Wednesday, May 6, 2020
The Field Of Human Resource Management Essay - 1543 Words
Executive Summary Several studies in the field of Human Resource Management concentrate on the importance of a Human Resources Business Partner to the organisationââ¬â¢s performance. Bredin (2008) notes a shift from traditional to strategic Human Resources Management and the implications for the organisation. Ulrich (1997) suggested how Human Resource Management and the role of a Human Resources Business Partner can contribute to an organisationââ¬â¢s competitive advantage. The objective of this literature review is to provide a reasonable understanding regarding the various roles and structures in Human Resources. It looks at changes, barriers, challenges and the implication of those changes faced by a Human Resources Business Partner when moving into the role of strategic business partner. Adding value to the organisationââ¬â¢s strategic outcomes by knowing the business and applying their knowledge to implement change. Introduction Business today is competitive and driven by a precipitous market, retention of talent, new technologies and globalisation. To effectively cope with market changes, an organisation must build on improving their workforce proficiencies and thereby improving the organisationââ¬â¢s ability to be competitive, successful and build business continuity. And this is where the role of a HRBP has come into play to ensure that an organisation has strategies and abilities to overcome changes and challenges. HRBP is a business centred model developed to ensure supportShow MoreRelatedHuman Resource Management : The Field Of Human Resources1159 Words à |à 5 PagesHuman Resource Management My desired career is that of a human resource generalist. The field of a human resource generalist is responsible for the recruitment, new employee orientation, on-boarding and off-boarding, and prepares and maintain employee handbook of the organizationââ¬â¢s workforce. To obtain a position as a human resource generalist, employers look for someone with a bachelorââ¬â¢s degree in human resource management depending on the amount of experience, this would get you an entry levelRead MoreThe Field Of Human Resource Management Essay1358 Words à |à 6 PagesThe field of Human Resource Management is a major factor in utilizing individuals within the company to achieve organizational objects, while facing a multitude of challenges daily. While conducting a phone interview on September 27, 2016 at 11:30 am with Missi Bowers, the Human Resource Manager and Environmental Health and Safety Coordinator at the Masonite Architectural Algoma Hardwoods plant in Jefferson City, Tennessee, sh e provided first hand experience within the career. Mrs. Bowers can beRead MoreThe Field Of Human Resource Management Essay2209 Words à |à 9 Pagesstudies in the field of Human Resource Management concentrate on the importance of a Human Resources Business Partner to the organisationââ¬â¢s performance. The evolution of HR has led to the need to find, establish and use competitive advantage for a business to exist. Bredin (2008) notes a shift from traditional to strategic Human Resources Management and the implications for the organisation. Ulrich (1997) suggested how Human Resource Management and the role of a Human Resources Business PartnerRead MoreThe Field Of Human Resource Management846 Words à |à 4 PagesThe field of Human Resource Management is necessary for most businesses to grow and succeed into larger and successful companies. HR can be defined as the part of the company that focuses on the people rather than the business itself. HR does improve the business, but the key focus is on the people. Responsibilities that HR usually holds includes finding new employees, hiring new employees, teaching the new employees the culture of the company and their role in the company, as well as taking careRead MoreHuman Resource Management And The Management Field895 Words à |à 4 PagesThe Human Resource Management is a principal and novel field in the Management. The Human Resource Manageme nt is a specious economic and social resource role in the Management field. The foundation of HRM is that effectively organize and impact the employees. In addition to, it is more significant that than manage the staff. That is the reason why the human resource management as a new and positive management model to be accepted by the companies. Meanwhile, the human resource department in everyRead MoreHuman Resource Management At The Management Field849 Words à |à 4 PagesIntroduction A broad body of literature in the management field is cantered around the idea of people as assets and emphasizes the importance of Human Resource Management (HRM) to improve firmââ¬â¢s performance and underpin its strategy. While there is evidence that HRM practices can improve organizational performance, a