Electrical Safety Engineering of Renewable Energy Systems. Rodolfo Araneo

Electrical Safety Engineering of Renewable Energy Systems - Rodolfo Araneo


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1.2), it is conservatively assumed an adiabatic process. Such a process calls for no heat removal into neighboring tissues by blood flow or by conduction and/or convection into the air, but it is presumed that all the heat stays within the tissue.

Tissue σ (S/m)
Blood 7.00E-1
Bone 8.07E-2
Cartilage 1.71E-1
Fat 4.04E-2
Heart 8.27E-2
Kidney 8.92E-2
Muscle 2.33E-1
Nerve 2.74E-2
Skin (dry) 2.00E-4
Skin (wet) 4.27E-4

      c is the volume-specific heat capacity, defined as the heat necessary to increase the temperature of a unit volume of a substance by 1˚C.

      The temperature rise ΔT is given by Eq. 1.4

      Equation 1.4 shows that the temperature rise ΔT depends on the square of the current density J and on the duration t of the current circulation.

      The skin has the lowest conductivity among the biological tissues, and the current density is higher at the point of contacts on the body (referred to as entry and exit sites); therefore, for a given current, the highest temperature rise is achieved on the skin, which therefore suffers the greatest level of damage.

      Thermal shock can also be caused by the heat released by electric arcs, which are accompanied by the vaporization of metal to form a superheated toxic gas.

      1.5 Heated Surfaces of Electrical Equipment and Contact Burn Injuries

      Burns can also be triggered by unintentional contact with hot surfaces of electrical equipment, which may be readily accessible during normal operations (e.g., the surface of a PV module) [20, 21].

      Most apparatus and appliances in industrial, commercial, and residential environments are thermally insulated unless the insulation would prevent their functions (e.g., the bottom surface of a flatiron). However, superficial temperatures of insulated equipment may still be high enough to cause burns from contact with readily accessible parts. The severity of such burns will depend on the thermal resistivity of the material of the touchable surface, and the pressure and duration of the contact.

      An effective protection against burns can be established based on the acceptable contact period and on the level of acceptable injury.

Age Group Exposure time (s)
Adults 0.5–1
age < 2 years 15
2 years < age < 6 years 4
6 years < age < 14 years 2
Elderly persons 1–4
Physical disabilities According to nature of disability

      The bottom curve TB is the locus of the pairs temperature and exposure time representing the limit of the reversible epidermal injury; TB describes the acceptable injury level as a first degree burn, that


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