PRA DESIGN OF FACTORY MAKING CRYSTAL GLUKOSE FROM Cocoa Skin With Sulfuric Acid Hydrolysis Method With A Capacity Of 27,000 Tons/Year

PRA DESIGN OF FACTORY MAKING CRYSTAL GLUKOSE FROM COCOA SKIN WITH SULFURIC ACID HYDROLYSIS METHOD WITH A CAPACITY OF 27,000 TONS/YEAR

Crystal glucose is an alternative sweetener source that can be obtained through the hydrolysis process of starch into sugar, using the hydrolysis method of sulfuric acid. This process is very important because glucose is the main source of fuel for cell metabolism in the human body. In this context, the factories of making crystal glucose from cocoa skin are planned to have a production capacity of 27,000 tons per year, operating for 330 days a year. This factory aims to optimize waste management in the form of cocoa skin that is quite abundant in Indonesia, as well as increasing export commodities in the country.

The production of crystal glucose from cocoa skin is a promising industry that can provide significant economic benefits to the country. With the increasing demand for alternative sweeteners, the production of crystal glucose can help to meet this demand and reduce the country's reliance on imported sugar. Additionally, the use of sulfuric acid hydrolysis method is a cost-effective and environmentally friendly process that can help to reduce the factory's operating costs and minimize its environmental impact.

The factory is planned to be located in Poso Regency, Central Sulawesi, Indonesia, with an area of ​​land needed around 24,000 m². As a form of business entity, this company will take the form of a Limited Liability Company (PT) with an organizational structure that implements a line and staff system. To run factory operations, it takes 100 people who will help in various aspects of production and management.

The location of the factory in Poso Regency is strategic, as it is close to the cocoa production areas and has access to the necessary infrastructure and resources. The use of a line and staff organizational structure will enable the company to operate efficiently and effectively, with clear lines of communication and decision-making.

Seeing from the economic side, this crystal glucose manufacturing factory shows quite promising potential. The following are the results of the analysis of the economic aspects of the factory:

• Total capital investment: Rp. 871,765,734,731
• Total production costs: Rp. 159,783,193.002
• Sales Revenue: Rp. 547,677,511,920
• Net profit: Rp. 253,931,831,732
• Profit Margin (PM): 46.37%
• Break Even Point (BEP): 35.89%
• Return on Investment (ROI): 27.26%
• Pay Out Time (Pot): 3,669 years
• Return on Network (RON): 48.55%
• Internal Rate of Return (IRR): 30.94%

From the results of the analysis, it can be concluded that the factory making crystal glucose from cocoa skin with the hydrolysis of sulfuric acid shows economic feasibility, has the potential to provide significant and feasible benefits to be invested. Profit margin is quite high and relatively short investment return time, making it an attractive choice for potential investors.

The economic analysis of the factory shows that it has a high potential for profitability, with a net profit of Rp. 253,931,831,732 and a profit margin of 46.37%. The break even point is relatively low at 35.89%, indicating that the factory can operate efficiently and effectively. The return on investment is also high at 27.26%, indicating that the investment in the factory is likely to generate significant returns.

This crystal glucose manufacturing factory from cocoa skin will not only contribute to the management of abundant cocoa waste, but also has a positive impact on the local and national economy. By utilizing raw materials that have been wasted, this factory is expected to create new jobs and increase Indonesian export competitiveness. Through the use of sulfuric acid hydrolysis methods, this factory will produce glucose which has high demand in the market, both for domestic and international consumption.

In conclusion, the PRA design of the factory making crystal glucose from cocoa skin with sulfuric acid hydrolysis method is a promising project that can provide significant economic benefits to the country. With its strategic location, efficient organizational structure, and high potential for profitability, this factory is expected to contribute to the management of cocoa waste and increase Indonesian export competitiveness.
Frequently Asked Questions (FAQs) about PRA Design of Factory Making Crystal Glucose from Cocoa Skin

A: Crystal glucose is an alternative sweetener source that can be obtained through the hydrolysis process of starch into sugar, using the hydrolysis method of sulfuric acid. This process involves breaking down the starch molecules into simpler sugars, which are then crystallized to form crystal glucose.

A: The factory aims to optimize waste management in the form of cocoa skin that is quite abundant in Indonesia, as well as increasing export commodities in the country. By utilizing raw materials that have been wasted, this factory is expected to create new jobs and increase Indonesian export competitiveness.

A: The factory is planned to be located in Poso Regency, Central Sulawesi, Indonesia, with an area of ​​land needed around 24,000 m².

A: The factory has a production capacity of 27,000 tons per year, operating for 330 days a year.

A: The factory will take the form of a Limited Liability Company (PT) with an organizational structure that implements a line and staff system.

A: To run factory operations, it takes 100 people who will help in various aspects of production and management.

A: The factory shows quite promising potential, with a high potential for profitability, a high profit margin, and a relatively short investment return time.

A: The use of sulfuric acid hydrolysis method is a cost-effective and environmentally friendly process that can help to reduce the factory's operating costs and minimize its environmental impact.

A: The factory is expected to create new jobs and increase Indonesian export competitiveness, contributing to the management of cocoa waste and increasing the country's economic growth.

A: The factory may face challenges such as high production costs, competition from other sugar producers, and the need to comply with environmental regulations.

A: The factory can overcome these challenges by implementing efficient production processes, investing in research and development, and ensuring compliance with environmental regulations.

A: The factory has a promising future outlook, with a high potential for growth and profitability. With its strategic location, efficient organizational structure, and high potential for profitability, this factory is expected to contribute to the management of cocoa waste and increase Indonesian export competitiveness.