key issue is understanding if such improvement qualifies as competitive advantage or merely achieves competitive parity. Several authors agree that people are sustainable sourceRead MoreThe Field Of Strategic Human Resource Management1243 Words à |à 5 PagesThe New Job In a traditional model of human resources, employees move through employment in a typical progression from hiring to separation or retirement. As we enter the new era of an advanced high-tech environment, the business world is also entering into an era of fierce competition noticed by takeovers and mergers. This illuminates the type of dynamic and complex business environment that companies have to face. The rapid change in the environment reminds us that, for a business to survive,Read MoreHr Field Of Human Resource Management1668 Words à |à 7 Pagesthese changes also effect the employees within the workplace, this has forced the field of human resource management to change rapidly. Methodology: HR Management in the 21st Century: Whatââ¬â¢s Ahead? Objective: This paper examines the rapid change in Human Resource Management throughout the 21st century. Human Resource Management is defined as a developmental function in an organization that helps employees and management teams maintain rules, regulations, incentives, salaries, etc. Research was conductedRead MoreHuman Resource Management And The Health Care Field1273 Words à |à 6 PagesHuman resource management is an energetic advocate to health care and to an organization. I will challenge to display fair how so in this paper by defining key roles that human resource administration shows in the health care field. I inspiration assess three to five tasks of human resource administration in positions of their equal of support and give an view of which one I touch to be the principal purpose in expanding the health care field. To sum up, I will study the part of human resource management
Oil Spill, Status and Solution free essay sample
Crude oil and refined fuel spills fromà tanker shipà accidents have damaged naturalà ecosystemsà inà Alaska, theà Gulf of Mexico, theà Galapagos Islands, France and manyà other places. The quantity of oil spilled during accidents has varied from a few hundred tons to several hundred thousand tons (for example : Deepwater Horizon Oil Spill,à Atlantic Empress,à Amoco Cadiz) but is a limited barometer of damage or impact. Smaller spills have already proven to have a great impact on ecosystems (Exxon Valdez oil spill)à because of the inaccessibilityof the site or the difficulty of an emergency environmental responses. Oil spills at sea are generally much more damaging than those on land, since they can spread for hundreds of seagoing miles in a thinà oil slickà which can cover beaches with a thin coating of oil. This can kill sea birds, mammals, shellfish and other organisms. Oil spills on land are more readily containable if a makeshift earth dam can be rapidlyà bulldozedà around the spill site before most of the oil escapes, and land animals can avoid the oil more easily. We will write a custom essay sample on Oil Spill, Status and Solution or any similar topic specifically for you Do Not WasteYour Time HIRE WRITER Only 13.90 / page Largest oil spills, ordered byà tons Spill/Tanker |Location |Date |Tons of crude oil |Barrels | | | | |(thousands) |(thousands) | |Kuwaiti oil fires |[pic]Kuwait |January, 1991à à November, |136,000-205,000 |1,000,000-1,500,000 | | | |1991 | | | |Kuwaiti oil lakes |[pic]Kuwait |January, 1991à à November, |25,000-50,000 |1,050,000-2,100,000 | | | |1991 | | | |Lakeview Gusher |[pic]United States,à Kern |March 14, 1910à ââ¬âSeptember, |9,000 |378,000 | | |County, California |1911 | | | |Gulf War oil spill |[pic]Kuwait,à Iraq, and |January 19, 1991à -January |6,000ââ¬â8,000 |252,000ââ¬â336,000 | | |theà Persian Gulf |28, 1991 | | | |Deepwater Horizon |[pic]United States,à Gulf of |April 20, 2010à ââ¬âà July 15, |4,100-4,900 |172,000-180,800 | | |Mexico |2010 | | | |Ixtoc I |[pic]Mexico,à Gulf of Mexico |June 3, 1979à ââ¬âà March 23, |3,329ââ¬â3,520 |139,818ââ¬â147,840 | | | |1980 | | | ESTIMATE THE VOLUME OF AN OIL SPILL By ob serving the thickness of the film of oil and its appearance on the surface of the water, it is possible to estimate the quantity of oil spilled. If the surface area of the spill is also known, the total volume of the oil can be calculated. |Film Thickness |Quantity Spread | |Appearance |in |mm |nm |gal/sq mi |L/ha | |Barely Visible |0. 0000015 |0. 0000380 |38 |25 |0. 370 | |Silvery sheen |0. 0000030 |0. 0000760 |76 |50 |0. 730 | |First trace of color |0. 0000060 |0. 0001500 |150 |100 |1. 500 | |Bright bands of color |0. 0000120 |0. 0003000 |300 |200 |2. 900 | |Colors begin to dull |0. 0004000 |0. 010000 |1000 |666 |9. 700 | |Colors are much darker |0. 0008000 |0. 0020000 |2000 |13322 |19. 