Method for smelting nickel oxide ore and method for charging pellets

The invention claimed is: 1. A method for charging pellets for smelting by forming pellets from nickel oxide ore, and reducing and heating the pellets with a smelting furnace, the method comprising: a pellet production step of producing pellets from the nickel oxide ore; and a pellet charging step of charging the pellets obtained into a smelting furnace for reducing and heating, wherein the pellet production step forms pellets by making a mixture by mixing raw materials including the nickel oxide ore without mixing in a carbonaceous reducing agent, and then agglomerating the mixture, and wherein the pellet charging step establishes the pellets in a state by spreading carbonaceous reducing agent over a hearth of the smelting furnace in advance, placing the pellets on the carbonaceous reducing agent, and further covering the pellets by carbonaceous reducing agent. 2. A method for smelting nickel oxide ore that forms pellets from nickel oxide ore and smelts by reducing and heating the pellets, the method comprising: a pellet production step of producing pellets from the nickel oxide ore; and a reduction step of reducing and heating the obtained pellets in a smelting furnace at a predetermined reducing temperature, wherein the pellet production step forms pellets by making a mixture by mixing raw materials including the nickel oxide ore without mixing in a carbonaceous reducing agent, and then agglomerating the mixture, and wherein, upon charging the obtained pellets into the smelting furnace, a state is established by spreading carbonaceous reducing agent over a hearth of the smelting furnace in advance, placing the pellets on the carbonaceous reducing agent, and covering the pellets with further carbonaceous reducing agent, and then are reduced and heated in the reduction step. 3. The method for smelting nickel oxide ore according to claim 2 , wherein covering pellets placed on the carbonaceous reducing agent with further carbonaceous reducing agent in the reduction step is performed so that the thickness from an upper end of the pellets thus covered until a surface of a layer of the carbonaceous reducing agent becomes at least 5% of the size in the height direction of the pellets. 4. The method for smelting nickel oxide ore according to claim 2 , wherein the temperature upon charging the pellets into the smelting furnace is set to no higher than 600° C.