I need the solution in a word format if possible to be email

I need the solution in a word format.
if possible to be email to me.

TIWppPid-124437 RENEWABLE ENERGY Assignment 3 - PV Rural Electrification System - Section 3 Working in pairs, answer the following questions. Please submit your soiution in a Word document limited to 2M8 A guesthouse at Bukit Larut in Taiping, Perak requires a daily energy usage of 2,120 wh to be supplied via an off.grid solar photoveltaic sytem with battey sto questions. Pleose submit your solution in a Word document limited to 2M8 Sketch an overview of the system The battery storage system is to be charged to full capacity within two days, sotely from a solar photovotaic array Design a suitable PV system to achieve this Bukit Larut receives an average of 4.95 peak sun-hours daily Assume a discharge safety factor of 12, inverter efficilency of 94 hours daily. Assume a discharge safety factor of 12, inverter eficiency of 94 %, and state all other relevant assumptions. %. and state all 1. Size a suitable storage capacity to a ow for 3 days or autonomy; and maintaining a minimum level of discharge of 20 % unt chose ono oalsystrm 2. Sketch the possible arrangement of the modules in the array, and the area that would be used if a 15 mm gap between each module is requirnd wltoge sf 12 Submission status No attempt Not graded Friday, 19 August 2016, 5:15 PM 2 days 6 hours Grading status Time remaining

Solution

2,000W per person, inclusive of all services that a society produces and consumes. These forecasts fall short of current reality. In Western Europe, society now “runs at” approximately 6,000W/person with the U.S. and Canada at 12,000W/person. India is now, on average, at 1,000W/person with Bangladesh at 300W/person. These averages level inequalities between rich and poor, urban and rural, and industry, government, and home consumption.

At present, a successful program in Bangladesh offers a $360 USD micro-credit scheme (with a $40 USD subsidy) for families to purchase a 50W solar panel, a battery, three compact fluorescent light bulbs, plus a cell phone charge adapter. At current prices and for current needs in Bangladeshi villages, this supply of electricity is a great step forward, even though the per-capita energy use of these villagers is far less than is considered “normal” in countries that are members of the Organization for Economic Co-operation and Development (OECD). Every noticeable energy advance for local residents provokes interest and desire to enjoy at least some of the benefits of the wealthier world.

However, at some point, decisions must be made at an individual, local, national, and international level to advance to the next stage of electricity-enabled convenience. Are laptop computers with satellite Internet access a top priority? Or television? Refrigeration is a less glamorous, but highly useful electrical device. Air conditioning is likely not a top priority at subsistence level but residents of the urban periphery might very well favor room and house cooling. Saving scarce firewood by using electric cookers can be highly beneficial but requires a fairly high power output. Each technology requires an increment in wattage and battery storage capacity over the basic 50W system that enables small, low-wattage electronic devices.

The next increment in power demand for developing nations will have a profound impact on the convergence between off-grid and grid-tied solar markets. If, instead of 50W or lesser sized panels, 100, 150, or 200W panels become the norm in the developing world, more electric

Rural electrification is an integral component of poverty alleviation and rural growth of a nation. In India, electricity has not played effective role in the socio-economic growth of village. Gross Domestic Product (GDP) is increasing with 8% where as contribution of agriculture sector is 1.9%. Government of India has ambitious target of providing electricity to all villages by 2008 and all rural households by 2012. Steps are already initiated with Rural Electric Corporation, Rural Electricity Supply Technology mission, State Electricity Boards, Reforms in Power sector. An attempt has been made in this paper to assess the features of rural electrification in India and the feasibility of Photovoltaic Solar Home Systems (PV SHS).