500 | Oil spill model systems are used by industry and government to assist in planning and emergency decision making. Critical importance for the skill of the oil spill model prediction is the adequate description of the wind and current fields. There is a worldwide oil spill modelling (WOSM) prog ram. Tracking the scope of an oil spill may also involve verifying that hydrocarbons collected during an ongoing spill are derived from the active spill or some other source. NDINGS. ENVIRONMENTAL EFFECTS Having been mentioned above,oil punctures into the structure of theà plumageà of birds and theà furà of mammals, reducing its insulating ability, and making them more vulnerable to temperature fluctuations and much lessà buoyantà in the water. Oil spills can pose grave dangers to surrounding ecosystems. As oil floats on water, it blocks sunlight from getting through to plants and other wildlife below. The substance is also toxic and nullifies the waterproofing and insulating properties of feathers and fur, allowing it to kill animals via poisoning or hypothermia. And oil spills can impede private and commercial fishing, too, spurring economic problems. Animals that rely on scent to find their babies or mothers fade away due to the strong scent of the oil. This causes a baby to be rejected and abandoned, leaving the babies to starve and eventually die. Oil can weaken an ability to fly of a bird, preventing it from foraging or escaping from predators. As theyà preen, birds may ingest the oil coating their feathers, irritating theà digestive tract, alteringà liverà function, and causingà kidneyà damage. Together with their diminished foraging capacity, this can rapidly result in dehydration and metabolic imbalance. Some birds exposed to petroleum also experience changes in their hormonal balance, including changes in theirà luteinizingà protein. The majority of birds affected by oil spills die without human intervention. Some studies have suggested that less than one percent of oil-soaked birds survive, even after cleaning. Heavily furredà marine mammalsà exposed to oil spills are affected in similar ways. Oil coats the fur ofà sea ottersà andà seals, reducing its insulating effect, and leading to fluctuations inà body temperatureà andà hypothermia. Oil can also blind an animal, leaving it defenseless. The ingestion of oil causes dehydration and weakens the digestive process. Animals can be poisoned, and may die from oil entering the lungs or liver. There are three kinds of oil-consuming bacteria. Sulfate-reducing bacteriaà (SRB) and acid-producing bacteria areà anaerobic, while general aerobic bacteria (GAB) areà aerobic. These bacteria occur naturally and will act to remove oil from an ecosystem, and their biomass will tend to replace other populations in the food chain. ENVIRONMENT SENSITIVE INDEX (ESI) MAPPING Environmental Sensitivity Index (ESI) maps are used to identify sensitive shoreline resources prior to an oil spill event in order to set priorities for protection and plan cleanup strategies. By planning spill response ahead of time, the impact on the environment can be minimized or prevented. Environmental sensitivity index maps are basically made up of information within the following three categories: shoreline type, and biological and human-use resources. Shoreline type Shorelineà type is classified by rank depending on how easy the garet would be to clean up, how long the oil would persist, and how sensitive the shoreline is. The floating oil slicks put the shoreline at particular risk when they eventually come ashore, covering theà substrateà with oil. The differing substrates between shoreline types vary in their response to oiling, and influence the type of cleanup that will be required to effectively decontaminate the shoreline. In 1995, the USà National Oceanic and Atmospheric Administrationà extended ESI maps to lakes, rivers, and estuary shoreline types. The exposure the shoreline has to wave energy and tides, substrate type, and slope of the shoreline are also taken into accountââ¬âin addition to biological productivity and sensitivity. The productivity of the shoreline habitat is also taken into account when determining ESI ranking. Mangrovesà and marshes tend to have higher ESI rankings due to the potentially long-lasting and damaging effects of both the oil contamination and cleanup actions. Impermeable and exposed surfaces with high wave action are ranked lower due to the reflecting waves keeping oil from coming onshore, and the speed at which natural processes will remove the oil. Biological resources Habitats of plants and animals that may be at risk from oil spills are referred to as elements and are divided by functional group. Further classification divides each element into species groups with similar life histories and behaviors relative to their vulnerability to oil spills. There are eight element groups: