Profit Maximization Techniques for Operating Chemical Plants. Sandip K. Lahiri
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Название: Profit Maximization Techniques for Operating Chemical Plants

Автор: Sandip K. Lahiri

Издательство: John Wiley & Sons Limited

Жанр: Отраслевые издания

Серия:

isbn: 9781119532170

isbn:

СКАЧАТЬ its design limit for maximization of plant capacity will definitely increase its failure rate. Therefore, profit maximization is an approach that sees all these conflicting attempts in a holistic way and evaluates the strategy that will maximize profit of the plant in the long run and sustain it.

      In simple terms, profit maximization means maximize dollar per hour generation from the plant and make sure that this is sustained. In mathematical terms,

       Maximize

       Profit generation in $/h terms from the plant

       Subject to constraints: all process and safety constraints need to be honored and all equipment limitations should not be violated

      Some common ways to maximize profit are (but not limited to) (Lahiri, 2017a):

       Maximize plant throughput while obeying all operational and safety limits imposed by the designer.

       Minimize raw material and utility consumption.

       Reduce production costs by maximizing process efficiency (like catalyst selectivity, yield).

       Increase plant and process equipment reliability while obeying all design and safety limitations so that the profit‐making production process can be sustained for longer periods, etc. In still other cases, there is a tradeoff between increased throughput and decreased process efficiency and so process optimization is needed.

      Critically assess current plant operation and identify and exploit the opportunities.

      The most common way to increase profit is to run the plant at maximum possible capacity. This essentially means push the plant to its limit so that multiple pieces of equipment or assets touch their maximum operating limits. This is called “sweating of the asset.” One major target of the profit maximization project is sweating of all assets in the plant. Plant engineers and managers are also considered as valuable human assets of the company and sweating them intellectually is also needed.

      Running the plant at maximum capacity does not mean to run it at its nameplate capacity, i.e. process flow diagram (PFD) capacity. That is the bare minimum target. All over the world, good companies are running at 125–150% of their nameplate design capacity. Normally they follow three basic steps to increase plant capacity:

       Step 1: A 10–15% capacity increase over its nameplate design capacity is usually possible by exploiting the design margin usually available in process equipment.

       Step 2: Another 5–10% capacity increase is possible by a small investment or minor modifications with resources already available in the plant or outside with little capex.

       Step 3: Rest 20–25% capacity can be done by a major revamp and with big capex.

      All good plants follow these three steps in order and continuously improve themselves so that with the same plant they can run 25–50% extra capacity. This is one of the surest ways to increase profit.

      Running the plant lower that its nameplate design capacity is no longer a viable option and all the plants running at a lower capacity will not be able to cope with stiff international competition and eventually will perish over time. Hence the first and most important step in profit maximization is to know the techniques of how to run the plant at its highest possible capacity. This essentially means:

       How to know and exploit the design margin available in installed equipment?

       How to know the equipment that is a bottleneck for a further capacity increase?

       How to carry out a detailed cost benefit analysis for a major revamp project?

      However, the profit maximization project does not end by maximizing the capacity only and involves all the multi‐faceted activities to increase profit in the plant. Following this project an old generation plant can be transformed to a new generation plant. As the scope is vast, this book only addresses some of the proven techniques related to chemical engineering and suggests some alternative innovative ways to generate profit. Some of the ways to increase profits (but are not limited to these) are given below (make a diagram similar to that in Figure 1.2):

       Assess existing plant operation and identify and exploit the opportunities to increase profit.

       Implement an advance online process monitoring system to monitor equipment and process performance in real time.

       Implement a real‐time fault diagnosis system to detect any abnormality of equipment/process at its incipient stage and take preventive and corrective action.

       Identify and implement a major debottleneck project.

       Utilize a process modeling and simulation technique to optimize process parameters to increase profit.

       Identify hidden margins available in major distillation columns and push them to their limit.

       Utilize different modeling techniques (data driven or kinetic driven) to generate a model of a major reactor and subsequently optimize reactor parameters to increase profit.

       Identify the scope of utility savings and waste reduction to increase profit by implementing them.

       Install APC and RTO to stabilize СКАЧАТЬ