User:Kevin.andriano
Contents
INTRODUCTION
Name : Kevin Andriano Sularto
NPM : 1906316181
RELATIONSHIP BETWEEN SUGAR CANE COMPANY, AUTOMOTIVE COMPANY, AND OIL AND GAS COMPANY
There may be several ways to think about the relationship between a sugar cane factory, an automotive factory, and an oil and gas company, but here are a few possible perspectives: File:Sugar Industry-1.jpg Supply chain: Sugar cane, oil, and gas are all used as inputs in various industries, including automotive manufacturing. A sugar cane factory produces sugar, which can be used to make ethanol, a biofuel that can be blended with gasoline. Oil and gas companies produce the gasoline and other petroleum-based products that are used to power vehicles. An automotive factory uses both biofuels and petroleum-based fuels to power the cars it produces. Therefore, there is a supply chain relationship between these industries.
Economic interdependence: Sugar cane, automotive, and oil and gas companies are all part of the global economy, and their success is interconnected. For example, if there is a spike in oil prices, it can increase the cost of transportation for sugar cane and other raw materials, which can in turn affect the profitability of a sugar cane factory. Similarly, if there is a downturn in the automotive industry, it can decrease the demand for fuel, which can affect the profitability of oil and gas companies. Thus, there is an economic interdependence between these industries.
Environmental impact: Sugar cane factories, automotive factories, and oil and gas companies can all have significant environmental impacts. For example, sugar cane production can lead to deforestation and habitat destruction, while automotive factories and oil and gas companies can contribute to air and water pollution and greenhouse gas emissions. Therefore, there is a shared responsibility among these industries to minimize their environmental footprint and work towards sustainability.
Overall, the relationship between a sugar cane factory, an automotive factory, and an oil and gas company is complex and multifaceted, and can be examined from various angles.
INDIVIDUAL PROJECT
HYBRID DIESEL VEHICLE / HYBRID GASOLINE VEHICLE / ELECTRIC VEHICLE. WHICH ONE IS BETTER?
A hybrid diesel vehicle is a type of hybrid vehicle that uses a combination of a diesel engine and an electric motor to power the vehicle. In this type of vehicle, the diesel engine works in tandem with an electric motor and battery to provide propulsion and improve fuel efficiency.
The electric motor in a hybrid diesel vehicle can be used in different ways, depending on the design of the vehicle. For example, in some hybrid diesel vehicles, the electric motor is used to assist the diesel engine during acceleration, providing additional power to the wheels and reducing the load on the diesel engine. This can help to improve fuel efficiency and reduce emissions.
In other hybrid diesel vehicles, the electric motor can be used to power the vehicle on its own at low speeds, such as in stop-and-go traffic, while the diesel engine takes over at higher speeds or when more power is needed. This can help to improve fuel efficiency in city driving conditions, where the vehicle spends a lot of time idling and accelerating slowly.
Hybrid diesel vehicles can provide a number of benefits, including improved fuel efficiency, reduced emissions, and increased performance. They are often used in commercial and industrial applications, such as buses and delivery trucks, where fuel efficiency and environmental impact are important factors. However, they can also be used in passenger cars and SUVs, providing a greener and more efficient alternative to traditional gasoline or diesel engines.
VIDEO SYNOPSIS
https://youtu.be/1_zQj1zbDYM ^click on the link above to watch my individual project synopsis, Happy watching :) #stayconscious
Class resume 03/03/2023
today we discuss pyrolisis, pyrolisi is a fuel that could be burned without or with less air, other conversion methods are gasification, liquefaction, and combustion. pyrolisis fuel examples: charcoal, air gas, oil. it needs drying methods before it will be continued to the reactor. to decompose we need a temperature of 300-350 c in the process
Pyrolisis Process
Pyrolisis is a thermo-chemical decomposition process that converts organic or inorganic materials into solid, liquid and gases products. The pyrolisis involves multiple complex chemical reactions, and the derived product are highly dependent on the pyrolisis operating parameters and type of feedback.
The size of the cuts will effect on the heal product.
DESALINASI
Desalination is the process of removing salt from seawater or other salty water to produce fresh water that can be used for human purposes such as irrigation, consumption and industry. This process is carried out using different technologies, such as reverse osmosis, distillation and other methods. Desalination is a solution to the problem of shortage of fresh water in areas that have limited access to fresh water resources. Although desalination can produce more fresh water, this process requires significant costs and energy, so this technology is not very popular and not very commonly used. In Indonesia, desalination is becoming increasingly important because the country has a limited amount of fresh water, especially in dry areas such as Bali, Lombok and parts of East Java. Currently, Indonesia has several ongoing or ongoing desalination projects.
One of the largest desalination projects in Indonesia is the Seawater Generator (PAL) in Bali. This project is a collaboration between the Governments of Indonesia and Japan which is expected to produce 120 thousand cubic meters of fresh water per day from sea water. In addition, on Nias Island, North Sumatra, a desalination plant has been built which can produce 30 thousand cubic meters of fresh water per day.
In addition to large projects, desalination has also begun to be used on a small scale in several villages and small islands in Indonesia. An example is in the village of Kalabahi, Alor Island, East Nusa Tenggara, where a simple desalination plant was built to provide clean water for the local population.
Nonetheless, desalination technology in Indonesia is still relatively expensive and not yet accessible to the wider community. In addition, the operation of a desalination plant also requires significant operational and maintenance costs. Therefore, there is a need for support and investment from the government and the private sector to expand the use of desalination technology in Indonesia.