Birds, Reptiles, Amphibians, Fish, Invertebrates, Habitats and Plants, Wetlands, and Marine Mammals and Terrestrial Mammals. Element groups are further divided into sub-groups, for example, the ââ¬Ëmarine mammalsââ¬â¢ element group is divided intoà dolphins, manatees,pinnipedsà (seals, sea lions walruses),à polar bears,à sea ottersà andà whales. Problems taken into consideration when ranking biological resources include the observance of a large number of individuals in a small area, whether special life stages occur ashore (nesting or molting), and whether there are species present that are threatened, endangered or rare. Human-use resources Human use resources are divided into four major: ( Classifications ( Archaeologicalà importance or cultural resource site, ( High-use recreational areas or shoreline access points, ( Important protected management areas, or resource origins. The oil spills affect all of these four major and they are usually bad effects for our Human life. Some examples include airports, diving sites, popular beach sites, marinas, natural reserves or marine sanctuaries. [pic] A U. S. Air Force Reserve plane sprays Corexità dispersant over theà Deepwater Horizon oil spillà in the Gulf of Mexico. [pic] Clean-up efforts after theà Exxon Valdez oil spill. [pic] A US Navy oil spill response team drills with a Harbour Buster high-speed oil containment system. [pic] Surf Scoterà covered in oil as a result of theà 2007 San Francisco Bay oil spill. [pic] A bird covered in oil from theà Black Sea oil spill. [pic] Volunteers cleaning up the aftermath of theà Prestige oil spill. POTENTIAL SOLUTIONS OR RECOMMENDATIONS. Humans have taken a variety of measures to clean up oil spills, but a perfect method has yet to be found. A common first step is to set up floating booms to contain the loose oil, and then pump it up for storage. Chemical dispersants can break up oil into smaller, dispersible droplets, although they can also make oil more toxic. When oil spills reach shorelines, standard cleaning procedures involve a combination of manpower, construction equipment and vacuums CLEANUP AND RECOVERY Cleanup and recovery from an oil spill is difficult and depends upon many factors, including the type of oil spilled, the temperature of the water (affecting evaporation and biodegradation), and the types of shorelines and beaches involved. Methods for cleaning up include: â⬠¢ Bioremediation: use ofà microorganismsà orà biological agentsà to break down or remove oil. Bioremediation Accelerator: Oleophilic, hydrophobic chemical, containing no bacteria, which chemically and physically bonds to both soluble and insoluble hydrocarbons. The bioremediation accelerator acts as a herding agent in water and o n the surface, floating molecules to the surface of the water, including solubles such as phenols and BTEX, forming gel-like agglomerations. Undetectable levels of hydrocarbons can be obtained in produced water and manageable water columns. By overspraying sheen with bioremediation accelerator, sheen is eliminated within minutes. Whether applied on land or on water, the nutrient-rich emulsion creates a bloom of local, indigenous, pre-existing, hydrocarbon-consuming bacteria. Those specific bacteria break down the hydrocarbons into water and carbon dioxide, with EPA tests showing 98% of alkanes biodegraded in 28 days; and aromatics being biodegraded 200 times faster than in nature they also sometimes use the hydrofireboom to clean the oil up by taking it away from most of the oil and burning it. â⬠¢ Controlledà burningà can effectively reduce the amount of oil in water, if done properly. But it can only be done in lowà wind,and can causeà air pollution. â⬠¢ Dispersantsà can be used to dissipateà oil slicks. A dispersant is either a non-surface activeà polymerà or aà surface-active substanceà added to asuspension, usually aà colloid, to improve the separation ofà particlesà and to preventà settlingà orà clumping. They may rapidlyà disperseà large amounts of certain oil types from the seaà surfaceà by transferring it into theà water column. They will cause the oil slick to break up and form water-solubleà micellesthat are rapidlyà diluted. The oil is then effectively spread throughout a larger volume of water than the surface from where the oil was dispersed. They can also delay the formation of persistentà oil-in-water emulsions. However, laboratory experiments showed that dispersants increased toxic hydrocarbon levels in fish by a factor of up to 100 and may kill fish eggs. Dispersed oil droplets infiltrate into deeper water and can lethally contaminateà coral. Research indicates that some dispersants are toxic to corals. A 2012 study found thatà Corexità dispersant had increased the toxicity of oil by up to 52 times. â⬠¢ Watch and wait: in some cases, natural attenuation of oil may be most appropriate, due to the invasive