use 40% of the ISBL costs as an estimate for OSBL. However, once detailed information such as the exact site and plant layout are known, OSBL costs can be calculated in a manner similar to the ISBL costs.

Engineering Costs

Many of the steps involved in designing detailed equipment or structures onsite fall outside the scope of chemical process design. Rather than having the plant engineer do these designs anyway, a contractor is usually hired to do this design. The costs associated with generating a design, and in some cases all the way through finished fabrication and installation of equipment is filed under engineering costs. Depending on the size of the project and the amount contracted to the outside, engineering costs may include 30% of the ISBL and up to all of the OSBL, or only 10% of the ISBL. This cost depends largely on the size of the parent company, and whether or not it has in-house capability to do detailed design of the many different processes and equipment within a chemical plant.

Contingency Charges

Once costs are determined, if one could instantaneously construct the plant, then there would be no need for contingency charges. Contingency charges exist though because prices change, unanticipated costs arise, and other unexpected events can cause changes in costs. Contingency charges ensure that there is enough capital on hand to deal with these unexpected changes. Usually, contingency charges are billed to the parent organization, or of the design is done by a contractor to the contracting organization directly at the start of the project, rather than asking for increased funding mid-project. An absolute minimum for contingency charges is 10% of the ISBL and OSBL, with a more realistic value being closer to 40%.


Working Capital

In addition to installation and construction costs, all equipment and buildings need maintenance. To handle this, a certain amount of capital is kept in reserve to handle maintenance costs. This is termed the "working capital" of the plant, in addition to the fixed investment. Working capital is not money that has been spent yet, but is tied up for use in maintaining the plant. Due to the time-value of money, calculating the costs associated with keeping this money but not having spent it on depreciating equipment is non straightforward.

Accuracy and purpose of Capital Cost Estimates

Order of Magnitude Estimates

Estimating Purchased Equipment Costs

Sources of Equipment Cost Data

Obtaining accurate and updated equipment costs is an important matter and there are a variety of sources to obtain this information.

  • Engineering, Procurement, and Construction (Contractors) companies
  • Cost engineering department (common in large companies)
  • Catalog or list prices
  • Cost estimation software
  • Cost correlations
  • Estimate total cost based on cost of components

Cost Correlation

Cost curves can be used as preliminary estimation of equipment costs if updated cost data is not available.

C_e = purchased equipment on a U.S. Gulf Coast basis

a,b,n = constants

S = size parameters

n = exponent constant

Correlations for constants can be found in Towler's Chemical Engineering Design. [1]

Estimation based on component cost

If the process of design and construction of a piece of equipment is known, then it is preferred by professional cost estimators to estimate total cost based on the cost of materials, labor, and manufacturer profit. Estimation of cost based on component cost will allow an unbiased estimation of real cost, allowing accurate estimation as well as possible price negotiation.

Estimating Installed Costs: The Factorial Method

Before the chemical plants can be built, capital cost estimates must be made. This is done by using the factorial method. Accuracy and the reliability of the estimate will heavily depend on the availability of the data and the level of the design at the time. Lang proposed capital cost equipment by given equation:

C = F * Sum(C_e)

C is the total capital cost, F is the installation factor also known as Lang factor, and C_e is the cost of major equipment. Lang factor is 3.1 for solid processing plant and 4.74 for fluids processing plant. Better estimate can be made when the different factors are used for corresponding equipment. Lang factor for different equipment can be found in calibrated data chart. Usually, the above method is used as a preliminary estimate. When more detail has been acquired, installation factor are more rigorously estimated. In detailed factorial estimates, other direct costs are compounded into the Lang factor. Installation factors are usually based on a specific material for its equipment, usually carbon steel. Failure to properly correct installation factors for materials of construction is one of the most common sources of error with the factorial method. Material factor, however, does not linearly scale with the installation factor since the transportation cost, labor cost, and fabricator’s cost does not scale with the material of the equipment. Many variations of the factorial method exist as different assumptions can be made which will determine the rigorousness and the accuracy of the estimate.

Cost Escalation

Cost estimation is a method base that basis its calculation from historical data. The prices of the construction and the labor are subject to inflation; therefore, a method has to be used to update old cost data. The method relates present costs to past costs that are based on statistical digests. To get the best estimate, each job should be broken down into its components and separate indices should be used for labor and materials. A composite index for the United States process plant industry is published in the journal Chemical Engineering. For oil refinery and petrochemicals projects, the Oil and Gas Journal publishes the Nelson-Farrer Refinery Construction Index. Both indices are updated monthly and indices for forty types of equipment are updated quarterly. There are also other indices for building the plants offsite. All cost indices should be used with caution and judgment. They do not fully represent the true costs for any particular piece of equipment or plant, nor the effect of supply and demand on prices. The closer the date of the estimate made from the date of indices published, estimate is more reliable.

Location Factors

Because of the abundance of chemical engineering plants in the U.S Gulf Coast, it is often the standard for plant and equipment cost. Cost of plant construction will differ based on:

  • Construction Infrastructure
  • Labor costs
  • Transportation costs
  • Tax Rates
  • Exchange Rates

It is common to convert cost of construction to locations other than the U.S. Gulf Coast by applying a location factor around the U.S. Gulf Coast in which:

Location Factors fluctuate with currency exchange rates and time. A rule of thumb is to that every 1000 away from the nearest major industrial center adds 10% to the location factor. Specific location factors can be found in the most recent edition of Aspen Richardson's International Construction Cost Factor Location Manual [2].

Estimating Offsite Capital Costs

Computer Tools for Cost Estimating

Several computer tools by Aspen Tech are available for estimating capital costs. Aspen's Economic Evaluation Product Family builds off of its original Icarus technology. In the aspenONE product suite, the primary capital estimation tool is Aspen Capital Cost Estimator. It couples with Aspen Economic Evaluation to provide capital evaluations during process design and operation.

Validity of Cost Estimates

References

1. Gavin Towler and Ray Sinnott, Chapter 7 – Capital Cost Estimating, Chemical Engineering Design, 2nd Ed., edited by Gavin Towler and Ray Sinnott, Butterworth-Heinemann, Boston, 2013, Pages 307–354, ISBN 9780080966595, http://www.sciencedirect.com/science/article/pii/B9780080966595000079.

2. "Richardson International Construction Factors Manual." Pahrump: 2008. <http://www.icoste.org/Book_Reviews/CFM-Info.pdf>.

3. J.C. Mecklenburgh, Plant Design and Economics for Chemical Engineers, Halsted Press: New York, 1985.

4. M.S. Peters, K.D. Timmerhaus, Plant Design and Economics for Chemical Engineers, 5th Ed., McGraw-Hill: New York, 2003.