The attack on net metering isn't unfortunate; what's unfortunate is that people thought net metering ever made any sense. It's free riding on services provided by the grid, forcing others (who don't have PV) to pay for cost of providing those services. As PV rolled out, the craziness of net metering became impossible to ignore. Of course, those feeding at this trough objected loudly, and some naively fell for those objections.

I think it's reasonable to subsidize adoption of early-stage technology that's promising but doesn't pencil out yet, to kick-start the learning curve. Thanks largely to Germany for doing the lion's share of the early subsidies with solar!

But you're of course correct that this is a giant subsidy, and unfortunately it was funded by other rate payers rather than a central government, which was a nutty system from the beginning.

It would be nice if this cost was actually all broken out; the grid operator should charge for connectivity, the various energy providers should charge for the energy itself.

Net metering could still make sense; your residential solar installation might make enough to cover the gap.

I'm sure it varies by locality, but if I look at my electric bill, I see charges for energy, transmission, and maintaining a connection to the grid. Transmission and generation are variable, connection is fixed.

I doubt the $8.50/month is the "right" charge for maintaining a grid connection, but it's what MidAmerican Energy has gotten approved in Iowa. Presumably their charges for transmission and energy cover everything adequately.

It's not just maintaining a connection to the grid, it's maintaining the generating assets on the grid that you sometimes use.

This is exactly what happened in California recently with Net Metering 3.0 -- the utilities cut the value of the electrons you export back onto the grid, and they even broke that value out into a supply chunk and a transmission & distribution (which effectively cuts the total export value even more because they argued that the marginal electron is worth a tiny amount as far as the t&d line items go).

What's happening in California is new rooftop solar doesn't pencil out unless you pair it with batteries (ie you self-consume all your excess), and even then it gets iffy.

There's also the trend where operators charge fixed costs for connectivity. So even if you self-consume everything, you still pay $15-$50/mo just for the connection. That gets trickier because it punishes low-usage users like apartment dwellers and small households because that looks the same as a solar house that self-consumes most of their electricity.

What is needed is charging not just for a connection, but for connection of a certain maximum dependable capacity. This would be best be coupled with some ability to force limitation on the instantaneous consumption, a kind of demand dispatch.

That’s an interesting idea, because it matches the physics of the situation pretty well; on-demand capacity costs the grid something just to have it (batteries, or whatever), so it would be good to make that price visible to users and let them decide if they need it.

It might also push people more toward smart-grid tech, which is a desirable outcome. You might pick a dishwasher that can actually help shave the peak, if it saves you money.

oh, don't worry, there are tons of incentive structures like this already out there. It's sophisticated energy management, though, so it's only in the Commercial & Industrial world (for now)

In C&I land, you have things like demand charges (billing by your max kW, not just kWh), demand-eligibility tiers (your electric arc-furnace plant is going to have very different charges than your warehouse), and even fun things like many flavors of demand ratchets (you have a fixed charge based on your maximum kW in last 3, 6, 12 months, or your maximum kW during the most grid-strained periods last year, or a million other variations).

C&I billing gets very creative.

Some utilities are even today experimenting with demand charges in the Resi space (don't run your dryer while charging your EV!)

This is how it has been before net metering in NL. You are charged by size of the connection: How many A you can consume. Then there is a separate tariff for the transport costs (fixed per day) and then the costs per kWh. With net metering the transport/connection costs stayed. Currently kWh is about €0.28.

That’s how it is in Texas. The company that owns the power lines to your house is unrelated from the company you buy the electricity from. (The latter of which you have dozens of options to pick from)

We need all the renewables we can get, and I think you can have both -- utility-scale and rooftop. Rooftop solar (and battery storage) just needs to be cost efficient to offset the rising cost of electricity and make it a good return on investment.

The "attacks on net metering" are merely acknowledging that the proportion of renewables on the grid is high enough that balancing grid supply and demand is becoming an issue. I'm a big proponent of rooftop solar, but the reality is that 1:1 net metering just doesn't make sense once there's a critical mass of solar installed (the duck curve problem). This is not a problem unique to California or the US. If you look at other places with high solar adoption (Australia, EU), you'll find even stricter policies like negative feed-in tariffs: the utility will charge you for exporting solar to the grid.

Battery storage is a solution to that problem, but that's where prices are still too high. I'm actually surprised that battery storage is not mentioned in the article, because that's a critical component of allowing solar/wind to grow further.

I think it's worse than that, for rooftop solar you have an enormous amount of sales and marketing expense baked in, plus you have homeowners which don't have enough experience to know what a good price/good install looks like. Much less of that with bigger systems.

The other major problem is the grid is not setup at all for consumers to also be generators. At least in the UK it is rare/not possible for the DNO to send power back from a neighbourhood to the grid (at least not without a total remodel of the local grid infrastructure).

So we are now hitting problems where solar is not allowed to be connected to the DNO if you have streets with a lot of solar on, because at some point the generation from the houses on the areas local transmission outstrips the demand in summer, and in that case you have too much power and nowhere for it to go (the excess cannot be sent back to the high voltage grid). The DNO cannot turn off individual solar generators easily (and even if they could, do they trust a load of chinese inverters to work reliably remotely?)

I think the key problem with solar/renewables is not undersupply in winter in northern climates (though that is a big one for true net zero) it is oversupply in the summer. It's already causing massive issues in Europe with long spells of negative pricing. Interconnectors don't really help with this because when it is sunny (and potentially windy) in one place in Europe it tends to be similar elsewhere, so everyone has too much power.

This is before the UK adds another huge amount of solar and wind in pipeline by 2030.

Note this comment only applies to northern climates. It's far less of an issue further south because AC load tends to follow solar production much more, but that is far less common in the UK.

Yes, roof-top installation is expensive, but if you combine it with other maintenance of the roof, it gets very cheap. And any new roof should have it planned in with the setup.

Also, here the northern latitude helps, in Germany people start putting solar panels on walls and fences. There is plenty of cheap space and the efficiency isn't too bad considering the cheap panel costs.

> A solar farm can use robots to install tens of thousands of panels cheaply.

Doesn't matter if it doesn't bring down the cost of electricity. For example in california PG&E will still charge a substantial "delivery fee".