mining and geological engineers
Work Environment: Many mining and geological engineers work where mining operations are located, such as mineral mines or sand-and-gravel quarries, in remote areas or near cities and towns. Others work in offices or onsite for oil and gas extraction firms or engineering services firms.
Job Outlook: Employment of mining and geological engineers is projected to grow 4 percent over the next ten years, about as fast as the average for all occupations. Employment growth for mining and geological engineers will be driven by demand for mining operations. In addition, as companies look for ways to cut costs, they are expected to contract more services with engineering services firms, rather than employ engineers directly.
Following is everything you need to know about a career as a mining or geological engineer with lots of details. As a first step, take a look at some of the following jobs, which are real jobs with real employers. You will be able to see the very real job career requirements for employers who are actively hiring. The link will open in a new tab so that you can come back to this page to continue reading about the career:
Respected OC Geotechnical Engineering firm adding Project Geologist to their South County office! This Jobot Job is hosted by: Alyssa Goodrich Are you a fit? Easy Apply now by clicking the "Apply Now ...
Field work is local to Western and Central WA Qualifications: BS in Environmental Science, Geology , Environmental Engineering or related degree 5 years of experience in related field Well versed in ...
Geological engineers search for mineral deposits and evaluate possible sites. Once a site is identified, they plan how the metals or minerals will be extracted in efficient and environmentally sound ways.
Mining engineers often specialize in one particular mineral or metal, such as coal or gold. They typically design and develop mines and determine the best way to extract metal or minerals to get the most out of deposits.
Some mining engineers work with geoscientists and metallurgical engineers to find and evaluate ore deposits. Other mining engineers develop new equipment or direct mineral-processing operations to separate minerals from dirt, rock, and other materials.
Mining safety engineers use best practices and their knowledge of mine design to ensure workers' safety and to maintain compliance with state and federal safety regulations. They inspect the walls and roofs of mines, monitor the air quality, and examine mining equipment for possible hazards.
Many work where mining operations are located, such as mineral mines or sand-and-gravel quarries, in remote areas or near cities and towns. Others work in offices or onsite for oil and gas extraction firms or engineering services firms.
Most mining and geological engineers work full time and some work more than 40 hours a week. The remoteness of some mining locations gives rise to variable schedules and weeks during which they work more hours than usual.
A bachelor's degree from an accredited engineering program is required to become a mining or geological engineer, including a mining safety engineer. Requirements for licensure vary by state but most states require applicants to pass two exams.
Relatively few schools offer mining engineering or geological engineering programs. Typical bachelor's degree programs in mining engineering include courses in geology, physics, thermodynamics, mine design and safety, and mathematics. Bachelor's degree programs in geological engineering typically include courses in geology, chemistry, fluid mechanics, physics, and mathematics. Both types of programs also include laboratory and field work, as well as traditional classroom study.
Master's degree programs in mining and geological engineering typically are 2-year programs and include coursework in specialized subjects, such as mineral resource development and mining regulations. Some programs require a written thesis for graduation.
Analytical skills. Mining and geological engineers must take many factors into account when evaluating new mine locations and designing facilities. They must also plan for the restoration of the surrounding environment after operations end.
Decisionmaking skills. These engineers make decisions that influence many critical outcomesfrom worker safety to mine production. The ability to anticipate problems and deal with them immediately is crucial.
Problem-solving skills. Mining and geological engineers must explore for potential mines, plan their operations and mineral processing, and design environmental reclamation projects. These are all complex projects requiring an ability to identify and work toward goals, while solving problems along the way.
Writing skills. Mining and geological engineers must prepare reports and instructions for other workers. Therefore, they must be able to write clearly so that others can easily understand their ideas and plans.
Licensure is not required for entry-level positions as a mining or geological engineer. A Professional Engineering (PE) license, which allows for higher levels of leadership and independence, can be acquired later in one's career. Licensed engineers are called professional engineers (PEs). A PE can oversee the work of other engineers, sign off on projects, and provide services directly to the public. State licensure generally requires
The initial FE exam can be taken after one earns a bachelor's degree. Engineers who pass this exam are commonly called engineers in training (EITs) or engineer interns (EIs). After meeting work experience requirements, EITs and EIs can take the second exam, called the Principles and Practice of Engineering.
In several states, engineers must earn continuing education credits to keep their licenses. Most states recognize licenses from other states, provided that licensure requirements in the other states meet or exceed the first state's own requirements.
New mining and geological engineers usually work under the supervision of experienced engineers. In large companies, new engineers also may receive formal classroom or seminar-type training. As engineers gain knowledge and experience, they are assigned more difficult projects and they are given greater independence to develop designs, solve problems, and make decisions.
Engineers may advance to become technical specialists or supervise a staff or team of engineers and technicians. Some eventually become engineering managers or enter other managerial or sales jobs. In sales, an engineering background enables them to discuss a product's technical aspects and to assist in product planning, installation, and use. For more information, see the profiles on
architectural and engineering managers and
The median annual wage for mining and geological engineers is $93,800. The median wage is the wage at which half the workers in an occupation earned more than that amount and half earned less. The lowest 10 percent earned less than $57,040, and the highest 10 percent earned more than $156,270.