nature of facilitated methods of remediation, particularly in ecologically sensitive areas such as wetlands. â⬠¢ Dredging: for oils dispersed with detergents and other oils denser than water. â⬠¢ Skimming: Requires calm waters at all times during the process. â⬠¢ Solidifying: Solidifiers are composed of dryà hydrophobicà polymersà that bothà adsorbà andà absorb. They clean up oil spills by changing the physical state of spilled oil from liquid to a semi-solid or a rubber-like material that floats on water. Solidifiers areà insolubleà in water, therefore the removal of the solidified oil is easy and the oil will not leach out. Solidifiers have been proven to be relatively non-toxic to aquatic and wild life and have been proven to suppress harmful vapors commonly associated with hydrocarbons such as Benzene, Xylene, Methyl Ethyl, Acetone and Naphtha. The reaction time for solidification of oil is controlled by the surf area or size of the polymer as well as the viscosity of the oil. Some solidifier product manufactures claim the solidified oil can be disposed of in landfills, recycled as an additive in asphalt or rubber products, or burned as a low ash fuel. A solidifier called C. I. Agent (manufactured byà C. I. Agent Solutionsà ofà Louisville, Kentucky) is being used byà BPà in granular form, as well as in Marine and Sheen Booms atà Dauphin Islandà andà Fort Morgan, Alabama, to aid in theà Deepwater Horizon oil spillà cleanup. â⬠¢ Vacuum andà centrifuge: oil can be sucked up along with the water, and then a centrifuge can be used to separate the oil from the water allowing a tanker to be filled with near pure oil. Usually, the water is returned to the sea, making the process more efficient, but allowing small amounts of oil to go back as well. This issue has hampered the use of centrifuges due to a United States regulation limiting the amount of oil in water returned to the sea. Equipment used includes: â⬠¢ Booms: large floating barriers that round up oil and lift the oil off the water â⬠¢ Skimmers: skim the oil Sorbents: large absorbents that absorb oil â⬠¢ Chemical and biological agents: helps to break down the oil â⬠¢ Vacuums: remove oil from beac hes and water surface â⬠¢ Shovelsà and other road equipment: typically used to clean up oil on beaches PREVENTION â⬠¢ Secondary containment methods to prevent releases of oil or hydrocarbons into environment. â⬠¢ Oil Spill Prevention Containment and Countermeasures (SPCC) program by theà United Statesà Environmental Protection Agency. â⬠¢ Double-hulling buildà double hullsà into vessels, which reduces the risk and severity of a spill in case of a collision or grounding. Existing single-hull vessels can also be rebuilt to have a double hull. Offshore oil spill prevention and responseà is the study and practice of reducing the number of offshore incidents that release oil or hazardous substances into the environment and limiting the amount released during those incidents. Important aspects of prevention include technological assessment of equipment and procedures, and protocols for training, inspection, and contingency plans for the avoidance, control, and shutdown of offshore operations. Response includes technological assessment of equipment and procedures for cleaning upà oil spills, and protocols for the detection, monitoring, containment, and removal of oil spills, and the restoration of affected wildlife and habitat. CONCLUSION: This course project indicated that many awful effects are brought along with oil spills to human life. Nevertheless, with lots of methods to minimize the those effects of oil spills, in studies based on the current status, root causes and its outer results and by analysing one example of oil spill, BP oil ,new and bright future of human could be obtained for the next generation. REFERENCES _http://en. wikipedia. org/wiki/Oil_spill _http://en. wikipedia. org/wiki/Deepwater_Horizon_oil_spill _http://www. popularmechanics. com/science/energy/coal-oil-gas/biggest-oil-spills-in-history#slide-1 (from slide 1 to 10 , changing the number at the end from 1 to 10) _http://www. mnn. com/eco-glossary/oil-spill British Petroleum Deepwater Accident Investigation Reportââ¬â September 2010 _Drowning in Oil: BP and the Reckless Pursuit of Profit Loren C. Steffy ââ¬â McGraw-Hill 2011 _In Too Deep ââ¬â BP And The Drilling Race That Took It Down Reed Fitzgerald 2011 Bloomberg Press _http:// www. amsa. gov. au/marine_environment_protection/educational_resources_and_information/teachers/the_effects_of_oil_on_wildlife. asp _http://www. bbc. co. uk/news/special_reports/oil_disaster/ _http://www. nwf. org/What-We-Do/Protect-Habitat/Gulf-Restoration/Oil-Spill/Effects-on-Wildlife. aspx _http://www. latimes. com/news/science/sciencenow/la-sci-sn-gulf-oil-spill-fish-20130502,0,6888111. story OIL SPILL ABSTRACT:
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