Most mining and geological engineers work full time and some work more than 40 hours a week. The remoteness of some mining locations gives rise to variable schedules and weeks during which they work more than usual.
Employment growth for mining and geological engineers will depend upon demand for coal, metals, and minerals. These resources are used in many products, from construction materials and cars to cell phones and computers. As companies look for ways to cut costs, they are expected to contract more services with engineering services firms, rather than employ engineers directly.
Civil engineers conceive, design, build, supervise, operate, construct, and maintain infrastructure projects and systems in the public and private sector, including roads, buildings, airports, tunnels, dams, bridges, and systems for water supply and sewage treatment.
Environmental scientists and specialists use their knowledge of the natural sciences to protect the environment and human health. They may clean up polluted areas, advise policymakers, or work with industry to reduce waste.
Health and safety engineers develop procedures and design systems to protect people from illness and injury and property from damage. They combine knowledge of engineering and of health and safety to make sure that chemicals, machinery, software, furniture, and other products will not cause harm to people or damage to property.
Sales engineers sell complex scientific and technological products or services to businesses. They must have extensive knowledge of the products' parts and functions and must understand the scientific processes that make these products work.
china mining processing equipment manufactures, suppliers, factory - mining processing equipment price - zhongbo heavy
The technological process of concentrating generally includes crushing, grinding, flotation and de-watering section. The flotation process is the separation and enrichment process of useful mineral components.
1. Fast heat dissipation
2. Low temperature rise ( 30 )
3. Mature cooling technology, safety, reliability and water saving.
4. Easy installation, operation, maintenance.
5. Field intensity can reach 2T
1. It is suitable for strong magnetic minerals of fine particles in wet separation, or removing strong magnetic minerals in non-magnetic minerals.
2. Can continue to feed and discharge. Because of large magnetic field, it has strong ability to process materials. ...
Adopting computer simulation design with novel and rational structure. Large throughput, low failure rate, flexible. The magnetism system adopts multi-magnetic pole and big cornerite design with high magnetic induction, big depth and good separation effect. Drive system is...
1.Large inhaling capacity and low consumption.
2.Complete flotation circuit with inhaling air and slurry, no auxiliares are needed.
3.Reasonable circulation of slurry decreases coarse sand sedimentation.
4.Automatic controlling device makes adjustment...
1: Large inspiratory capacity and low power consumption.
2: Each tank has suction, suction and flotation into a flotation loop without any auxiliary equipment, horizontal configuration, easy to change the flow.
3: The slurry in the tank is in the lower...
1. Large inspiratory capacity Raise a yield by 12% and low power consumption.
2. Each tank has the functions of air suction, slurry suction and flotation, forming a flotation loop without any auxiliary equipment, horizontal configuration, and convenient flow...
1).With Simple structure, reliable running and easy operation.
2).It mechanically classifies through the mechanism of different sedimentation speed of solid particle in liquid due to different size and different specific gravity.
3).It can classify the ground...
mineral processing, mineral extraction, beneficiation, ore concentration - xinhai
Xinhai mineral processing equipment mainly include: grinding equipment,
flotation equipment, dewatering equipment, magnetic separation equipment,
and so on. Some of the equipment is Xinhai independent research and
development, and has been awarded national patent.
Gold CIP Production Line adsorbs gold from cyaniding pulp by active carbon
including 7 steps: leaching pulp preparation, cyaniding leaching, carbon
adsorption, gold loaded carbon desorption, pregnant solution electrodeposit,
carbon acid regeneration, leaching pulp. View details
As the leading enterprise of global mineral processing plant service industry, Xinhai always focus on the research and development of mineral processing equipment and technologies. Based on strong technical power, regulate by professional operational standards and guaranteed by customized service system, Xinhai is striving to build more great mineral processing service brand, and make substantial economic benefits for every customer.
As one of the leaders of mineral processing industry in the world, Xinhai firstly gained Class-A design qualification, and possessed mine design institute and beneficiation research institute to provide technical support for mineral processing service, aiming at customizing professional mineral processing process for each mine and help customers to maximize mineral processing benefit.
During more than 20 years, Xinhai has always been at the forefront of global mineral processing industry, and constantly devoted itself to the research and innovation of mineral processing technologies and equipment. After many years of study, we have independently produced a series of efficient and energy saving ore beneficiation equipment, which helped our global customers finish mineral processing EPC projects one by one.
Xinhai mineral processing EPC service includes "mine design and research - complete equipment manufacturing and procurement - commissioning and delivery" three parts. Xinhai devotes itself to providing modern, efficient, energy-saving mine construction and solution and creating a world-class mining enterprises for you.
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Xinhai has successively obtained more than 80 patents, Class-A design qualification, and has firstly passed EU international quality certification, ISO9001:2008 product quality management system certification.
Xinhais business is around the world. Our products have exported to more than 160 countries and regions in Southeast Asia, South America, Africa, Europe and Asia, and Xinhai also has established multi-overseas offices all over the world.